WO2018170764A1 - Vector for rnai and application thereof - Google Patents
Vector for rnai and application thereof Download PDFInfo
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- WO2018170764A1 WO2018170764A1 PCT/CN2017/077606 CN2017077606W WO2018170764A1 WO 2018170764 A1 WO2018170764 A1 WO 2018170764A1 CN 2017077606 W CN2017077606 W CN 2017077606W WO 2018170764 A1 WO2018170764 A1 WO 2018170764A1
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Classifications
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/30—Against vector-borne diseases, e.g. mosquito-borne, fly-borne, tick-borne or waterborne diseases whose impact is exacerbated by climate change
Definitions
- the present invention belongs to the field of genetic engineering, and relates to a vector for RNAi and application thereof, and particularly to an RNA interference vector of GP34 gene and application thereof.
- GP34 is a member of the TNF receptor superfamily and is a type I transmembrane glycoprotein. The expression profile of GP34 is restricted to the surface of activated CD4+ and CD8+ T cells, and is predominantly CD4+ T cells. OX40/GP34 is an important co-stimulatory molecule that plays an important role in the body's immune response and various diseases, and its interaction can promote CD+4.
- Activation, proliferation, and migration of T cells prolong their life span and promote the formation of germinal centers and the differentiation and maturation of DCs.
- GP34 can synergistically stimulate the activation of T cells, promote the production of high-valent antibodies and class switching of B cells, mediate the infiltration of OX40+ T cells into the inflammatory reaction site, and play an important role in the immunotherapy of tumors.
- the research can achieve clinical transformation, but the lack of vectors specifically inhibiting the expression of GP34 gene in the prior art makes the related research not well developed.
- the object of the present invention is an RNA interference vector of GP34 gene and a construction method and application thereof.
- an isolated polynucleotide is provided, the nucleotide sequence of which is set forth in SEQ ID NO: 1.
- a recombinant vector comprising the nucleotide sequence set forth in SEQ ID NO: 2, wherein the recombinant vector is a pLVX-shRNA1 vector as a backbone vector, in a polyclonal enzyme GP34- consisting of Bam HI restriction site + target nucleotide sequence + stem loop structure sequence + target nucleotide sequence complementary sequence + termination site sequence + EcoR I restriction site at the cleavage site RNAi sequence.
- RNA interference vector of the aforementioned GP34 gene including the following steps:
- RNA interference vector of GP34 gene The synthesized GP34-RNAi sequence and the extracted plasmid pLVX-shRNA1 were digested with restriction endonucleases Bam HI and EcoR I, electrophoresis and gelatinization. The vector was recovered, and the GP34-RNAi sequence was ligated into the SJpLVX-shRNA1 expression vector by T4 DNA Ligase to obtain a ligation product; the ligation product was transformed into competent E. coli Stbl3 and uniformly coated onto an ampicillin-containing LB medium plate. The positive monoclonal colonies were picked and cultured and identified by PCR. The preliminary identification results indicated that the GP34-RNAi sequence was inserted into the successful bacterial solution for sequencing and identification;
- RNA interference vector of GP34 gene Extraction of RNA interference vector of GP34 gene: The GP34-RNAi sequence was confirmed to be inserted into a successful bacterial cell expansion culture, and a large amount of recombinant plasmid was extracted to obtain an RNA interference vector of GP34 gene.
- the present invention utilizes RNAi technology to construct an RNA interference vector targeting GP34 gene expression, and after successful identification, electrotransformation of DC2.4 cells, using the real-time fluorescent quantitative PCR technique to verify the inhibitory effect of GP34 gene expression from the mRNA level, the experiment As a result, it was confirmed that the GP34-RNAi sequence provided by the present invention was successfully inserted into the pLVX-shRNA1 expression vector, and the inhibitory effect on the expression of the GP34 gene was remarkable.
- polynucleotide of the polynucleotide represented by 1 or the RNA interference vector of the aforementioned GP34 gene for the drug of the GP34 gene expression abnormality-related disease.
- RNA interference vector of the GP34 gene provided by the invention has the advantages of high transfection efficiency, low dosage, high and specific inhibition of GP34 gene expression in DC2.4 cells, and can be used as a powerful tool for preparing and treating the G P34 gene.
- a drug that expresses an abnormally related disease A drug that expresses an abnormally related disease.
- FIG. 1 is a schematic diagram showing the results of real-time quantitative PCR detection of RNA interference vector cells transfected with GP34 gene.
- DC2.4 cells were purchased from Wuxi Yingnuui Biomedical Technology Co., Ltd., RNAi vector pLVX-shRNAl was purchased from Clontech, RNeasy MiniKit was purchased from Qiagen, and endotoxin free plasmid extraction kit was purchased from Omega bio-tek.
- the complete medium described below is a cell culture medium supplemented with 10% fetal bovine serum.
- GP34 mRNA The complete sequence of GP34 mRNA was found in GenBank. According to the full sequence of GP34 mRNA, the interference fragment was designed according to the design principle of RNAi fragment, NCBI BLSAT was used for homology comparison, and the target nucleotide sequence was obtained after confirming specificity.
- the GP34-RNAi sequence was designed as follows: Bam
- the designed GP34-RNAi sequence chain was synthesized by Shanghai Biotech Engineering Services Co., Ltd.
- the synthesized GP34-RNAi sequence and the extracted plasmid pLVX-shRNA1 were digested with restriction endonucleases Bam HI and EcoR I, electrophoresed, and the gel was recovered, and the GP34-RNAi sequence was further amplified by T4 DNA Ligase.
- An RNA interference vector that forms the GP34 gene is ligated into the vector pLVX-shRNA1.
- the ligation product was transformed into competent E. coli Stbl3, plated on a plate containing ampicillin LB medium, and cultured at 37 ° C for 14 h. Pick up the grown colonies and send them to Shanghai Biotech for sequencing. The sequencing results are fully consistent with the designed sequence and can be used in subsequent experiments.
- DC2.4 cells were cultured, and 35,000 cells in good growth state were taken, and the cells were collected by centrifugation, and then resuspended in 500 L of PBS with 20 g.
- RNA interference vector of GP34 gene was mixed and added to the electric shock cup, and the electric rotation was performed by BTX ECM830 electro-rotation instrument.
- the electroporation procedure was: 2.1 KV, 25 ⁇ , pulse electric shock once; the cells were transferred to 5 mL DMEM. In a 6 cm dish of complete medium, the cells were gently shaken to mix the cells, and the expression of GP34 gene was detected 48 h later.
- DC2.4 cells of normal DC2.4 cells and RNA interference vector of GP34 gene were cultured for 48 h, respectively, and PrimeScrip RT reagent was used for He 1 J
- Kit reverse transcribes mRNA into cDNA, reverse transcription conditions: 37 ° C, 15 min; 85 ° C, 5 s; 4 ° C, ⁇ . After the reverse transcription was completed, the cDNA was diluted with 90 ⁇ l of RNase-Free dH20 and stored at -20 ° C for later detection. Take the cDNA of each group of cells
- ⁇ is the template, GAPDH is used as the internal reference, and the relative expression of GP34 is detected by real-time quantitative PCR (QPCR).
- the reaction conditions are set: 95 ° C for 10 s, 1 cycle; 95 ° C 5 s, 54 ° C
- the NP34 gene RNA interference vector provided by the invention has the advantages of high transfection efficiency, low dosage, high and specific inhibition of GP34 gene expression in DC2.4 cells, and can be used as a powerful tool for preparing and treating G P34 gene.
- a drug that expresses an abnormally related disease is a drug that expresses an abnormally related disease.
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- Micro-Organisms Or Cultivation Processes Thereof (AREA)
Abstract
Provided are: a GP34-RNAi sequence and a recombinant vector containing the sequence, the GP34-RNAi sequence being as shown in SEQ ID NO:1; a recombinant vector containing a sequence as shown in SEQ ID NO:2; and an RNA interference vector of GP34 gene and preparation method therefor. The preparation method comprises: using pLVX-shRNA1 as a skeleton vector, and inserting in a recombinant site an shRNA oligonucleotide sequence consisting of a Bam HI enzyme cutting site + a target nucleotide sequence + a stem-loop structure sequence + a target nucleotide sequence complementary sequence + a termination site sequence + an EcoR I enzyme cutting site in sequential connection.
Description
发明名称:一种用于 RNAi的载体及其应用 Title of Invention: A Vector for RNAi and Its Application
技术领域 Technical field
[0001] 本发明属于基因工程领域, 涉及一种用于 RNAi的载体及其应用, 尤其涉及一 种 GP34基因的 RNA干扰载体及其应用。 [0001] The present invention belongs to the field of genetic engineering, and relates to a vector for RNAi and application thereof, and particularly to an RNA interference vector of GP34 gene and application thereof.
背景技术 Background technique
[0002] GP34是 TNF受体超家族成员之一, 为 I型跨膜糖蛋白。 GP34的表达谱局限于活 化的 CD4+和 CD8+ T细胞表面, 且以 CD4+ T细胞为主。 OX40/GP34是一对重要 的协同刺激分子, 在机体的免疫应答和多种疾病中起重要作用, 其相互作用能 促进 CD+4 [0002] GP34 is a member of the TNF receptor superfamily and is a type I transmembrane glycoprotein. The expression profile of GP34 is restricted to the surface of activated CD4+ and CD8+ T cells, and is predominantly CD4+ T cells. OX40/GP34 is an important co-stimulatory molecule that plays an important role in the body's immune response and various diseases, and its interaction can promote CD+4.
T细胞的活化、 增殖、 迁移, 延长其寿命, 并促进生发中心的形成和 DC的分化 成熟。 Activation, proliferation, and migration of T cells prolong their life span and promote the formation of germinal centers and the differentiation and maturation of DCs.
技术问题 technical problem
[0003] GP34能协同刺激 T细胞的活化, 促进 B细胞产生高效价抗体和类别转换, 介导 OX40+T细胞向炎性反应部位浸润, 在肿瘤的免疫治疗中起重要的作用, 需做大 量研究方可实现临床转化, 但现有技术中缺乏特异抑制 GP34基因表达的载体使 得相关研究无法很好地幵展。 [0003] GP34 can synergistically stimulate the activation of T cells, promote the production of high-valent antibodies and class switching of B cells, mediate the infiltration of OX40+ T cells into the inflammatory reaction site, and play an important role in the immunotherapy of tumors. The research can achieve clinical transformation, but the lack of vectors specifically inhibiting the expression of GP34 gene in the prior art makes the related research not well developed.
问题的解决方案 Problem solution
技术解决方案 Technical solution
[0004] 本发明的目的是 GP34基因的 RNA干扰载体及其构建方法和应用。 [0004] The object of the present invention is an RNA interference vector of GP34 gene and a construction method and application thereof.
[0005] 在本发明的第一方面, 提供一种分离的多核苷酸, 其核苷酸序列如 SEQ ID ΝΟ:1所示。 In a first aspect of the invention, an isolated polynucleotide is provided, the nucleotide sequence of which is set forth in SEQ ID NO: 1.
[0006] 在本发明的另一方面, 提供一种重组载体, 含有如 SEQ ID NO:2所示的核苷酸 序列, 所述重组载体是以 pLVX-shRNAl载体为骨架载体, 在多克隆酶切位点处 插入顺序连接的由 Bam HI酶切位点 +靶核苷酸序列 +茎环结构序列 +靶核苷酸序列 互补序列 +终止位点序列 +EcoR I酶切位点组成的 GP34-RNAi序列。 In another aspect of the invention, there is provided a recombinant vector comprising the nucleotide sequence set forth in SEQ ID NO: 2, wherein the recombinant vector is a pLVX-shRNA1 vector as a backbone vector, in a polyclonal enzyme GP34- consisting of Bam HI restriction site + target nucleotide sequence + stem loop structure sequence + target nucleotide sequence complementary sequence + termination site sequence + EcoR I restriction site at the cleavage site RNAi sequence.
[0007] 在本发明的另一方面, 提供一种前述的 GP34基因的 RNA干扰载体的制备方法
, 包括如下步骤: In another aspect of the present invention, a method for preparing an RNA interference vector of the aforementioned GP34 gene is provided , including the following steps:
[0008] 1) GP34-RNAi序列的设计: 根据 GP34的 mRNA全序列, 按 RNAi片段设计原则 设计干涉片段, NCBI BLSAT进行同源性对比, 确认特异性后得到靶核苷酸序列 , 获得如 SEQ ID NO:l所示序列, 命名为 GP34-RNAi序列; [0008] 1) Design of GP34-RNAi sequence: According to the full sequence of GP34 mRNA, the interference fragment was designed according to the design principle of RNAi fragment, NCBI BLSAT was used for homology comparison, and the target nucleotide sequence was obtained after confirming specificity, and obtained as SEQ ID NO: sequence shown by l, named GP34-RNAi sequence;
[0009] 2) GP34基因的 RNA干扰载体的构建和鉴定: 将合成的 GP34-RNAi序列与提取 的质粒 pLVX-shRNAl, 用限制性内切酶 Bam HI、 EcoR I双酶切, 电泳、 切胶回 收载体, 再用 T4 DNA Ligase分别将 GP34-RNAi序列连接 SJpLVX-shRNAl表达载 体中, 得到连接产物; 将连接产物转化到感受态大肠杆菌 Stbl3中, 均匀涂布到 含氨苄青霉素 LB培养基平板上, 挑取阳性单克隆菌落培养保存并进行 PCR鉴定 , 将初步鉴定结果说明 GP34-RNAi序列插入成功的菌液进行测序鉴定; [0009] 2) Construction and identification of RNA interference vector of GP34 gene: The synthesized GP34-RNAi sequence and the extracted plasmid pLVX-shRNA1 were digested with restriction endonucleases Bam HI and EcoR I, electrophoresis and gelatinization. The vector was recovered, and the GP34-RNAi sequence was ligated into the SJpLVX-shRNA1 expression vector by T4 DNA Ligase to obtain a ligation product; the ligation product was transformed into competent E. coli Stbl3 and uniformly coated onto an ampicillin-containing LB medium plate. The positive monoclonal colonies were picked and cultured and identified by PCR. The preliminary identification results indicated that the GP34-RNAi sequence was inserted into the successful bacterial solution for sequencing and identification;
[0010] 3) GP34基因的 RNA干扰载体的抽提: 将测序结果证实 GP34-RNAi序列插入成 功的菌液扩增培养, 进行大量抽提重组质粒, 得到 GP34基因的 RNA干扰载体。 [0010] 3) Extraction of RNA interference vector of GP34 gene: The GP34-RNAi sequence was confirmed to be inserted into a successful bacterial cell expansion culture, and a large amount of recombinant plasmid was extracted to obtain an RNA interference vector of GP34 gene.
[0011] 本发明利用 RNAi技术构建靶向 GP34基因表达的 RNA干扰载体, 经鉴定构建成 功后, 电转 DC2.4细胞, 使用实吋荧光定量 PCR技术从 mRNA水平验证 GP34基因 表达的抑制效果, 实验结果证明本发明提供的 GP34-RNAi序列成功插入至 pLVX- shRNAl表达载体中, 且对 GP34基因表达的抑制效果显著。 [0011] The present invention utilizes RNAi technology to construct an RNA interference vector targeting GP34 gene expression, and after successful identification, electrotransformation of DC2.4 cells, using the real-time fluorescent quantitative PCR technique to verify the inhibitory effect of GP34 gene expression from the mRNA level, the experiment As a result, it was confirmed that the GP34-RNAi sequence provided by the present invention was successfully inserted into the pLVX-shRNA1 expression vector, and the inhibitory effect on the expression of the GP34 gene was remarkable.
[0012] 在本发明的另一方面, 提供一种 SEQ ID ΝΟ:1所示的多核苷酸或含有 SEQ ID In another aspect of the invention, a polynucleotide set forth in SEQ ID NO: 1 or comprising SEQ ID is provided
ΝΟ:1所示的多核苷酸的载体或前述 GP34基因的 RNA干扰载体在 GP34基因表达异 常相关疾病的药物中的用途。 The use of the polynucleotide of the polynucleotide represented by 1 or the RNA interference vector of the aforementioned GP34 gene for the drug of the GP34 gene expression abnormality-related disease.
发明的有益效果 Advantageous effects of the invention
有益效果 Beneficial effect
[0013] 本发明提供的 GP34基因的 RNA干扰载体具有转染效率高, 用量少, 可高效、 特异地抑制 DC2.4细胞 GP34基因表达的优点, 可作为有力工具应用于制备治疗 G P34基因表达异常相关疾病的药物。 The RNA interference vector of the GP34 gene provided by the invention has the advantages of high transfection efficiency, low dosage, high and specific inhibition of GP34 gene expression in DC2.4 cells, and can be used as a powerful tool for preparing and treating the G P34 gene. A drug that expresses an abnormally related disease.
对附图的简要说明 Brief description of the drawing
附图说明 DRAWINGS
[0014] 图 1为转染 GP34基因的 RNA干扰载体细胞的荧光定量 PCR检测结果示意图。
实施该发明的最佳实施例 1 is a schematic diagram showing the results of real-time quantitative PCR detection of RNA interference vector cells transfected with GP34 gene. BEST MODE FOR CARRYING OUT THE INVENTION
本发明的最佳实施方式 BEST MODE FOR CARRYING OUT THE INVENTION
[0015] 下面结合附图与具体实施例对本发明做进一步的说明。 [0015] The present invention will be further described below in conjunction with the drawings and specific embodiments.
[0016] DC2.4细胞购自无锡英纽瑞生物医药科技有限公司, RNAi载体 pLVX-shRNAl 购自 Clontech公司, RNeasyMiniKit购自 Qiagen公司, 无内毒素质粒提取试剂盒购 自 Omega bio-tek公司。 下文所述完全培养基为加入了 10%胎牛血清的细胞培养基 [0016] DC2.4 cells were purchased from Wuxi Yingnuui Biomedical Technology Co., Ltd., RNAi vector pLVX-shRNAl was purchased from Clontech, RNeasy MiniKit was purchased from Qiagen, and endotoxin free plasmid extraction kit was purchased from Omega bio-tek. The complete medium described below is a cell culture medium supplemented with 10% fetal bovine serum.
[0017] 实施例一 GP34-RNAi序列的设计 [0017] Example 1 Design of GP34-RNAi Sequence
[0018] 在 GenBank査找到 GP34的 mRNA全序列, 根据 GP34的 mRNA全序列, 按 RNAi 片段设计原则设计干涉片段, NCBI BLSAT进行同源性对比, 确认特异性后得到 靶核苷酸序列。 [0018] The complete sequence of GP34 mRNA was found in GenBank. According to the full sequence of GP34 mRNA, the interference fragment was designed according to the design principle of RNAi fragment, NCBI BLSAT was used for homology comparison, and the target nucleotide sequence was obtained after confirming specificity.
[0019] 设计 GP34-RNAi序列, 如下: Bam [0019] The GP34-RNAi sequence was designed as follows: Bam
HI酶切位点 +19nt靶核苷酸序列 +茎环结构 (TTCAAGAGA) +靶序列互补序列 +R NAPolym聚合酶转录中止位点 (TTTTTT) +EcoR I酶切位点六个区域, 其序列 如 SEQ ID NO: 1所示。 设计的 GP34-RNAi序列链由上海生工生物工程技术服务有 限公司合成。 HI restriction site +19nt target nucleotide sequence + stem loop structure (TTCAAGAGA) + target sequence complementary sequence + R NAPolym polymerase transcription stop site (TTTTTT) + EcoR I restriction site six regions, the sequence of which SEQ ID NO: 1 is shown. The designed GP34-RNAi sequence chain was synthesized by Shanghai Biotech Engineering Services Co., Ltd.
[0020] 实施例二 GP34基因的 RNA干扰载体的构建。 Example 2 Construction of an RNA interference vector for the GP34 gene.
[0021] 将合成的 GP34-RNAi序列与提取的质粒 pLVX-shRNAl, 用限制性内切酶 Bam HI、 EcoR I双酶切, 电泳、 切胶回收载体, 再用 T4 DNA Ligase将 GP34-RNAi序 列连接到载体 pLVX-shRNAl中, 形成 GP34基因的 RNA干扰载体。 将连接产物转 化到感受态大肠杆菌 Stbl3中, 涂布到含氨苄青霉素 LB培养基的平板上, 于 37°C 培养 14 h。 挑取长出的菌落, 送至上海生工测序。 测序结果与所设计的序列完全 相符, 可用于后续实验。 [0021] The synthesized GP34-RNAi sequence and the extracted plasmid pLVX-shRNA1 were digested with restriction endonucleases Bam HI and EcoR I, electrophoresed, and the gel was recovered, and the GP34-RNAi sequence was further amplified by T4 DNA Ligase. An RNA interference vector that forms the GP34 gene is ligated into the vector pLVX-shRNA1. The ligation product was transformed into competent E. coli Stbl3, plated on a plate containing ampicillin LB medium, and cultured at 37 ° C for 14 h. Pick up the grown colonies and send them to Shanghai Biotech for sequencing. The sequencing results are fully consistent with the designed sequence and can be used in subsequent experiments.
[0022] 实施例三 DC2.4细胞的电转 [0022] Example 3 Electrical rotation of DC2.4 cells
[0023] 培养 DC2.4细胞, 取生长状态良好的细胞 3510000个, 离心收集细胞, 然后重悬 于 500 L PBS中, 与 20 g [0023] DC2.4 cells were cultured, and 35,000 cells in good growth state were taken, and the cells were collected by centrifugation, and then resuspended in 500 L of PBS with 20 g.
GP34基因的 RNA干扰载体混匀后加入电击杯, 应用 BTX ECM830电转仪进行电 转, 电转程序: 2.1 KV, 25 μ¥Ό , 脉冲电击一次; 将细胞转移至含 5 mL DMEM
完全培养基的 6 cm皿中, 轻轻晃动皿使细胞混匀, 48 h后检测 GP34基因表达情 况。 The RNA interference vector of GP34 gene was mixed and added to the electric shock cup, and the electric rotation was performed by BTX ECM830 electro-rotation instrument. The electroporation procedure was: 2.1 KV, 25 μ¥Ό, pulse electric shock once; the cells were transferred to 5 mL DMEM. In a 6 cm dish of complete medium, the cells were gently shaken to mix the cells, and the expression of GP34 gene was detected 48 h later.
[0024] 实施例四荧光定量 PCR检测 GP34基因表达量 [0024] Example 4 Fluorescence quantitative PCR detection of GP34 gene expression
[0025] 分别培养正常 DC2.4细胞和电转 GP34基因的 RNA干扰载体的 DC2.4细胞 48 h, 禾1 J用 PrimeScrip RT reagent [0025] DC2.4 cells of normal DC2.4 cells and RNA interference vector of GP34 gene were cultured for 48 h, respectively, and PrimeScrip RT reagent was used for He 1 J
Kit将 mRNA逆转录为 cDNA, 逆转录条件: 37°C, 15min; 85°C, 5s; 4°C, ∞。 反转录结束后, 加入 90μ1的 RNase-Free dH20稀释 cDNA, -20°C保存, 以便后面 检测使用。 取各组细胞的 cDNA Kit reverse transcribes mRNA into cDNA, reverse transcription conditions: 37 ° C, 15 min; 85 ° C, 5 s; 4 ° C, ∞. After the reverse transcription was completed, the cDNA was diluted with 90 μl of RNase-Free dH20 and stored at -20 ° C for later detection. Take the cDNA of each group of cells
Ιμί为模板, 以 GAPDH为内参, 实吋荧光定量 PCR (QPCR) 检测 GP34相对表达 量, 设置反应条件: 95°C 10s, 1个循环; 95°C 5s, 54°C Ιμί is the template, GAPDH is used as the internal reference, and the relative expression of GP34 is detected by real-time quantitative PCR (QPCR). The reaction conditions are set: 95 ° C for 10 s, 1 cycle; 95 ° C 5 s, 54 ° C
30s, 共 40个循环, 利用 SYBR Prime script RT-PCR Kit检测各组细胞 GP34基因相 对表达量, 结果如图 1所示。 结果显示转染 GP34基因的 RNA干扰载体的 DC2.4细 胞, GP34基因表达明显受到抑制, GP34-RNAi序列对目的基因的抑制效率达 71. 6%±6.2%, 从而证明本实验中采用的 GP34基因的 RNA干扰载体能特异抑制 GP34 基因的表达, 且抑制效果非常显著。 30s, a total of 40 cycles, using SYBR Prime script RT-PCR Kit to detect the relative expression of GP34 gene in each group, the results are shown in Figure 1. The results showed that the expression of GP34 gene was significantly inhibited in DC2.4 cells transfected with GP34 gene by RNA interference vector. The inhibitory efficiency of GP34-RNAi sequence on the target gene was 71.6%±6.2%, which proved that GP34 was used in this experiment. The RNA interference vector of the gene specifically inhibits the expression of the GP34 gene, and the inhibitory effect is very remarkable.
工业实用性 Industrial applicability
[0026] 本发明提供的 GP34基因的 RNA干扰载体具有转染效率高, 用量少, 可高效、 特异地抑制 DC2.4细胞 GP34基因表达的优点, 可作为有力工具应用于制备治疗 G P34基因表达异常相关疾病的药物。
The NP34 gene RNA interference vector provided by the invention has the advantages of high transfection efficiency, low dosage, high and specific inhibition of GP34 gene expression in DC2.4 cells, and can be used as a powerful tool for preparing and treating G P34 gene. A drug that expresses an abnormally related disease.
Claims
权利要求书 Claim
一种分离的多核苷酸, 其特征在于, 其核苷酸序列如 SEQ ID NO: 1所 示。 An isolated polynucleotide characterized by having a nucleotide sequence as shown in SEQ ID NO: 1.
一种载体, 其特征在于, 它含有权利要求 1所述的多核苷酸。 A vector comprising the polynucleotide of claim 1.
一种重组载体, 含有如 SEQ ID A recombinant vector containing SEQ ID
NO:2所示的序列, 所述重组载体是以 pLVX-shRNAl为骨架载体, 在 重组位点处插入顺序连接的由 Bam HI酶切位点 +靶核苷酸序歹 ij+茎环 结构序列 +靶核苷酸序列互补序列 +终止位点序列 +EcoR I酶切位点组 成的 shRNA寡核苷酸序列。 The sequence shown by NO: 2, wherein the recombinant vector is pLVX-shRNA1 as a backbone vector, and the Bam HI cleavage site + target nucleotide sequence 歹 ij + stem loop structure sequence is inserted at the recombination site. ShRNA oligonucleotide sequence consisting of a target nucleotide sequence complementary sequence + a stop site sequence + an EcoR I restriction site.
一种权利要求 3所述的 GP34基因的 RNA干扰载体的制备方法, 其特征 在于, 包括如下步骤: A method for preparing an RNA interference vector of the GP34 gene according to claim 3, comprising the steps of:
1) GP34-RNAi序列的设计: 根据 GP34的 mRNA全序列, 按 RNAi片段 设计原则设计干扰片段, NCBI BLSAT进行同源性对比, 确认特异性 后得到靶核苷酸序列, 获得如 SEQ ID 1) Design of GP34-RNAi sequence: According to the full sequence of GP34 mRNA, the interference fragment was designed according to the design principle of RNAi fragment, NCBI BLSAT was used for homology comparison, and the target nucleotide sequence was confirmed after specificity, and SEQ ID was obtained.
NO: 1所示序列, 命名为 GP34-RNAi序列; NO: sequence shown by 1, named GP34-RNAi sequence;
2) GP34基因的 RNA干扰载体的构建和鉴定: 将合成的 GP34-RNAi序 列与提取的质粒 pLVX-shRNA 1, 用限制性内切酶 Bam HI、 EcoR I双 酶切, 电泳、 切胶回收载体, 再用 T4 DNA Ligase分别将 GP34-RNAi 序列连接到 pLVX-shRNAl表达载体中, 得到连接产物; 将连接产物 转化到感受态大肠杆菌 Stbl3中, 均匀涂布到含氨苄青霉素 LB培养基 平板上, 挑取阳性单克隆菌落培养保存并进行 PCR鉴定, 将初步鉴定 结果说明 GP34-RNAi序列插入成功的菌液进行测序鉴定; 2) Construction and identification of RNA interference vector of GP34 gene: The synthesized GP34-RNAi sequence and the extracted plasmid pLVX-shRNA 1 were digested with restriction endonucleases Bam HI and EcoR I, electrophoresis and gel-removed recovery vector. Then, the GP34-RNAi sequence was ligated into the pLVX-shRNA1 expression vector by T4 DNA Ligase to obtain a ligation product; the ligation product was transformed into competent E. coli Stbl3, and uniformly coated onto an ampicillin-containing LB medium plate. The positive monoclonal colonies were picked and cultured and identified by PCR. The preliminary identification results indicated that the GP34-RNAi sequence was inserted into the successful bacterial solution for sequencing and identification;
3) GP34基因的 RNA干扰载体的抽提: 将测序结果证实 GP34-RNAi序 列插入成功的菌液扩增培养, 进行大量抽提重组质粒, 得到 GP34基 因的 RNA干扰载体。 3) Extraction of RNA interference vector of GP34 gene: The sequencing result confirmed that the GP34-RNAi sequence was inserted into a successful bacterial cell expansion culture, and a large number of recombinant plasmids were extracted to obtain an RNA interference vector of GP34 gene.
一种权利要求 1所述的多核苷酸或权利要求 2所述的重组载体或权利要 求 3所述的 GP34基因的 RNA干扰载体在治疗 GP34基因表达异常相关 疾病的应用。
Use of the polynucleotide of claim 1 or the recombinant vector of claim 2 or the RNA interference vector of the GP34 gene of claim 3 for the treatment of a disease associated with abnormal expression of GP34 gene.
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| WO2016022468A1 (en) * | 2014-08-04 | 2016-02-11 | Baylor Research Institute | Antagonistic anti-ox40l antibodies and methods of their use |
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| WO2016022468A1 (en) * | 2014-08-04 | 2016-02-11 | Baylor Research Institute | Antagonistic anti-ox40l antibodies and methods of their use |
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