WO1996003500A1

WO1996003500A1 - Sustance with antiviral activity

Info

Publication number: WO1996003500A1
Application number: PCT/JP1995/001472
Authority: WO
Inventors: Yoko Shoji; Jingoro Shimada; Yutaka Mizushima; Wakao Iwatani; Nobuya Tamura
Original assignee: Ltt Institute Co., Ltd.; Kaken Pharmaceutical Co., Ltd.
Priority date: 1994-07-26
Filing date: 1995-07-25
Publication date: 1996-02-08
Also published as: AU2991295A

Abstract

A phosphorothioate oligodeoxyribonucleotide which has 5 to 30 base units and contains at least one base sequence ?5'-GXGGG-3'¿ (wherein G represents guanine and X represents any of adenine, thymine, guanine and cytosine) and wherein the linkage between the nucleosides is a phosphorothioate linkage, a salt thereof and chemical modifications thereof; and an antiviral agent containing the same. This compound has a high antiviral activity against herpes simplex virus and human immunodeficiency virus (HIV) and is useful for treating or preventing various viral infections.

Description

Satsuki Itoda antiviral active substance

The present invention relates to a substance that suppresses the growth of a virus, and more particularly, to a modified oligodoxyribonucleotide having a virus growth-inhibiting effect. Background art

At present, nucleoside analogs acyclovir (hereinafter referred to as “Acv”), ganciclovir, and blobavir are known as chemotherapeutic agents for herpes virus infections. These drugs undergo triphosphorylation in the virus-infected cells by the virus's thymidine kinase and the host cell's kinase, and the resulting phosphorylated form inhibits the viral DNA polymerase, thereby causing virus infection. Blocks DNA replication and suppresses virus growth. At present, the above-mentioned ACV is clinically widely used for the treatment of herpes virus infections.

Having a different mechanism of action from the nucleoside analogs such as ACV, etc., it has a sequence complementary to the base sequence of mRNA that mediates the protein production process based on the protein structural information on the gene (DNA) Oligonucleotides (hereinafter referred to as "antisense oligonucleotides") are known. Recently, as the number of immunodeficient patients due to human immunodeficiency virus (hereinafter referred to as “HIV”) infections and immunosuppression due to organ transplantation has increased, the health of humans as opportunistic infections has increased. Infection ^ is increasing. Furthermore, isolation of a strain of Herpesvirus that is resistant to ACV has also been reported.

Once infected, herpes virus often persists throughout its life.To prevent and treat relapses due to this virus lurking in the body, and to prevent disease caused by ACV-resistant virus strains. For the treatment, the development of a new drug that has the effect of inhibiting the growth of Halves virus is desired. WO 94/08053 discloses that an oligonucleotide containing one GGG G (G is a guanine-containing nucleotide or an analog thereof) sequence or two GGG sequences in its base sequence is a simple herpes virus. (Hereinafter referred to as “HSV”), which have been disclosed to have antiviral activity against viruses such as HIV. Further, as a preferred specific example, it is disclosed that a bond between nucleosides comprises a phosphorothioate bond. Purpose of the invention

The present invention has a chemical structure different from that of nucleoside analogs such as ACV, which is an anti-herpes virus agent currently found, and also has a different mechanism of action, not only HSV but also varicella's shingles virus, Providing a substance that exhibits high antiviral activity against viruses such as human cytomegalovirus, Ebsteinbar virus, human herpesvirus 16 and HIV, and a therapeutic agent for viral infections containing it as an active ingredient The purpose is to do. Disclosure of the invention

Therefore, the present inventors have conducted intensive studies to find an antisense oligonucleotide that is more suitable as a drug from the viewpoints of solubility in water, transferability into cells, antiviral activity and sustained activity. When they were overlapped, they found that phosphorothioate oligodeoxyliponucleotides having a specific base sequence in their sequences, even if they were not antisense oligonucleotides, showed high antiviral activity, and the present invention Was completed.

According to the present invention, at least one nucleotide sequence ^: '' one GXGGG— '' (wherein G represents guanine and X represents any of adenine, thymine, guanine, and cytosine) is contained in the nucleotide sequence. And the bond between each nucleoside is

S

R ¹ —〇1 P— 0— R2 ' (In the formula, R ¹ Dokishiribosu residue 5 '- indicates the carbon atom, R ² is Dokishiribo - scan residues 3 ³ - represents a position of carbon.)

A first aspect is a phosphorothioate oligodeoxyribonucleotide having 5 or more bases comprising a phosphorothioate bond represented by or a salt thereof and a chemically modified product thereof.

Further, the present invention relates to at least one of the phosphorothio oligodeoxyribonucleotides or the salts thereof and the chemically modified products thereof (hereinafter, referred to as “the compound of the present invention”) which is the first gist of the present invention as an active ingredient. Antiviral agents, including seeds, are the second gist.

Furthermore, the third aspect of the present invention provides a method for treating a viral disease, which comprises administering the compound of the present invention. BRIEF DESCRIPTION OF THE FIGURES

Figure 1 shows HSV-I (hereinafter referred to as "HSV-I") immediate early precursor mRNAs 4 and 5, and HSV-II (hereinafter referred to as "HSV-II"). FIG. 3 is a diagram showing the nucleotide sequence of the splicing ceptor region of the mid-early precursor mRNAs 5 and 4.

FIG. 2 is a view showing a melting curve of a duplex formed by a compound of the present invention and a deoxyoligonucleotide having a nucleotide sequence of the sceptor region of the immediate early precursor mRN A5 of HSV-; .

FIG. 3 is a graph showing the relationship between the concentration of the compound of the present invention and the amount of viable virus by the plaque method.

FIG. 4 is a graph showing the time-dependent changes in MIC values in the virus inoculation-compound simultaneous addition group (a) and the compound addition group after virus infection was established (b).

FIG. 5 is a photograph showing an electrophoresis pattern (A) of Compound 1 of the present invention and an electrophoresis pattern (B) of Compound 7. BEST MODE FOR CARRYING OUT THE INVENTION

Hereinafter, the present invention will be described in detail. In the specification of the present application, unless otherwise specified, all formulas showing a base sequence represent compounds in which the bond between nucleosides is a phosphorothioate bond. It is presumed that the compound of the present invention acts on mRNA derived from a virus and inhibits the virus growth function, thereby inhibiting the growth of the virus in host cells. Future studies will determine whether the activity is obtained and the details of its mechanism of action.

The compounds of the present invention, does not necessarily have a sequence complementary to mRNA from viruses, in its sequence ⁵ '- GXGGG- ^3' (in the sequence, G and X are as defined above (Hereinafter referred to as “essential sequence”), the anti-viral activity is recognized. That is, it is clear from the test examples described below that the so-called antisense effect not only inhibits the translation stage of viral mRNAs.

FIG. 1 shows the nucleotide sequences of the splicing region of the immediate early precursor mRNAs 4 and 5 of HSV-I and the immediate early mRNAs 4 and 5 of HSV-II. As can be seen from FIG. 1, the HSV-II immediate early precursor mRNAs 4 and 5 do not have a site corresponding to the essential sequence of the compound of the present invention. "Shows virus growth inhibitory effect not only on 15-1 but also on HSV-II, and on HIV as well.

The fact that it exhibits antiviral activity even if it does not have a nucleotide sequence complementary to the mRNA of the virus considered to be the target strongly suggests that the compound of the present invention may exhibit a virus growth inhibitory effect against all kinds of viruses. Suggests.

Also, unlike the natural nucleotide, the compound of the present invention is composed of a phosphorothioate bond in which an atom bonded to a phosphorus atom of a phosphate involved in a bond between nucleosides is replaced with an oxygen atom to a sulfur atom. . As a result, it is less susceptible to hydrolysis in vivo, and the persistence of antiviral activity is significantly increased.

It is not always clear which gene (DNA, RNA) of the virus the compound of the present invention acts on, but among the compounds of the present invention, among the compounds of the present invention, the HSV-I immediate-early precursor mR Axebuta splicing of NA 4 and 5 Those having a complementary nucleotide sequence in the region have a high affinity (binding power) to the splicing sac- ter region of the immediate early precursor mRNAs 4 and 5 of HSV-I, and are stable. It is possible to form heavy chains and inhibit splicing of immediate early precursor mRNA 4 and 5.

The compound of the present invention does not show toxicity by the compound itself to host cells at a concentration (dose) within a range that can suppress virus growth, and is highly safe for living organisms. The compound of the present invention exhibits a virus growth inhibitory effect even when administered at the beginning of or before virus infection, and even after infection, and is effective when administered at any time. Among the compounds of the present invention, those having 1 to 4 essential sequences in their base sequence and having 5 to 30 bases, particularly 6 to 30 bases, exhibit a high virus growth inhibitory effect.c Among the above-mentioned compounds of the present invention, those having a sequence complementary to the except region of splicing of immediate early precursor mRNA 4 or 5 of HSV-I have a particularly high virus growth inhibitory effect. Such compounds of the present invention include:

-ACGAGGGCGTTCCTCCTGCG-

(Compound No. 1 / SEQ ID NO: 5)

-TCGACGAGGGCGTTCCTCCT-

(Compound No. 13 / SEQ ID NO: 11)

-GCCTCGACGAGGGCGTTCCT-

(Compound No. 14 / SEQ ID No. 12)

-TTCCTCCTGCGGGAAGGCAC-

(Compound No. 17 / SEQ ID NO: 13)

-AACGCGGGTGAGCCCCCTCC- ^: (Compound No. 2 1 / SEQ ID NO: 17)

-CGACGAGGGCGTTCCTCCTGCGGGA- 3 '

(Compound No. 25 / SEQ ID NO: 20) '-CCTCGACGAGGGCGTTCCTCCTGCGGGAAG- ³ '

•-· (Compound No. 26 / SEQ ID NO: 21)

-GAGGGCGTTCCTCCTGC-

(Compound No. 31 / SEQ ID NO: 25)

-ACGCGGGTGAGCCCCCTCCT- ^:

(Compound No. 46 / SEQ ID NO: 31)

-CGCGGGTGAGCCCCCTCCTC--

(Compound No. 47 / SEQ ID NO: 32)

-GCGGGTGAGCCCCCTCCTCC-

(Compound No. 48 / SEQ ID NO: 33)

-ACGAACGCGGGTGAGCCCCC- ^

(Compound No. 49 / SEQ ID NO: 34)

-CGAACGCGGGTGAGCCCCCT- ^:

(Compound No. 50 / SEQ ID NO: 35)

-GAACGCGGGTGAGCCCCCTC-

(Compound No. 51 / SEQ ID NO: 36) -AACGCGGGTGAGCCCC- ^;

(Compound No. 52 / SEQ ID NO: 37)

-GCGGGTGAGCCCCC- ^:

(Compound No. 55 SEQ ID NO: 39)

-GCGGGTGAGCCCC- ^:

(Compound No. 58 / SEQ ID NO: 42) and

⁵ -GCGGGTGAG- ³ '

(Compound No. 62 / SEQ ID NO: 44),

(In the formula, T represents thymine, C represents cytosine, G represents guanine, and A represents adenine.) In addition, among the compounds of the present invention, the immediate early precursor mRNA4 of HSV-I, which does not have a sequence complementary to the spider pig region of splicing 5, has a particularly high virus growth inhibitory effect. Some have. Such compounds of the present invention include:

-AGGACGTTCCTCCTGCGGGA-

(Compound No. 45 / SEQ ID NO: 30)

-GGAGGGGGCTCACCCGCGTT-

(Compound No. 53 / SEQ ID NO: 76),

-GAGGGT-

(Compound No. 107 / SEQ ID NO: 95)

-GCGGGTGCGGG- ^; (Compound No. 119 / SEQ ID NO: 104)

-GCGGGTGCGGGTGCGGG-,

(Compound No. 124 / SEQ ID NO: 109)

-GAGGGTGT-

(Compound No. 125 / SEQ ID NO: 1 10)

-GCGGGTGTGCGGG-

(Compound No. 131 / SEQ ID NO: 1 16)

-GCGGGTTTTTTTT- ^;

(Compound No. 134 / SEQ ID NO: 119)

-GCGGGTTTTTTTTTT-:

(Compound No. 135 / SEQ ID NO: 120)

-GCGGGTGAT-

(Compound No. 144 / SEQ ID NO: 125)

-GCGGGTGGT- ^;

(Compound No. 146 / SEQ ID NO: 127)

-GCGGGTTTTTT- ^;

(Compound No. 182 / SEQ ID NO: 159)

-GAGGGTGAGGGTGAGGG--

(Compound No. 242 / SEQ ID NO: 188) ⁵ '-GCGGGGGCGGGGGCGGG- ³

· · · (Compound No. 243 / SEQ ID NO: 189)

⁵ '-GGGGGCGGGGGCGGGGG- ^3'

•-· (Compound No.245 / SEQ ID NO: 19 1)

⁵ '-GCGGGTGAGGGTGAGGG- ³ '

• (Compound No. 246 / SEQ ID NO: 192)

⁵ '-TGAGGGTGAGGGTGAGGG-'

• (Compound No.247 / SEQ ID NO: 193)

'' -GCGGGTTGCGGGTTGCGGG- ³ '

• (Compound No. 252 / SEQ ID NO: 198)

⁵ '-GCGGGTTTGCGGGTTTGCGGG-'

•-· (Compound No. 253 / SEQ ID NO: 199) -GCGGGTTTTGCGGG- '

•-· (Compound No. 254 / SEQ ID NO: 200)

^:> '-GCGGGTGCGGGTGCGGGTGCGGG- ^;) '

(Compound No.258 / SEQ ID NO: 202)

-GTGGGTGTGGGTGTGGG- "

--· (Compound No. 260 / SEQ ID NO: 204)

⁵ '-GCGGGTTTTTTT- ³ '

--· (Compound No.261 / SEQ ID NO: 205) -GCGGGTTTTTTTT-

(Compound No. 262 / SEQ ID NO: 206) and

(Compound No. 263 / SEQ ID NO: 207)

(In the formula, T represents thymine, C represents cytosine, G represents guanine, and A represents adenine.) The compound of the present invention also shows excellent anti-HIV activity against HIV as compared with conventional antiviral agents. Among the compounds of the present invention, those showing particularly excellent anti-HIV activity include:

-ACGAGGGCGTTCCTCCTGCG-

(Compound No.1 / SEQ ID NO: 5),

-AGGGCGTTCCTCCTGCGGGA-

(Compound No. 1 1 / SEQ ID NO: 9),

-GCGTTCCTCCTGCGGGAAGG- ^;

(Compound No. 12 / SEQ ID NO: 10)

-TCGACGAGGGCGTTCCTCCT-

(Compound No. 13 / SEQ ID NO: 11)

-GCCTCGACGAGGGCGTTCCT-

(Compound No. 14 / SEQ ID NO: 12) ⁵ '-TTCCTCCTGCGGGAAGGCAC- ³ '

(Compound No. 17Z SEQ ID NO: 13),

⁵ '-GTCGCCTCGACGAGGGCGTT- ³ '

• '· (Compound No. 18 / SEQ ID NO: 14),

⁵ '-AACGCGGGTGAGCCCCCTCC- ³ '

(Compound No. 2 1 / SEQ ID NO: 17),

⁵ '-CGGGAAGGCACGAACGCGGG- ^{; r}

--· (Compound No. 23 / SEQ ID NO: 18),

⁵ '-CGACGAGGGCGTTCCTCCTGCGGGA- ³ '

· (Compound No. 25 / SEQ ID NO: 20),

— '' -CCTCGACGAGGGCGTTCCTCCTGCGGGAAG- ³ '

•-· (Compound No. 26 / SEQ ID NO: 21),

`` '' -CACGAACGCGGGTGAGCCCC- ³ '

(Compound No. 29 / SEQ ID NO: 23), -AAGGCACGAACGCGGGTGAG- ³ '

• (Compound No. 30 / SEQ ID NO: 24),

^: '. -GAGGGCGTTCCTCCTGC-''

... (Compound No. 31 / SEQ ID NO: 25), -AGGACGTTCCTCCTGCGGGA- ³ '

--(Compound No. 45 / SEQ ID NO: 30), -ACGCGGGTGAGCCCCCTCCT-

(Compound No. 46 / SEQ ID NO: 31)

-CGCGGGTGAGCCCCCTCCTC- ^:

(Compound No. 47 / SEQ ID NO: 32)

-GCGGGTGAGCCCCCTCCTCC-

(Compound No. 48 / SEQ ID NO: 33)

-ACGAACGCGGGTGAGCCCCC-

(Compound No. 49 / SEQ ID NO: 34)

-CGAACGCGGGTGAGCCCCCT-

(Compound No. 50 / SEQ ID NO: 35)

-GAACGCGGGTGAGCCCCCTC- ^:

(Compound No. 51 / SEQ ID NO: 36)

-AACGCGGGTGAGCCCC- ^;

(Compound No. 52 / SEQ ID NO: 37)

-GGAGGGGGCTCACCCGCGTT-

(Compound No. 53 / SEQ ID NO: 76)

-GCGGGATA-:

(Compound No. 109 / SEQ ID NO: 96)

-GCGGGTGCGGGTGCGGG- (Compound No. 124 / SEQ ID NO: 109) and

⁵ '-GCGGGTGGG- ³ '

• (No.145 compound No. 126)

(In the formula, T represents thymine, C represents cytosine, G represents guanine, and A represents adenine.) Next, a method for producing the compound of the present invention will be described.

The compound of the present invention can be produced by various methods, for example, the production by an automatic nucleic acid synthesizer by the phosphoramidite method shown in Example 1 (Production method 1), and the following methods (Production methods 2 and 3) can do.

[Formulation 1]

The phosphorothioate oligodeoxyribonucleotide (hereinafter, referred to as “phosphorothioate oligo DNA”), which is the desired compound of the present invention, was converted into a phosphoramidite using a nucleic acid synthesizer (AB 1394, manufactured by Applied Biosystems). The synthesis was performed by the method [Aliquot Biosystems recommended method (Applied Biosystems DNA / RNA Synthesizers user's manual)]. Hereinafter, the present synthesis method will be described in detail.

A guanine-SNAP · C PG column (manufactured by Applied Biosystems), which is a solid support in which deoxyguanosine has been introduced in advance, is treated with a trichloro mouth acetic acid-dichloromethane solution (3:97), and is treated with deoxyguanosine. The dimethoxytrityl group, which is the protecting group for the 5, 1-terminal hydroxyl group of guanosine, was removed. The amide was reacted with the released 5'-terminal hydroxyl group at room temperature for 25 seconds. At this time, in order to activate the deoxyguanosine phosphoramidite dissolved in anhydrous acetonitrile, a tetrasol'acetonitrile solution (4:96) was passed through the column to form a phosphite-triester bond. The unreacted 5'-terminal hydroxyl group, which did not undergo chain elongation due to the coupling reaction, was passed through the column by flowing acetic anhydride · 2,6-lutidine 'tetrahydrofuran solution (10:10:80) into the column in order to cap the hydroxyl group. 5'-terminal hydroxyl group Cetylized to prevent side reactions.

A tetraethylthiuram disulfide'acetonitrile solution (15:85) was allowed to act on the resulting coupling reaction product at room temperature for 15 minutes to oxidize the phosphite triester with sulfur. The 5′-trityl group, which is a protecting group for the 5′-terminal hydroxyl group of the added second nucleotide, was removed by treatment with a trichloroacetic acid-dichloromethane solution (2:98). Hereinafter, chain extension was performed repeatedly by sequentially linking nucleoside phosphoramidites corresponding to the target base sequence in accordance with the above procedure. After the completion of the synthesis of the desired phosphorothionucleotide oligonucleotide, the phosphorothionucleotide oligonucleotide was treated with 26% aqueous ammonia and separated from the CPG column and collected. Further, in order to remove the protecting group, the mixture is heated at 55 ° C. for 8 hours in the above-mentioned aqueous ammonia to obtain the target phosphorothioate oligo DNA of the present invention.

[Formulation 2]

This is a method for synthesizing deoxyribonucleotide (DNA) via an H-phosphonate intermediate (Froehler et al., Nuc. Acids Res. 14 (13) 5399-5407 (1986)). It is on the street.

5'-o-Dimethoxytritylated 3'-H-phosphonate · Nucleoside and 5,5 terminal hydroxyl group of nucleoside bonded to solid phase via linker in the presence of pivaloyl chloride Coupling in a mixture of pyridine and acetonitrile results in the formation of dinucleoside H-phosphonate. The 5'-terminal hydroxyl group of the unreacted carrier nucleotide that failed to elongate is cavitated (blocked) with triethylammonium isopropylphosphonate to inactivate and prevent side reactions. The 5'-terminal trityl group of the generated dinucleoside H-phosphonate is removed by treatment with dichloroacetic acid, and the generated 5'-terminal hydroxyl group and 3'-H-phosphonate.nucleoside are further reacted to form trinucleoside H-phosphonate. To form In this manner, the force-pulling reaction is repeated until the target sequence is completed. Finally, the H-phosphonate linkage is oxidized by sulfur in carbon disulfide and converted to a phosphorothioate linkage. After completion of the chain elongation reaction, the target phosphorothioate oligo DNA of the present invention is subjected to ammonia treatment from the solid phase. Can be recovered.

[Formulation 3]

The compound of the present invention can also be synthesized according to the method of Stec et al., Nuc. Acids Res. 19: 5883-5888 (1991), the outline of which is as follows.

5'-O-Dimethoxytritylated 3,10- (2_thio-1,3,2) oxoxathia-phosphorane nucleoside and 5-, 1-terminal hydroxyl group of nucleoside bound to solid phase via linker Are coupled with acetonitrile in the presence of 1,8-diazobicyclo [5.4.0] indene 7-ene to form dinucleosides. The 5'-terminal hydroxyl group of the unreacted carrier nucleotide that failed to elongate was inactivated by acetylation with acetic anhydride in the presence of 2,6-lutidine and 1-methylimidazole to inactivate the side reaction. To prevent. The trityl group at the 5 'end of the resulting dinucleotide is removed by dichloroacetic acid treatment. Then, the resulting 5'-terminal hydroxyl group is reacted with 5,10-dimethoxytritylated 3,1o- (2-thio-1,3,2) -oxoxathia-monophosphorane nucleoside to form a trinucleoside. Is formed. Thus, the coupling reaction is repeated until the target sequence is completed. After completion of the chain elongation reaction, the target phosphorothioate oligo DNA of the present invention can be recovered from the solid phase by ammonia treatment.

The compound of the present invention can be used in the form of a salt. Examples of such a salt include salts of alkali metals such as sodium and potassium; salts of alkaline earth metals such as calcium and magnesium; Salts of basic amino acids such as lysine, arginine and histidine; and inorganic or organic salts such as salts of alkylamines such as triethylamine. Pharmaceutical preparations of the compounds of the present invention as antiviral agents can be prepared by methods known in the art. The dosage form of the compound of the present invention includes, for example, tablet administration, granules, capsules, powders and the like, or parenteral administration such as injections, drops, suppositories, ocular infusions, eye drops and the like. . In addition, it can be applied as an external preparation, and can be formulated using any known formulation technique. The compound of the present invention may be subjected to further chemical modification in order to improve the translocation to a viral disease site, and may be subjected to various chemical modifications according to the disease situation. Examples of the chemical modification include, for example, a lipid, an oligopeptide which is an organic functional group or a biological component having an affinity for a virus-infected cell at the 5, 1 or 3 'one end of the oligo DNA strand of the compound of the present invention, or a nucleic acid base moiety. , A protein or a sugar, and the like. These chemically modified compounds of the present compound can also be formulated as described above.

The compound of the present invention may be used alone as an active ingredient, or may be used in combination of two or more kinds. Further, the compound of the present invention may be used alone as an active ingredient, or may be used as a mixture with an agent effective for treating other viral diseases. Example

Next, the present invention will be described in more detail with reference to Production Examples and Test Examples of the compound of the present invention.

(Production Example)

The synthesis of the compound of the present invention in this Production Example was carried out according to the phosphoramidite method shown in Production Method 1 above.

For chain extension, using a CPG column 1 mo 1 as a solid support, the dimethoxytrityl group, which is a protecting group, was removed by treatment with trifluoroacetic acid, and the resulting hydroxyl group of the deoxyribose was combined with the 5-terminal hydroxyl group and the phosphoramidite / nucleoside. Coupling was performed in the presence of tetrazole. The 5, -terminal hydroxyl group of the unreacted carrier nucleotide that did not undergo chain elongation was inactivated by acetylation with acetic anhydride in the presence of 2,6-lutidine and 1-methylimidazole to prevent side reactions. Trivalent phosphoric acid produced by the coupling reaction was acidified by tetraethylthiuram disulphide and converted to a phosphorothioate bond. The above reaction cycle is repeated according to the number of bases.After extension is completed, the oligomer is separated from the CPG column by treatment with 26% aqueous ammonia, collected and further removed at 55 ° C in the above-mentioned ammonia water to remove the protecting group. For 8 hours. The crude 5′-triphosphoryl phosphorothioate oligonucleotide having a trityl group at the end was synthesized using a reversed-phase column (PRP-3, 150 X 4. Lmm l. D. The product was purified by high performance liquid chromatography (Shimadzu Corporation, LC-1 OA D) equipped with Ruton Corporation. After injecting the product into the column, add 0.1 M triethylamine / acetate buffer (pH 7.0) containing 5-40% acetonitrile (1.4% increase in acetonitrile per minute (gradient)). Elution was performed at a flow rate of 1 ml / min, and a fraction showing oligonucleotide peaks was collected from the eluate ₍ purified 5, phosphorothioate oligonucleotide having a trityl group at one end was purified). The trityl group was cleaved by leaving the mixture in an 80% aqueous acetic acid solution for 20 minutes at room temperature, and the cleaved trityl group was removed by extraction with dimethyl ether.

Each of the compounds of the present invention synthesized and purified as described above was detected as one sharp peak when analyzed by high performance liquid chromatography, and was also detected by electrophoresis using a 17% polyacrylamide gel. It was observed as a band. The analysis was performed by the following method.

Analysis by high-performance liquid chromatography was performed by high-performance liquid chromatography equipped with a reversed-phase column (PRP-3), and the purified oligonucleotide was purified to a concentration of 5-4% acetonitrile (1.4% acetonitrile per minute). Elution was carried out with 0.1 M triethylamine 'acetate buffer containing an ascending (gradient) at a flow rate of 1 m1 / min.

For polyacrylamide gel electrophoresis analysis, a 17% polyacrylamide gel containing 7M urea was prepared according to the usual Sanger sequencing gel preparation method, and tris 'borate' EDTA buffer at 750 V. Electrophoresis was performed.

(Test Example 1)

The affinity (binding strength) between the compound of the present invention and the immediate early precursor mRN A5 of HSV-I with the slicing region of the receptor was examined.

Splicing of immediate early precursor mRN A5 of HSV-I 'The following oligo DNA having the nucleotide sequence of the receptor region (SEQ ID NO: 1) ⁵ Cp (0) C _P (0) Tp (s) Tp (s) Cp (0) Cp (0) Cp (0) Gp (0) Cp (0) Ap (0) Gp (0) Ap (0) Gp (0) Gp (0) Ap (0) Ap (0) Cp (0) _GP (0) Cp (0) Cp (0) Cp (0) Tp (s) Cp (0) Gp (0) Tp (s) Cp (0) Gp (0) Ap (0) Gp (0) Gp (0) C ³ '

(Wherein C, T, G and A are as described above, and p (0) is a bond between nucleosides.

0 one

R'-OPOR ²

(In the formula, R ¹ represents a carbon at the 5′-position of a deoxyribose residue, and R ² represents a carbon at the 3-position of a deoxyribose residue.) 7) and 10 × 10 mol of Compounds 1 and 13 of the present invention and 7 × 10 mol of Comparative Compound 32 having a partially mismatched base sequence, respectively, in 0.1 M phosphate buffer.

(pH 7.0) Dissolved in 3.5 ml, each formed a double strand. These duplexes were heated linearly from 30 ° C to 90 ° C in 30 minutes with stirring in a quartz cell, and the change in absorbance at 260 nm was recorded every 15 seconds. A heavy chain melting curve was drawn (Figure 2). The absorbance was measured using a Hitachi U-2000 double beam spectrophotometer equipped with an electronic thermostatic cell holder. From the results shown in FIG. 2, sigmoid curves were drawn with the compounds of the present invention 1 and 13 as the temperature rose, and the melting points were 62 ° C. and 61 ° C., respectively. On the other hand, Comparative Compound 32 did not show a sigmoid curve. This indicates that the compound of the present invention, which has a nucleotide sequence completely complementary to the nucleotide sequence of the above-described receptor region, has a "high affinity" for the receptor region.

(Test Example 2) Growth inhibitory effect on HSV-I and II

The HSV proliferation inhibitory effect of the compound of the present invention was examined using the cytopathic effect on host cells caused by virus (hereinafter referred to as “CPE”) as an index. The strength of the virus CPE depends on the amount of virus growth. Therefore, the test compound The CPE-suppressing effect of the product indicates the effect of suppressing the growth of the virus.

The viruses used in the test were giant cell-forming HSV-I, Miyama strain (hereinafter referred to as "GG strain") and non-giant cell-forming HSV-I, Miyama strain (hereinafter referred to as "KP strain"). And HSV-II, UW268 strain, and African green kidney cells (hereinafter referred to as “Vero cells”) were used as host cells.

Eagle MEM (hereinafter referred to as “MEM”) containing 10% non-mobilized fetal calf serum (hereinafter referred to as “FCS”) (NIPRO) (manufactured by Mizu Pharmaceutical) at 1 × 10 ⁵ cells / ml The suspended cell suspension is dispensed 100 μl at a time into a 96-well flat-bottomed tissue culture plate, and cultured at 37 ° C in the atmosphere of 5% carbon dioxide-saturated steam to form a monolayer (monolayer). Layer). The grown cells were washed twice with MEM without serum, MEM without serum was added again, and the prepared cells were used in this test.

Nucleotide sequence of the compound of the present invention used in this test, SEQ ID NO (Id. No.), number of nucleotides (mer), and submerging of immediate early precursor mRN A5 of HSV-I Table 1 shows whether the sequence is complementary to the sequence (Co .: "Primarily complementary," N "indicates non-complementary). And the bond between the nucleosides is a phosphorothioate bond, also shown in Table 2, and the comparison compound in which the bond between the nucleosides is a phosphodiester bond is also shown in Table 3. Show.

Various concentrations of the test compound were added to the prepared cell culture, and HSV was simultaneously inoculated.

In addition, ISIS 1080 (SEQ ID NO: 66) and ISIS 1082 (SEQ ID NO: 67) are phosphorothioate targeting the translation initiation AUG codon of HSV-I and [ΰ] ΙΙ UL 13 mRNΑ under development of ISIS. It is an antisense oligo DNA consisting of 21 nucleotides of the type (described in International Publication No. W091 / 12811). ISIS 5320 (SEQ ID NO: 208) is an oligo DNA consisting of 8 bases in the form of a phosphorothioate for HIV, which is being developed by ISIS (described in International Publication No. W094 / 08053). Acyclovir (ACV) is a currently widely used treatment for HSV infection, which inhibits the viral DNA polymerase. Is a nucleoside analog that suppresses replication of viral DNA.

The amount of virus inoculated is the amount that will infect the virus in the absence of the drug, and after 48 hours of culture, the amount of virus CPE that can be reliably induced on the entire surface of the monolayer cells (100 TC ID

5 θ).

After virus inoculation, the presence and degree of CPE were observed under a microscope for up to 96 hours every 24 hours of culture. The virus growth inhibitory effect was expressed as the minimum inhibitory concentration (hereinafter referred to as “MIC”) that suppressed the virus CPE by 100% at the time of culture for 72 hours after virus inoculation.

Table 4 shows the results of this test for the compound of the present invention containing an essential sequence; Table 5 shows the results of this test for a comparative compound which does not contain an essential sequence and has a phosphorothioate bond. Table 6 shows the results of this test, although the bond between the nucleosides was a phosphodiester bond.

(Hereinafter the margin)

Table 1: Compounds of the present invention (Part 1) o — Bti system ij—5 leu no. Mer # Co.

1 GCGTCCTCCTTGCGGGAGCA 5 20 1 Y

11 AGGGCGTCCTCCTTGCGGGA 9 20 1 Y

12 GGAAGGGCGTCCTCCTTGCG 1 0 20 1 Y

TCCTCCTTGCGGGAGCAGCT 1 1 20 1 Y

14 TCC TGCGGGAGCAGC TCCG 12 20 1 Y

17 CACGGAAGGGCGTCCTCCTT 1 3 20 1 Y

18 TTGCGGGAGCAGCTCCGCTG 14 20 1 Y

21 CCTCCCCCGAGTGGGCGCAA 1 7 20 1 Y

23 GGGCGCAAGCACGGAAGGGC 18 20 1 Y

25 AGGGCGTCCTCCTTGCGGGAGCAGC 20 25 1 Y 6 GAAGGGCGTCCTCCTTGCGGGAGCAGCTCC 2 1 30 1 Y 9 CCCCGAGTGGGCGCAAGCAC 23 20 1 Y 0 GAGTGGGCGCAAGCACGGAA 24 20 1 Y 1 CGTCCTCCTTGCGGGAG 25 17 1 Y 5 AGGGCGTCCTCCTCCCTCGCGCTCGCTCGCTGGCGACCATCC Y 8 CCTCCTCCCCCGAGTGGGCG 3 3 20 1 Y 9 CCCCCGAGTGGGCGCAAGCA 34 20 1 Y 0 TCCCCCGAGTGGGCGCAAGC 3 5 20 1 Y 1 CTCCCCCGAGTGGGCGCAAG 36 20 1 Y 2 CCCCGAGTGGGCGCAA 37 16 1 Y 3 TTGCGCCCACTCGGGGGAGG 7 6 20 1 N5 CCCCAG 1 13 1 Y 2 GAGTGGGCG 44 9 1 Y 6 GGGCG 4 6 5 1 Y 7 GTGGGCG 4 7 7 1 Y 8 CGAGTGGGCG 4 8 1U 1 Y 1 AGTGGGCG 50 8 1 Y 8 GAGTGGGTG 5 7 9 1 N 9 CTAGGGGCG 8 1 9 1 N 1 TGCGGGAG 5 8 8 1 Y 3 TGGGCG 8 2 6 1 Y 9 CGGGAG 6 3 6 1 Y 0 GGAXGGGCG 8 3 9 1 Y 2 GCACGGAAGGGCG 84 13 1 Y Table 1: Compounds of the present invention (Part 2)

Table 1: Compounds of the present invention (Part 3)

151 GGGCGGGCG 132 9 1 N

152 TGGCGGGCG 133 9 1 N

153 GTGCGGGCG 134 9 1 N

154 TTGCGGGCG 135 9 1 N

155 GAGAGGGCG 136 9 1 N

156 TAGAGGGCG 137 9 1 N

157 GGGAGGGCG 138 9 1 N

158 TGGAGGGCG 139 9 1 N

159 GTGAGGGCG 140 9 1 N

160 TTGAGGGCG 141 9 1 N

161 GGGCGTCCTCCTTGCGGGAG 142 20 1 Y

162 GGCGCAAGCACGGAAGGGCG 143 20 1 Y

163 GGGCGCAAGCACGGAAGGGCG 144 21 1 Y

164 GTCCTCCTTGCGGGAGCA 145 18 1 Y

165 CTCCTTGCGGGAGCA 146 15 1 Y

166 CTTGCGGGAGCA 147 12 1 Y

169 CCGAGTGGGCG 148 11 1 Y

170 CCCGAGTGGGCG 149 12 Y

171 CTTGCGGGAG 150 10 1 Y

172 CCTTGCGGGAG 151 11 1 Y

173 TCCTTGCGGGAG 152 12 1 Y

174 CGGAAGGGCG 153] 0] Y

176 CACGGAAGGGCG 154】 2 Y

177 AAGCACGGAAGGGCG 155 15 1 Y

179 TTT.GGGCG 156 8 N

180 TTTTGGGCG 157 9 1 N

181 TTTTTGGGCG 158 10 1 N

182 TTTTTTGGGCG 159 11 1 N

183 TGGGGCG 160 f 1 N

184 TTGGGGCG 161 8 N

192 CTCCCGGGAG 162 10 ¹ N

199 GTGGGCGCAAGCA 163 13 Y

200 AGTGGGCGCAAGC 164 13 Y

201 GAGTGGGCGCAAG 165 13 Y

202 CGAGTGGGCGCAA 166 13 y

203 CCGAGTGGGCGCA 167 13 Y

209 TCCCGAGTGGGCG 169 13 N

210 TTCCGAGTGGGCG 170 13 N

211 TTTCGAGTGGGCG 171 13 N Table 1: Compounds of the present invention (Part 4)

Table 2: Comparative compounds that do not contain the essential sequence (Part 1) Compound 畨畨 3 st st st — — — — I

2 GCGTCCTCCTTGCCTCCTC 68 19 0 Y

3 ACGCGCGTACCGTCGGCTACG 69 21 0 N

4 TGCTCCCGCAAGGAGGACGC 6 20 0 N

5 CCCCCCCCCCCCCCCCCCCC 7 20 0 N 6 CGAAAGCGCGTACCGTCGGCTACG 70 24 0 N

19 TGCGCCCCCGCCT CCTCCCC 15 20 0 Y

20 CCCGCCTCCTCCCCCGAGTG 16 20 0 Y

22 AAAACGTGCCCATTCGTGGA 73 20 0 Y

24 GCAGCTCCGCTGGCCGCCGC 19 20 0 Y

28 GCC CCTCCCCCGAGTGGGC 22 20 0 Y

32 GCGTCTTCATTGTGCGAGCA 26 20 0 N

37 TCCGGCCCGCGGCGGAAGCA 74 20 0 N

38 GAAGCACCTGCCCTGTGGTA 75 20 0 N

42 GCGTCCTCCTTGCAGGAGCA 2f 20 0 Y

43 TCCTCCTTGCAGGAGCAGCT 28 20 0 Y

44 TCCTTGCAGGAGCAGCTCCG 29 20 0 Y

56 TCCCCGAGTAAGCA 40 14 0 N

57 CCTTCCCCGAGTAAGCACAA 41 20 0 N

60 CCCCGAGTGGGC F 7 12 0 Y

61 CCCGAGTGGG 43 10 0 Y

63 CCCCCGAGTGG 45 11 0 Y

64 TCCTCCTG 79 S 0 N

65 TTCCTCCTGCGG 80 12 0 N

69 CCCCGAGTGGACG 49 13 0 N F 2 GAGTGGGCA 519 0 N

73 GAGTGAGCG 52 9 0 N

74 GAGTGGACG 53 90 N N 5 GAGTGGTCG 54 90 N N 6 GAGTAGGCG 55 90 N N 7 GAGTGGTTG 56 90 N

84 TGGGCA 59 6 0 N

85 TGGACG 60 6 0 N

86 TGAGCG 61 6 0 N

87 TAGGCG 62 6 0 N

95 CGAGTGGGC 85 9 0 Y

110 ATGGGG A 97 8 0 N

111 ATGGGACG 98 8 0 N Table 2: Comparative compounds without essential sequences (part 2)

Table 3: Comparative compounds containing essential sequences but consisting of phosphodiester bonds

(Hereinafter the margin)

Table 4: Inhibitory effect of HSV proliferation (Part 1)

Compound of the present invention> Compound M I C (uM)

No.Chain length HSV-I, GG HSV-I ₃ KP HSV-II, KP

1 20 0.7O8 C-1.56 0.39 0.39

11 20 6.25 12.5 3.13

12 20 1.56-3.13 3.13 1.56

13 20 0.78 0.78

14 20 3.13 1.56 0.78

17 20 3.13 1.56 0.78

18 20 6.25 3.13 1.56

21 20 0.78-1.56 0.78-1.56 0.78

23 20 6.25 3.13 1.56

25 25 3.13 — 0.78

26 30 1.56 — 0.39

29 20 3.13 3.13 0.78

30 20 6.25 6.25 1.56

31 17 1.56 0.39

45 20 3.13 1.56 0.78

46 20 1.56 1.56 0.39

47 20 1.56 0.78 0.39

48 20 0.78 0.78 0.39

49 20 1.56 1.56 0.78

50 20 1.56 1.56 0.78

51 20 1.56 1.56 0.78

52 16 3.13 3.13 0.78

53 20 0.78

55 14 1.56 0.78 ≤0.39

58 13 1.56 0.78 ≤0.39

62 9 1.56 0.78

66 5 12.5 12.5 6.25

67 7 12.5 6.25 3.13

68 10 3.13 3.13 1.56

71 8 12.5 12.5 6.25

78 9 25.0 12.5 3.13

79 9 12.5

81 8 3.13 3.13 3.13 Table 4: HSV proliferation inhibitory effect (part 2) of the compound of the present invention>

Table 4: HSV growth inhibitory effect (Part 3)

<Compound of the present invention> Compound M I C (jM)

No.HSV-I, GG j no v ii)

138 15 1.56

139 17 1.56

144 9 0.78

145 9 1.56

146 9 0.78

147 9 1.56

148 9 1.56

149 9 3.13

150 9 6.25

151 9 1.56

152 9 1.56

153 9 1.56

154 9 3.13

155 9 12.5

156 9 12.5

157 9 3.13

158 9 6.25

159 9 1.56

160 9 3.13

161 20 3.13

162 20 6.25

163 21 6.25

164 18 1.56

165 15 6.25

166 12 12.5

169 11 6.25

170 12 12.5

171 10 3.13

172 11 6.25

173 12 1.56

174 10 6.25

176 12 12.5

177 15 6.25 Table 4: Effect of inhibiting the growth of HSV (Part 4)

Compound of the present invention> Compound M I C (ju M)

Number Chain length π ν- 1, \ 7 T

(JU vn HSV-11, KP

179 8 ϊΔ.0

180 9 1. DO

181 10 1,00

182 11 1.5b

r

183 7 ΙΔ.5

184 8 1

192 10 12.5

199 13 6.25

200 13 b .25

201 13 6.25

202 13 6.25

203 13 1.5

209 13 6.25

210 13 3.13

211 13 3.13

212 13 1.56

213 13 1.5D

214 13 1.ofa

226 13 Ό. ΆΟ

227 13 1Z.5

228 13 10

230 13 12.5

231 13 12.5

232 13 6.25

233 13 12.5

234 13 3.13

235 13 3.13

236 13 3.13

242 17 0.78 0.78

243 17 0.39 0.39

244 17 1.56 1.56

245 17 0.39 0.39

246 17 0.78 0.78 Table 4: HSV growth inhibitory effect (part 5)

Compound of the present invention>

(Hereinafter the margin)

Table 5: HSV proliferation inhibitory effect (Part 2)

Table 6: Inhibitory effect on HSV proliferation, including essential sequence, but phosphodiester bond

Comparative compound consisting of> Compound VI I C (M)

W chain length HSV-I, GG HSV-Ι, ΚΡ HSV-ΙΙ, ΚΡ

7 20> 100.0> 25.0> 25.0

8 25> 100.0

16 27> 25.0

54 20〉 50.0 50.0

62D 9> 100.0

239 6〉 50.0

240 5〉 50.0

241 6〉 50.0 50.0

ACV 25.0 6.25-12.5 1.56-3.13 From the above results, the compound of the present invention containing the essential sequence was excellent for each virus irrespective of whether it was a nucleotide sequence complementary to the immediate early precursor mRNA 4 or 5. It was clarified that it exhibited a virus growth inhibitory effect.

From the above results, it can be said that the compound of the present invention is extremely effective for HSV diseases caused by HSV-I and II.

Furthermore, as shown in the results in Tables 4 to 6 above and Figure 1, it is necessary to consider that the immediate early precursor mRNA 4 or 5 has a considerably different nucleotide sequence between HSV-I and II. The compound of the present invention containing the sequence is considered to exhibit a virus growth inhibitory effect against all kinds of viruses.

In particular, the compounds 1, 13, 14, 17, 21, 25, 26, 31, 46, 47, and 47 of the present invention having a nucleotide sequence complementary to the immediate early precursor mRNA 4 or 5 of HSV-I 48, 49, 50, 51, 52, 55, 58 and 62 show an extremely high virus growth inhibitory effect of 4 to 32 times as high as ACV, an anti-herbal drug widely used in clinical practice. In comparison with ISIS 1080, 1082 and 5320, it showed 16-64 times better effect.

In addition, the compounds of the present invention 45, 53, 107, 119, 124, 125, 131, 134, 135, 144, 146, 182, 242, which do not have a nucleotide sequence complementary to the HSV-I immediate early precursor mRNA. , 243, 245, 246, 247, 252, 253, 254, 258, 260, 261, 262 and 263 also showed an excellent virus growth inhibitory effect as compared with the comparative compound.

Compound 7 (SEQ ID NO: 8), which is an oligo DNA having the same nucleotide sequence as that of Compound 1 of the present invention and whose nucleoside bond is composed of a phosphodiester bond, completely inhibits virus growth against any of the virus strains. No effect was shown.

This indicates that phosphodiester-type oligo DNA is susceptible to degradation by nucleases inside and outside the host cell, whereas the compound of the present invention is stable to this enzyme. .

(Test Example 3) Influence of host cell type on viral growth inhibitory effect

The virus growth inhibitory effect of the compound of the present invention is affected by differences in host cell types. We examined whether or not it was possible.

Egret corneal cells (hereinafter referred to as "SIRC") were used as host cells, and HSV-I, GG strain was used as a virus.

The test was performed in the same manner as in Test Example 2, except that the type of host cell was changed to SIRC. Table 7 shows the results of the compounds of the present invention, and Table 8 shows the results of the comparative compounds.

(Hereinafter the margin)

Table 7: Influence of host cell tumor on viral growth suppression

M I C (Μ) Compound No.

S I R C

1 2 0 0. 3 9

1 1 2 0 3.1 3

1 2 2 0

1 3 2 0 0.39

14 2 0 0-7 8

1 7 2 0 0-7 8

1 8 2 0 3.1 3

1 24 1 7 0.7 8

1 82 1 2 0.78

24 1 6> 50

242 1 7 0.7 8

243 1 7 0.7.8

244 1 7 1. 5 6

24 5 1 7 0.7 8

246 1 7 1. 5 6

247 1 8 1.56

2 48 1 2 1.56

249 1 1 3-1 3

2 50 1 1 6. 2 5

2 5 1 1 ο o-1

2 52 1 9 0.7.8

2 53 2 1 0.7.8

2 54 1 4 1. 5 6

2 56 1 1 3-1 3

2 58 2 3 0.7.8

2 59 1 1 3. 1 3

2 60 1 7 0.7.8

2 6 1 1 2 0.7 8

2 62 1 3 0.7 8

2 63 2 2 0.78 Table 8: Influence of host cell tumors on viral growth suppression

From the results in Tables 7 and 8, when the compounds of the present invention were compared with each other based on the antiviral effect of ACV in each host cell,

Although there was about a two-fold difference between 1 R C, they showed almost the same activity pattern. The results of Vero cells are described in Tables 4 to 6.

From the above, it can be seen that the antiviral growth inhibitory effect of the compound of the present invention is hardly affected by the cell type. Therefore, it is presumed that the compound of the present invention exerts its effects at various viral disease sites in humans.

(Test Example 4) Toxicity of the compound of the present invention to host cells

Various concentrations of the compound of the present invention were added to Vero cells and SIRC in the monolayer state prepared in the same manner as in Test Example 2, and the same culture conditions were used under the same culture conditions as when the virus growth inhibitory effect was determined. The toxicity to cells was examined. Toxicity was detected by the method of Takeuchi et al. (J. Virol. Meth. 33: 61-71 (1991)). As a result, the MIC value (0.78 to 6.

(25 ^ M), no toxicity to host cells was observed, Were not observed even at high concentrations.

From the above results, it was proved that the virus growth inhibitory effect of the compound of the present invention was not due to the toxicity of the compound of the present invention itself to host cells.

(Test Example 5) Virus growth inhibitory effect using plaque method

The virus growth inhibitory effect of the compound of the present invention was examined by a plaque assay for quantifying the amount of surviving virus.

The test conditions were the same as in Test Example 2, except that various concentrations of the present compound were added to the host cells (Vero cells) and simultaneously the virus (HSV-I, GG strain, 9.5 x 10 PFU / well, 100 TC ID _5). ) Was inoculated and cultured for 72 hours.

After culturing for 72 hours, the culture solution containing the infected cells was once freeze-thawed and diluted appropriately. This diluted solution was added to fresh Vero cells that had been grown in a monolayer state in advance, and cultured for 2 hours to allow the virus to colonize.

Next, in order to remove the excess medium and prevent virus spikes, the cells were overlaid with MEM containing 1% agar and cultured for another 72 hours. After culture for 72 hours, virus plaque formation was detected by trypan blue staining, and the amount of virus (number) was determined from the number of plaques.

Figure 3 shows the amount of virus detected from cell suspensions cultured for 72 hours after adding various concentrations of compounds.

From the suspension of the control cell group to which no test compound was added, 2 · 610 ^r ′ PFU / well virus was detected. In the compounds of the present invention 1 and 13 added, no virus was detected at 1.556 M, and the virus was completely killed. On the other hand, the ACV-added group acts on the virus in a concentration-dependent manner from 0.39Μ to 1.56〃M, inhibiting the growth of the virus, and at a concentration of 3.1 or more, it acts as a virucidal agent. The virus was completely killed at 5〃M.

From the above results, it was revealed that Compounds 1 and 13 of the present invention, at a concentration lower than that of ACV, suppressed the growth of virus and had an extremely strong virucidal effect. (Test Example 6) Influence of the time of action of the compound of the present invention on the virus growth inhibitory effect How the virus growth inhibitory effect was obtained when the test compound was added simultaneously with virus inoculation and when the test compound was added after viral infection was established The effect of the test compound on the time of action was examined.

As in Test Example 2, the test compound was added to the group to which the test compound was added simultaneously with the HSV-I and GG strain inoculations (simultaneous addition group), and to the Vero cells cultured for 2 hours after the infection was established, that is, 2 hours after the virus inoculation. In the group (addition group after infection was established), the MIC value was measured every 24 hours after the start of culture up to 96 hours, and the fluctuation was examined.

Fig. 4-1a shows the results of the simultaneous addition group, and Fig. 4-1b shows the results of the addition group after infection was established. From the graphs in FIGS. 4A and 4B, it can be seen that the effects of the present compounds 1, 13 and AVC on the effect of inhibiting the virus growth are affected by the timing of addition. In other words, for each compound, the post-infection addition group showed a higher MIC value than the simultaneous addition group. MIC values during the 72- and 96-hour incubation periods after the addition of the test compound increased to the same extent for each compound, but compounds 1 and 13 of the present invention were still approximately 8-fold higher than ACV It showed a virus growth inhibitory effect.

Regardless of the time of action, ACV increased the MIC value by a factor of 16 to 32 over time during the culture period from 24 hours to 72 hours after addition, whereas the compounds of the present invention 1 and 1 In the case of 3, the increase was only about 2 to 4 times 48 hours after the addition, and did not fluctuate thereafter.

The above results suggest that the compound of the present invention exerts a potent virucidal activity at a lower concentration than ACV and during a short culture period, that is, in a short time. It is also suggested that the compounds of the present invention may act prophylactically, early or before viral infection, and therapeutically after viral infection.

(Test Example 7) Stability of compound of the present invention to nuclease

In order to examine the stability of the compound of the present invention to nuclease, the test is carried out by the following method.

5′—Compound 1 of the present invention and comparative compound 7 radiolabeled at the ends were added to Vero cell culture in a monolayer state prepared in the same manner as in Test Example 2, and each culture was performed. The nutrient solution was temporarily collected and subjected to electrophoresis according to the method of the production example.

As a result, comparative compound 7 was almost degraded by nuclease 1 hour after addition, and oligo DNA having less than 20 bases was detected (photograph in FIG. 5B). On the other hand, Compound 1 of the present invention was hardly degraded by nuclease even 24 hours after the addition (FIG. 5-A).

From the above results, it was shown that Compound 1 of the present invention, which is a phosphorothioate-type oligo DNA, is extremely stable against nuclease existing inside and outside of cells as compared with the phosphodiester-type oligo DNA.

(Test Example 8) Anti-HIV activity test

To a 96-well microtiter plate, HIV-infected MT-4 cells (2.5 × 10 / we 11, MOI: 0.01) were added immediately after the infection together with various concentrations of the test substance. 37 ° in C0 ₂ incubator (: After culturing 5 days, the MTT method to measure the number of viable cells.

The antiviral activity was represented by a concentration (EC: 50% effective concentration) that protects the cell damage by HIV infection by 50%. Table 9 shows the test results of the compound of the present invention, and Table 10 shows the test results of the comparative compound.

(Hereinafter the margin)

Table 9: Anti-HIV activity (Part 1)

EC5 ₍₎ for HIV-1 (/ M)

1 20 0.3

11 20 0.2 2 2

12 20 0.1 2

13 20 0.1 0.1

14 20 0.2 4

17 20 0.1 8

18 20 0.2 5

21 20 0.2 5

23 20 0.3 5

25 25 0.3 9

26 30 0.1 5

29 20 0.4 8

30 20 0.4 3

31 17 0.7

45 20 0.3 2

46 20 0.3 6

47 20 0.3 4

48 20 0.4 2

49 20 0.3

50 20 0.2 5

51 20 0.2 3

52 16 0.3 9

53 20 0.3 9

55 14 1.3

58 13 4.4 4 1

62 9 1.5. 5 2

66 5 3. 7 5

67 7 1. 3 5

68 10 2.2 1

71 8 1.2

78 9 1. 8 6

79 9 0.9 2

80 9 1.8 Table 9: Anti-HIV activity (Part 2)

<Compound of the Present Invention Containing Essential Sequence> Compound No.Chain length EC ₅₀ for HIV-I (jM)

81 8 6. 4 6

82 8 1. 4 5

83 6 2. 6 6

88 6 1.2 1

89 6 3. 2 4

92 13 2.9 9

93 13 4. 1 7

94 17 1.5 4

96 17 1. 3 6

98 9 5. 6 1

99 9 3.92

104 6 6.1 3

105 6 5.2 3

106 6 4. 5 8

107 6 6.0 0 9

109 8 0.4 9

114 8 1.5. 5 2

115 8 1. 9 9

119 11 1. 4 1

120 7 1. 3 7

121 7 1. 3 2

124 17 0.3 4

125 8 1 .2 8

126 8 1. 0 3

127 8 0.9.4

128 8 1 .0 5

129 12 0.9

130 13 2. 7 3

131 13 0.8

132 6 1. 2 6

133 9 1. 8 4

134 13 1 .5 6

135 15 1.1.8

138 15 1.2 Table 9: Anti-HIV activity (Part 3)

From the results of Tables 9 and 10, it can be seen that the compound having the base sequence containing the essential sequence of the present invention significantly exhibits antiviral activity against HIV as compared with the compound not containing the essential sequence. .

From the results in Table 9, the compounds of the present invention 1, 11, 1, 12, 13, 14, 17, 17, 18, 21, 23, 25, 26, 29, 30, 31, 45, 46, 47, 48, 49, 50, 51, 52, 53, 109, 124 and 145 are found to have particularly excellent anti-HIV activity. From the above results, the compounds of the present invention are effective for viral diseases caused by HSV-I, HSV-II and HIV.

Furthermore, in view of the above test results and FIG. 1, it is presumed that the compound of the present invention exhibits a virus growth inhibitory effect against not only HSV-I, HSV-II and HIV but also all other types of viruses. You. Industrial applicability

The present invention relates to a compound having low toxicity to host cells, high safety to the living body, and a remarkable anti-virus growth effect irrespective of the administration time, and furthermore, prevention and treatment of viral infectious diseases containing the compound as an active ingredient. An agent can be provided.

(Hereinafter the margin)

Sequence Listing SEQ ID NO: 1

Sequence length (SEQUENCE LENGTH): 91

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): mRNA

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Origin (ORIGINAL SOURCE)

Organism name (ORGANISM): simple virus type I

Stock Name (STRAIN): STRAIN 17

Sequence features (FEATURE):

Characteristic symbol: intron

Location: 1. .53

How the features were determined: S

Characteristic symbol: exon

Location: 54. .91

How the features were determined: S

Array

GGGGGACGCG GGGGCGGAGG AGGGGGCUCA CCCGCGUUCG UGCCUUCCCG CAGGAGGAAC 60 GCCCUCGUCG AGGCGACCGG CGGCGACCGU U 91 SEQ ID NO (SEQ ID NO): 2

Sequence length (SEQUENCE LENGTH): 91

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown Sequence type (MOLECULE TYPE): mRNA

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Origin (ORIGINAL SOURCE)

Organism name (ORGANISM): simple herpes virus type I

Stock Name (STRAIN): STRAIN 17

Sequence features (FEATURE):

Characteristic symbol: intron

Location: To 53

How the features were determined: S

Characteristic symbol: exon

Location: 54. .91

How the features were determined: S

Array

GGGGGACGCG GGGGCGGAGG AGGGGGCUCA CCCGCGUUCG UGCCUUCCCG CAGGAGGAAC 60 GUCCUCGUCG AGGCGACCGG CGGCGACCGU U 91 Sequence number (SEQ ID NO): 3

Sequence length (SEQUENCE LENGTH): 83

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): mRNA

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Origin (ORIGINAL SOURCE)

Organism name (ORGANISM): simple herpes virus I type I

Stock Name (STRAIN): STRAIN HG52

Sequence features (FEATURE): 96/0

Characteristic symbol: intron

Location: 1. .53

How the features were determined: S

Characteristic symbol: exon

Location: 54. .83

How the features were determined: S

Array

GGGACGGGCC CGGGGGACGG GGCCCCGAUC CCAACAUCCG CGCUUUCUCG CAGGCCGGGC 60 GCCGCCUUCG UGGACGGGAC ACC 83 SEQ ID NO: 4

Sequence length (SEQUENCE LENGTH): 83

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (S stomach DENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): niRNA

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Origin (ORIGINAL SOURCE)

Organism name (ORGANISM): simple virus I type I

Stock Name (STRAIN): STRAIN HG52

Sequence features (FEATURE):

Characteristic symbol: intron

Location: 1. .53

How the features were determined: S

Characteristic symbol: exon

Location: 54. .83

How the features were determined: S

Array CCGGGGGGAC GGGGGGACGG GGCCCCGAUC CCAACAUCCG CGCUUUCUCG CAGGCCGGGC 60 GCCGCCUUCG UGGACGGGAC ACC 83 Sequence number (SEQ ID NO): 5

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAGGGCGT TCCTCCTGCG 20 Sequence number (SEQ ID NO): 6

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Immediate early precursor of simple herpes virus type I mRNA 5 It is a partial nucleotide sequence of the pricing region of pricing.

Array

CGCAGGAGGA ACGCCCTCGT 20 SEQ ID NO: 7

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CCCCCCCCCC CCCCCCCCCC 20 SEQ ID NO: 8

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early precursor of simple herpes virus type I mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between the nucleosides is a phosphodiester bond. Array

ACGAGGGCGT TCCTCCTGCG 20 SEQ ID NO: 9

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

AGGGCGTTCC TCCTGCGGGA 20 SEQ ID NO: 10

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate early virus precursor I mRNA A4 and 5 of simple herpes virus type I. The bond between each nucleoside is a phosphorothioate bond.

Array

GCGTTCCTCC TGCGGGAAGG 20 SEQ ID NO: 11

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

This is a nucleotide sequence complementary to the simple early virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

TCGACGAGGG CGTTCCTCCT 20 SEQ ID NO: 12

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early precursor mRNA A4 of simple herpes virus type I and This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCCTCGACGA GGGCGTTCCT 20 SEQ ID NO: 13

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single strand.

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate early virus type I immediate early precursors mRNA4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

TTCCTCCTGC GGGAAGGCAC 20 SEQ ID NO: 14

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE): This is a nucleotide sequence complementary to the simple early virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GTCGCCTCGA CGAGGGCGTT 20 SEQ ID NO: 15

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATUEE):

This is a nucleotide sequence complementary to the immediate hereditary virus type I immediate precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CCCCTCCTCC GCCCCCGCGT 20 SEQ ID NO: 16

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple virus virus type I immediate precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GTGAGCCCCC TCCTCCGCCC 20 SEQ ID NO: 17

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENMESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANT U SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate hereditary virus type I immediate precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

AACGCGGGTG AGCCCCCTCC 20 SEQ ID NO: 18

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a base sequence complementary to mRNA 4 and 5 of the simple virus virus type I immediate precursor.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGGGAAGGCA CGAACGCGGG 20 SEQ ID NO: 19

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple early virus type I immediate early precursors mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGCCGCCGGT CGCCTCGACG 20 SEQ ID NO: 20

Sequence length (SEQUENCE LENGTH): 25

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA) HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a base sequence complementary to the immediate early virus precursor I mRNA 4 and 5 of simple herpes virus type I.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGACGAGGGC GTTCCTCCTG CGGGA 25 SEQ ID NO: 21

Sequence length (SEQUENCE LENGTH): 30

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CCTCGACGAG GGCGTTCCTC CTGCGGGAAG 30 SEQ ID NO: 22

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single)

Topology (TOPOLOGY): unknown Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple early virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGGGTGAGCC CCCTCCTCCG 20 SEQ ID NO: 23

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CACGAACGCG GGTGAGCCCC 20 SEQ ID NO: 24

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATUEE):

It is a nucleotide sequence complementary to the immediate early virus precursors mRNAs 4 and 5 of simple herpes virus type I.

The bond between each nucleoside is a phosphorothioate bond.

Array

AAGGCACGAA CGCGGGTGAG 20 SEQ ID NO: 25

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC CTCCTGC 17 SEQ ID NO: 26

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAGCGTGT TACTTCTGCG 20 SEQ ID NO: 27

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENMESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ΑΝΉ-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

This nucleotide sequence is complementary to the immediate early virus type I immediate early precursor mRNA4.

Array

ACGAGGACGT TCCTCCTGCG 20 SEQ ID NO: 28

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

This nucleotide sequence is complementary to the simple early virus type I immediate early precursor mRNA4.

Array

TCGACGAGGA CGTTCCTCCT 20 SEQ ID NO: 29

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCCTCGACGA GGACGTTCCT 20 SEQ ID NO: 30

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid Number of chains (STRA DENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

AGGACGTTCC TCCTGCGGGA 20 SEQ ID NO: 31

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGCGGGTGA GCCCCCTCCT 20 SEQ ID NO: 32

Array Length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CGCGGGTGAG CCCCCTCCTC 20 SEQ ID NO: 33

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate early virus type I immediate early precursor mRNA 4 and 5 '.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CCCCTCCTCC 20 SEQ ID NO: 34

Array Length (SEQUENCE LENGTH): 20

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAACGCGG GTGAGCCCCC 20 SEQ ID NO: 35

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

'The immediate hereditary virus type I immediate immediate precursor mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGAACGCGGG TGAGCCCCCT 20 SEQ ID NO: 36

Sequence length (SEQUENCE LENGTH): 20 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAACGCGGGT GAGCCCCCTC 20 SEQ ID NO: 37

Sequence length (SEQUENCE LENGTH): 16

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence that is complementary to the simple hereditary virus type I immediate early precursor mRNA4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

AACGCGGGTG AGCCCC 16 SEQ ID NO: 38 Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STEANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Simple early virus type I immediate early precursor mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphodiester bond.

Array

AACGCGGGTG AGCCCCCTCC 20 SEQ ID NO: 39

Sequence length (SEQUENCE LENGTH): 14

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

This is a nucleotide sequence complementary to the simple early virus type I immediate early precursors mRNA4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CCCC 14 SEQ ID NO: 40

Sequence length (SEQUENCE LENGTH): 14

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAATGAGC CCCT 14 SEQ ID NO: 41

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

AACACGAATG AGCCCCTTCC 20 SEQ ID NO: 42

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid Number of chains (STRANDENMESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence that is complementary to hereditary herpes simplex virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CCC 13 SEQ ID NO: 43

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): nucleic acid (dish cleic acid)

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early I precursor of simple herpes virus type I mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GGGTGAGCCC 10 SEQ ID NO: 44

Sequence length (SEQUENCE LENGTH): 9 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAG 9 SEQ ID NO: 45

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple virus virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GGTGAGCCCC C11 SEQ ID NO: 46 Sequence length (SEQUENCE LENGTH): 5

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to simple hereditary virus type I immediate early precursors mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGG 5 SEQ ID NO: 47

Sequence length (SEQUENCE LENGTH): 7

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTG 7 SEQ ID NO: 48

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC 10 SEQ ID NO: 49

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCAGGTGAGC CCC 13 SEQ ID NO: 50 Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL sequence: o

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGA 8 SEQ ID NO: 51

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGGGTGAG 9 SEQ ID NO: 52

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acid (synthetic DNA) HYPOTHETICAL sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond <sequence

GCGAGTGAG SEQ ID NO: 53

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (A TI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond ₍ sequence

GCAGGTGAG SEQ ID NO: 54

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCTGGTGAG 9 SEQ ID NO: 55

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI_SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGATGAG 9 SEQ ID NO: 56

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GTTGGTGAG 9 SEQ ID NO: 57

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): nucleic acid (nudeic acid)

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GTGGGTGAG 9 SEQ ID NO: 58

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early precursor of simple herpes virus type I mR N A4 and

This is a nucleotide sequence complementary to 5. The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGT 8 SEQ ID NO: 59

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGGGT 6 SEQ ID NO: 60

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is the phosphorothioate bond α.

Array

GCAGGT 6 SEQ ID NO: 61

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA) Hypothetical sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GCGAGT SEQ ID NO: 62

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (A TI-SENSE): No

Sequence features (FEATURE):

Sequence in which the bond between each nucleoside is a phosphorothioate bond

GCGGAT SEQ ID NO: 63

Sequence length (SEQUENCE LENGTH): 6 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGC 6 SEQ ID NO: 64

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

Hypothetical (HYPOTHETI CAL) array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC CTC 13 SEQ ID NO: 65 Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate linkage.

Array

GCGGGAAGGC ACGAACG 17 SEQ ID NO: 66

Sequence length (SEQUENCE LENGTH): 21

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

This nucleotide sequence is complementary to the translation initiation codon (UL 13 AUG-2) on UL13 mRNA of simple herpes virus type I.

The bond between each nucleoside is a phosphorothioate bond.

Array

ACCGAGGTCC ATCTCGTACG C 21 SEQ ID NO: 67

Sequence length (SEQUENCE LENGTH): 21

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the translation initiation codon (UL13 AUG-2) on UL13 mRNA4 of simple herpes virus type II.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCCGAGGTCC ATGTCGTACG C 21 SEQ ID NO: 68

Sequence length (SEQUENCE LENGTH): 19

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

This is the base sequence of a part of the splicing receptor region of simple early virus type I immediate immediate precursor mRNA5.

Array

CTCCTCCGTT CCTCCTGCG 19 SEQ ID NO: 69

Sequence length (SEQUENCE LENGTH): 21

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCATCGGCTG CCATGCGCGC A 21 SEQ ID NO: 70

Sequence length (SEQUENCE LENGTH): 24

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCATCGGCTG CCATGCGCGA AAGC 24 SEQ ID NO: 71

Sequence length (SEQUENCE LENGTH): 25 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between the nucleosides is a phosphodiester bond,

Array

ACGAGGGCGT TCCTCCTGCG AAAGC 25 SEQ ID NO: 72

Sequence length (SEQUENCE LENGTH): 27

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between the nucleosides is a phosphodiester bond.

Array

ACGAGGGCGT TCCTCCTGCG GCGAAGC 27 SEQ ID NO: 73

Array Length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

This is the base sequence of a part of the excepting region of the slicing of the simple virus virus type I immediate early precursor mRNA5.

Array

AGGTGCTTAC CCGTGCAAAA 20 SEQ ID NO: 74

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. 'Array

ACGAAGGCGG CGCCCGGCCT 20 SEQ ID NO: 75

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ATGGTGTCCC GTCCACGAAG 20 SEQ ID NO: 76

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GGAGGGGGCT CACCCGCGTT 20 SEQ ID NO: 77

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE): The bond between each nucleoside is a phosphorothioate bond.

This is a nucleotide sequence of a part of the splicing region of splicing of the immediate hereditary virus type I immediate precursor mRNA5.

Array

CGGGTGAGCC CC 12 SEQ ID NO: 78

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between the nucleosides is a phosphodiester bond.

Array

CGGGTGAG 8 SEQ ID NO: 79

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GGTCCTCCT 9 SEQ ID NO: 80

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GGCGTCCTCC TT 12 SEQ ID NO: 81

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acid (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGGGATC 9 SEQ ID NO: 82

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a base sequence complementary to the simple hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGT 6 SEQ ID NO: 83

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGAAGG 9 SEQ ID NO: 84

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAAGGC ACG 13 SEQ ID NO: 85

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

A simple hereditary virus type I immediate precursor mR NA5 This is a partial nucleotide sequence of a brixing ceptor region.

Array

CGGGTGAGC 9 SEQ ID NO: 86

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

This is a nucleotide sequence complementary to the simple virus virus type I immediate precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GAACGCGGG 9 SEQ ID NO: 87

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate precursor I of simple herpes virus type I mRNA 4 and This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGAGGGCGT 9 SEQ ID NO: 88

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGG NNN 9 SEQ ID NO: 89

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGGMNNNN NNN 13 SEQ ID NO: 90

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGMNNNN NNNNNNN 17 SEQ ID NO: 91

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGMNNNN NNNNNNNNNN 20 SEQ ID NO: 92

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (S stomach DENDNESS): single chain

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GCGGGG SEQ ID NO: 93

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): nucleic acid (nudek acid)

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

_C sequence in which the bond between each nucleoside is a phosphorothioate bond

GCGGGC SEQ ID NO: 94

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGG 6 SEQ ID NO: 95

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): Single strand (sin le)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGT 6 SEQ ID NO: 96

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGATA 8 SEQ ID NO: 97

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGGGGTA 8 SEQ ID NO: 98

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENMESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCAGGGTA 8 SEQ ID NO: 99

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single strand

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANT: SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGAGGTA 8 SEQ ID NO: 100

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGAGTA SEQ ID NO: 101

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GCGGGTTA SEQ ID NO: 102

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acid (Synthetic DNA) Hypothetical (HYPOTHETICAL) Sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond ₍ sequence

GCGGGCTA SEQ ID NO: 103 Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST DENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CCGGGGTA 8 SEQ ID NO: 104

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGCGG G Π SEQ ID NO: 105

Sequence length (SEQUENCE LENGTH): 7

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single) Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acid (synthetic DNA) Hypothetic force sequence (HYPOTHETICAL) Sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GAGGGTG SEQ ID NO: 106

Sequence length (SEQUENCE LENGTH): 7

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Sequence in which the bond between each nucleoside is a phosphorothioate bond

GCGGGCG SEQ ID NO: 107

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACCCGC 6 SEQ ID NO: 108

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCCCTC 6 SEQ ID NO: 109

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of sales (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond π. Array

GCGGGTGCGG GTGCGGG 17 SEQ ID NO: 110

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GAGGGTGT SEQ ID NO: 111

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond c

Array

GAGGGTGA SEQ ID NO: 112

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGT 8 SEQ ID NO: 113

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGA 8 SEQ ID NO: 114

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid Number of chains (S stomach DENMESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTGCG GG 12 SEQ ID NO: 115

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTGC GGG 13 SEQ ID NO: 116

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGTGC GGG 13

SEQ ID NO: 117

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond ₍ sequence

GCGGGT SEQ ID NO: 118

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTT 9 SEQ ID NO: 119

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTTT TTT 13 SEQ ID NO: 120

Sequence length (SEQUENCE LENGTH): 15

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGGTTTTT TTTTT 15 SEQ ID NO: 121

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): nucleic acid (dish deic acid)

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TGGGAG 6 SEQ ID NO: 122

Sequence length (SEQUENCE LENGTH): 15

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): 1 (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate early virus mRNA precursors 4 and 5 of simple herpes virus type I.

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC CTCCT 15 SEQ ID NO: 123

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC CTCCTCC 17 SEQ ID NO: 124

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GATGTTGGGA TCAGGGCCCC 20 SEQ ID NO: 125

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

Bond between each nucleoside is a phosphorothioate bond, sequence

GCGGGTGAT SEQ ID NO: 126

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

_C- sequence in which the bond between each nucleoside is a phosphorothioate bond

GCGGGTGGG SEQ ID NO: 127

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGGT 9 SEQ ID NO: 128

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGTG 9 SEQ ID NO: 129

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGTT 9 SEQ ID NO: 130

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENMESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGAG 9 SEQ ID NO: 131

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGGCGAT 9 SEQ ID NO: 132

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGGG 9 SEQ ID NO: 133

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGGT 9 SEQ ID NO: 134 Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGTG 9 SEQ ID NO: 135

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGCGTT 9 SEQ ID NO: 136

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGAGAG SEQ ID NO: 137

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGAGAT SEQ ID NO: 138

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): 1 (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAGGG 9 SEQ ID NO: 139

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAGGT 9 SEQ ID NO: 140

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGAGTG 9 SEQ ID NO: 141

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAGTT 9 SEQ ID NO: 142

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early I precursor of simple herpes virus type I mRNA4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array GAGGGCGTTC CTCCTGCGGG 20 SEQ ID NO: 143

Sequence length (SEQUENCE LENGTH): 20

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAAGGC ACGAACGCGG 20 SEQ ID NO: 144

Sequence length (SEQUENCE LENGTH): 21

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGAAGGC ACGAACGCGG G 21 SEQ ID NO: 145

Sequence length (SEQUENCE LENGTH): 18

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to simple hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAGGGCGT TCCTCCTG 18 SEQ ID NO: 146

Sequence length (SEQUENCE LENGTH): 15

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early precursor mRNA A4 of simple herpes virus type I and

Array

ACGAGGGCGT TCCTC 15 SEQ ID NO: 147

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the simple virus virus type I immediate immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAGGGCGT TC 12 SEQ ID NO: 148

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phospho-mouth bond.

Array

GCGGGTGAGC C11 SEQ ID NO: 149

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CC 12 SEQ ID NO: 150

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI -SENSE): Yes

Sequence features (FEATURE): It is a nucleotide sequence complementary to the immediate hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC 10 SEQ ID NO: 151

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC C 11 SEQ ID NO: 152

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCGTTC CT 12 SEQ ID NO: 153

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

It is a nucleotide sequence complementary to the immediate hereditary virus type I immediate-early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAAGGC 10 SEQ ID NO: 154

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

This is a nucleotide sequence complementary to simple hereditary virus type I immediate early precursor mRNAs 4 and 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAAGGC AC 12 SEQ ID NO: 155

Sequence length (SEQUENCE LENGTH): 15

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): Yes

Sequence features (FEATURE):

Immediate early precursor mRNA4 of herpes simplex virus type I and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate tether.

Array

GCGGGAAGGC ACGAA 15 SEQ ID NO: 156

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTT 8 SEQ ID NO: 157

Sequence length (SEQUENCE LENGTH): 9

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown (dish known)

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTT 9 SEQ ID NO: 158

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): nucleic acid (nudeic acid)

Number of chains (STRANDENDNESS): single chain

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Array

GCGGGTTTTT 10 SEQ ID NO: 159

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST ANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTTT T 11 SEQ ID NO: 160

Sequence length (SEQUENCE LENGTH): 7

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGGT 7 SEQ ID NO: 161

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGGTT 8 SEQ ID NO: 162

Sequence length (SEQUENCE LENGTH): 10

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Tantisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGCCCTC 10 SEQ ID NO: 163

Sequence length (SEQUENCE LENGTH): 13 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGAACGCGG GTG 13 SEQ ID NO: 164

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

A simple hereditary virus type I immediate diary precursor, mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

CGAACGCGGG TGA 13 SEQ ID NO: 165 Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAACGCGGGT GAG 13 SEQ ID NO: 166

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early I precursor of simple herpes virus type I mR N A4 and

This is a nucleotide sequence complementary to 5.

The bond between each nucleoside is a phosphorothioate bond.

Array

AACGCGGGTG AGC 13 SEQ ID NO: 167

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

ACGCGGGTGA GCC 13 SEQ ID NO: 168

Sequence length (SEQUENCE LENGTH): 28

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

CCCCCCCCCC CCCCCCCCCC CCCCCCCC 28 SEQ ID NO: 169 Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): nucleic acid (dish cleic acid)

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CCT 13 SEQ ID NO: 170

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC CTT 13 SEQ ID NO: 171

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC TTT 13 SEQ ID NO: 172

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANT U SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGT TTT 13 SEQ ID NO: 173

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGATT TTT 13 SEQ ID NO: 174

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): nucleic acid (dish cleic acid)

Number of chains (ST DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGTTT TTT 13 SEQ ID NO: 175

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of sales (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

GCGGGTGAGC GGG 13 SEQ ID NO: 176

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGACC CGC 13 SEQ ID NO: 177

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTAAGC CCC 13 SEQ ID NO: 178

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGAGAGC CCC 13 SEQ ID NO: 179

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTAAGC CCC 13 SEQ ID NO: 180

Sequence length (SEQUENCE LENGTH): 13

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI_SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGGGC CCC 13 SEQ ID NO: 181

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAAC CCC 13 SEQ ID NO: 182

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): 1 (single)

Topology (TOPOLOGY): unknown

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGT CCC 13 SEQ ID NO: 183

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGC TCC 13 SEQ ID NO: 184

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Array

GCGGGTGAGC CTC 13 SEQ ID NO: 185

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between the nucleosides is a phosphodiester bond.

Array

GCGGGT 6 SEQ ID NO: 186

Sequence length (SEQUENCE LENGTH): 5

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

Immediate early I precursor of simple herpesvirus type I mRN A4 and This is a nucleotide sequence complementary to 5.

The bond between the nucleosides is a phosphodiester bond.

Array

GAGGG 5 SEQ ID NO: 187

Sequence length (SEQUENCE LENGTH): 6

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): Yes

Sequence features (FEATURE):

The bond between the nucleosides is a phosphodiester bond.

Array

GAGGGC 6 SEQ ID NO: 188

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): No

Array

GAGGGTGAGG GTGAGGG 17 SEQ ID NO: 189

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGGGCGG GGGCGGG 17 SEQ ID NO: 190

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (A TI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GTGGGAGTGG GAGTGGG 17 SEQ ID NO: 191

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOraETICAL sequence: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GGGGGCGGGG GCGGGGG 17 SEQ ID NO: 192

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (Taishi DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGG GTGAGGG 17 SEQ ID NO: 193

Sequence length (SEQUENCE LENGTH): 18 Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENMESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TGAGGGTGAG GGTGAGGG 18 SEQ ID NO: 194

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TGAGGGTGAG GG12 SEQ ID NO: 195

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GAGGGTGAGG G11 SEQ ID NO: 196

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGAGG G11 SEQ ID NO: 197

Sequence length (SEQUENCE LENGTH): 15

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TGAGGGTGAG GGTGA 15 SEQ ID NO: 198

Sequence length (SEQUENCE LENGTH): 19

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTGCG GGTTGCGGG 19 SEQ ID NO: 199

Sequence length (SEQUENCE LENGTH): 21

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): Single strand (sin le)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array GCGGGTTTGC GGGTTTGCGG G 21 SEQ ID NO: 200

Sequence length (SEQUENCE LENGTH): 14

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (ST NDENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTTG CGGG 14 SEQ ID NO: 201

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STMNDENDNESS): single strand

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TTTGCGGGTT T 11 SEQ ID NO: 202 Sequence length (SEQUENCE LENGTH): 23

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTGCGG GTGCGGGTGC GGG 23 SEQ ID NO: 203

Sequence length (SEQUENCE LENGTH): 11

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain (single)

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GTGGGTGTGG G 11 SEQ ID NO: 204

Sequence length (SEQUENCE LENGTH): 17

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single chain Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GTGGGTGTGG GTGTGGG 17 SEQ ID NO: 205

Sequence length (SEQUENCE LENGTH): 12

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology 1 (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTTT TT 12 SEQ ID NO: 206

Sequence length (SEQUENCE LENGTH): 13

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

GCGGGTTTTT TTT 13 SEQ ID NO: 207

Sequence length (SEQUENCE LENGTH): 22

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRA DENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acids (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond.

Array

TTTTTTTTTT TTTGCGGGTT TT 22 SEQ ID NO: 208

Sequence length (SEQUENCE LENGTH): 8

Sequence type (SEQUENCE TYPE): Nucleic acid

Number of chains (STRANDENDNESS): single

Topology (TOPOLOGY): unknown

Sequence type (MOLECULE TYPE): Other nucleic acid (synthetic DNA)

HYPOTHETICAL array: No

Antisense (ANTI-SENSE): No

Sequence features (FEATURE):

The bond between each nucleoside is a phosphorothioate bond. Array

TTGGGGTT

(Hereinafter the margin)

Claims

The scope of the claims

1. At least one nucleotide sequence ⁵ '- GXGGG- ^3' (in the sequence, G is indicates Guanin, X is adenine, thymine, Guanin represents any cytosine) comprises in its base sequence, the The bond between each nucleoside is

S "

R'-O-^-OR ²

ο =

(In the formula, R ¹ represents carbon at the 5′-position of a deoxyribose residue, and R ² represents carbon at the 3′-position of a deoxyribose residue.)

Or a phosphorothioate oligodeoxyribonucleotide having 5 or more bases comprising a phosphorothioate bond, or a salt thereof and a chemically modified product thereof.

From 2.1 to 4 or the nucleotide sequence of the ⁵ '- GXGGG- ^3' (in the sequence, G represents a Guanin, X is adenine, thymine, Guanin represents any cytosine) including in its base sequence, a base The phosphorothioate oligodeoxyribonucleotide according to claim 1 or a salt thereof and a chemically modified product thereof, which is represented by the formulas 5 to 30.

3. The phosphorothioate oligodeoxyribonucleotide according to claim 1 or 2, wherein the number of bases is 6 to 30, or a salt thereof and a chemically modified product thereof.

4. The phosphorothioate according to any one of claims 1 to 3, which has a nucleotide sequence complementary to the immediate early virus type I immediate immediate precursor mRNA 4 or 5. An oligodeoxyribonucleotide or a salt thereof and a chemically modified product thereof.

5. Formula showing base sequence

^: '' -ACGAGGGCGTTCCTCCTGCG- ³ ' • (Compound No. 1 SEQ ID No. 5), ^y- TCGACGAGGGCGTTCCTCCT- ³ '

--(Compound No. 13 / SEQ ID NO: 11),

⁵ '-GCCTCGACGAGGGCGTTCCT- ³ '

--(Compound No. 14 / SEQ ID NO: 12),

⁵ '-HCCTCCTGCGGGAAGGCAC- ³ '

-(Compound No. 17 / SEQ ID NO: 13),

⁵ '-AACGCGGGTGAGCCCCCTCC- ³ '

•-· (Compound No. 2 1 / SEQ ID NO: 17),

⁵ '-CGACGAGGGCGTTCCTCCTGCGGGA- ³ '

· ♦ (Compound No. 25 / SEQ ID NO: 20),

⁵ '-CCTCGACGAGGGCGTTCCTCCTGCGGGAAG-'

-(Compound No. 26 / SEQ ID NO: 21),

⁵ -GAGGGCGTTCCTCCTGC- ³ '

· (Compound No. 31 / SEQ ID NO: 25),

"-ACGCGGGTGAGCCCCCTCCT- '

--(Compound No. 46 / SEQ ID NO: 31), ^y- CGCGGGTGAGCCCCCTCCTC- ¹ '

(Compound No. 47 / SEQ ID NO: 32), -GCGGGTGAGCCCCCTCCTCC-

(Compound No. 48 / SEQ ID NO: 33)

-ACGAACGCGGGTGAGCCCCC- ^;

(Compound No. 49 / SEQ ID NO: 34)

-CGAACGCGGGTGAGCCCCCT-

(Compound No. 50 / SEQ ID NO: 35)

-GAACGCGGGTGAGCCCCCTC- ^:

(Compound No. 5 1 / SEQ ID NO: 36)

-AACGCGGGTGAGCCCC

(Compound No. 52 / SEQ ID NO: 37)

-GCGGGTGAGCCCCC- ^:

(Compound No. 55 / SEQ ID NO: 39)

-GCGGGTGAGCCCC-

(Compound No. 58 / SEQ ID NO: 42) and

'-GCGGGTGAG- ³ '

(Compound No. 62 / SEQ ID NO: 44),

(Wherein T represents thymine, C represents cytosine, G represents guanine, and A represents adenine.) The phosphorothioate oligodoxyribonucleotide or a phosphorothioate oligodoxyribonucleotide according to claim 4, which is selected from the group consisting of: Salts and chemically modified salts thereof.

6. Formula showing base sequence -AGGACGTTCCTCCTGCGGGA-

(Compound No. 45 / SEQ ID NO: 30) '-GGAGGGGGCTCACCCGCGTT-3'

(Compound No. 53 / SEQ ID NO: 76)

-GAGGGT-

(Compound No. 107 / SEQ ID NO: 95)

-GCGGGTGCGGG- '

(Compound No. 119 / SEQ ID NO ^: 104), -GCGGGTGCGGGTGCGGG- ^:

(Compound No. 124 / SEQ ID NO: 109)

-GAGGGTGT- ^:

(Compound No. 125 / SEQ ID NO: 110)

-GCGGGTGTGCGGG-

(Compound No. 131 / SEQ ID NO: 116)

-GCGGGTTTTTTTT-

(Compound No. 134 / SEQ ID NO: 119)

-GCGGGTTTTTTTTTT- ^L

(Compound No. 135 / SEQ ID NO: 120)

-GCGGGTGAT-

(Compound No. 144 / SEQ ID NO: 125) '-GCGGGTGGT- ³ '

(Compound No. 146 / SEQ ID NO: 127)

-GCGGGTTTTTT- ^;

(Compound No. 182 / SEQ ID NO: 159)

-GAGGGTGAGGGTGAGGG- 3 '

(Compound No. 2427 SEQ ID NO: 188) -GCGGGGGCGGGGGCGGG- 3 '

(Compound No. 243 / SEQ ID NO: 189)

, '-GGGGGCGGGGGCGGGGG-3'

(Compound No. 245 / SEQ ID NO: 191)

5 '-GCGGGTGAGGGTGAGGG-

(Compound No. 246 / SEQ ID NO: 192)

⁵ -TGAGGGTGAGGGTGAGGG- ^;

(Compound No.247 / SEQ ID NO: 193)

-GCGGGTTGCGGGTTGCGGG- ^

(Compound No. 252 / SEQ ID NO: 198)

-GCGGGTTTGCGGGTTTGCGGG-

(Compound No. 253 / SEQ ID NO: 199)

-GCGGGTTTTGCGGG- ^; • (compound Νο · 254 / SEQ ID NO: 200)

⁵ '-GCGGGTGCGGGTGCGGGTGCGGG- ^3'

• (Compound No.258 / SEQ ID NO: 202)

⁵ '-GTGGGTGTGGGTGTGGG- ^3'

-Compound (Compound No. 260 / SEQ ID NO: 204)

⁵ '-GCGGGTTTTTTT- ³ '

• (Compound No. 261 / SEQ ID NO: 205)

⁵ '-GCGGGTTTTTTTT- ³ '

(Compound No. 262 / SEQ ID NO: 206) and

⁵ '-TTTTTTTTTTTTTGCGGGTTTT- ³ '

·. (Compound No. 263 / SEQ ID NO: 207)

(Wherein T represents thymine, C represents cytosine, G represents guanine, and A represents adenine.) The phosphorothioet oligodexoxyribonucleotide or a salt thereof according to claim 3 and a salt thereof. Chemical modification.

7. An antiviral agent comprising, as an active ingredient, at least one of the phosphorothioate oligodeoxyribonucleotides or a salt thereof and a chemically modified product thereof according to any one of claims 1 to 6.

8. The antiviral agent according to claim 7, wherein the target virus is a simple virus (HSV).

9. The target virus is varicella's shingles virus (VZV) The antiviral agent according to claim 7, wherein

10. The antiviral agent according to claim 7, wherein the target virus is human immunodeficiency virus (HIV).

11. A viral disease, which comprises administering at least one of the phosphorothioate oligodeoxyribonucleotides or a salt thereof and a chemically modified product thereof according to any one of claims 1 to 6. Treatment method.

12. The method for treating a viral disease according to claim 11, wherein the target virus is simple herpes virus (HSV).

13. The method according to claim 11, wherein the target virus is varicella-zoster virus (VZV).

14. The method for treating a viral disease according to claim 11, wherein the target virus is human immunodeficiency virus (HIV).