Preparation of Polyclonal Antibody Against c-Myc Protein in Sus scrofa
-
摘要:
目的 克隆猪c-Myc基因CDS序列并构建其原核表达载体,同时纯化c-Myc蛋白并以此为抗原制备多克隆抗体,为进一步研究猪圆环病毒2型(Porcine circovirus type 2,PCV2)Rep蛋白与宿主c-Myc蛋白之间的交互作用奠定基础。 方法 根据猪c-Myc全基因序列(GenBank No. NM_001005154)设计引物,以反转录PCR方法扩增c-Myc基因CDS序列,经Nde I/Xho I双酶切后定向克隆至原核表达载体pET-30a(+);转化至Arctic-ExpressTM大肠杆菌后诱导表达;表达产物经变性、复性和His-Band Ni+层析柱亲和纯化后免疫新西兰白兔。抗原亲和层析法纯化抗体后,用间接ELISA法测定其效价,用Western blot检测其特异性。 结果 经检测,克隆产生的猪c-Myc基因CDS序列长度为1 359 bp,c-Myc-His重组蛋白主要以包涵体形式出现,分子质量约为63 kDa,由此蛋白制备的多抗效价可以达到1∶1 093 500,并能特异性识别猪c-Myc蛋白和重组蛋白c-Myc-His。 结论 本研究成功制备了猪c-Myc蛋白多克隆抗体,为研究猪c-Myc蛋白功能和其与PCV2 Rep蛋白之间的相互作用奠定了良好基础。 Abstract:Objective To facilitate studies on the functions of the porcine circovirus type 2 Rep protein and its interaction with the host c-Myc protein, a polyclonal antibody against the virus was prepared. Method According to the complete sequence of porcine c-Myc (GenBank No. NM_001005154), primers were designed to amplify the CDS sequence of the gene by reverse transcription PCR. The CDS was double-digested by Nde I/Xho I enzymes to construct the prokaryotic expression vector pET-30a(+) and transformed into bacterium Arctic-ExpressTM (Escherichia coli) for induction and expression. The obtained products were denatured, re-natured, and affinity purified by His-band Ni+ chromatography as the antigen to prepare polyclonal antibody by immunizing New Zealand white rabbits. The resulting antibody was purified by the antigen affinity purification chromatography, and the titer and specificity determined by indirect ELISA and western blot. Result The cloned CDS-sequence of porcine c-Myc was 1359 bp. The recombinant protein of c-Myc-His was mainly in the form of inclusion bodies with a molecular weight of approximately 63 kDa. The titer of the polyclonal antibody prepared from the protein was greater than 1∶1093500. It could specifically recognize the target proteins including recombinant c-Myc-His and porcine c-Myc proteins. Conclusion The target polyclonal antibody against the porcine c-Myc protein was successfully obtained for further studies on the functions of the protein as well as its interactions with the PCV2 Rep protein. -
图 2 猪c-Myc 蛋白的亲/疏水性分析
Figure 2. Hydrophilicity/hydrophobicity of porcine c-Myc protein
图 3 重组表达质粒pET-c-Myc的双酶切鉴定
M:DNA Marker;1:pET-c-Myc质粒对照;2:pET-c-Myc质粒双酶切。
Figure 3. Identification of recombinant expression plasmid pET-c-Myc by double digestion
M: DNA marker; 1: control of pET-c-Myc plasmid; 2: double-digested pET-c-Myc plasmid.
图 4 重组蛋白c-Myc-His表达的SDS-PAGE分析
M:蛋白质分子质量标准;1:经pET-30a(+)诱导(空载)的产物;2:未经IPTG诱导的pET-c-Myc产物;3:经IPTG诱导的pET-c-Myc产物;4:IPTG诱导的pET-c-Myc上清液;5:IPTG诱导的pET-c-Myc沉淀。
Figure 4. Expression and solubility of c-Myc-His recombinant protein determined by SDS-PAGE
M: Protein molecular weight marker; 1: product from pET-30a(+) (empty load) induced by IPTG; 2: product from uninduced pET-c-Myc; 3: product from pET-c-Myc induced by IPTG; 4: supernatant from pET-c-Myc induced by IPTG; 5: precipitate from pET-c-Myc induced by IPTG.
图 5 重组蛋白c-Myc-His纯化的SDS-PAGE分析
M:蛋白质分子质量标准;1:经 IPTG诱导的菌体总蛋白;2:Ni-IDA Washing-Buffer 冲洗后的流出液;3~4:Ni-IDA Elution-Buffer洗脱后的流出液。
Figure 5. SDS-PAGE analysis on purified c-Myc-His recombinant protein
M: Protein molecular weight marker; 1: total protein of bacteria induced by IPTG; 2: effluents after washing by Ni-IDA washing-buffer; 3—4: effluents after washing by Ni-IDA elution-buffer.
图 6 猪c-Myc蛋白多克隆抗体特异性的Western blot分析
M:蛋白标准;1:重组蛋白His-Hsp40;2:重组蛋白c-Myc-His。
Figure 6. Specificity of polyclonal antibody against porcine c-Myc protein determined by western blot
M: Protein marker; 1: recombinant protein His-Hsp40; 2: recombinant protein c-Myc-His.
图 7 猪c-Myc蛋白多克隆抗体与猪c-Myc蛋白的间接免疫荧光反应(200×)
A. pcDNA3.1(+)转染的PAM细胞;B. pcDNA-c-Myc转染的PAM细胞。
Figure 7. Indirect immunofluorescence assay on polyclonal antibody and porcine c-Myc protein (200×)
A. pcDNA3.1(+) transfected PAM cells; B: pcDNA3.1-c-Myc transfected PAM cells.
表 1 间接ELISA法测定猪c-Myc蛋白多克隆抗体的效价
Table 1. Indirect ELISA determination on polyclonal antibody titer against porcine c-Myc protein
抗体稀释度
Antibody dilutionOD450 nm 1∶500 3.708 1∶1500 3.407 1∶4500 3.399 1∶13500 3.368 1∶40500 3.231 1∶121500 2.629 1∶364500 1.267 1∶1093500 0.589 1∶3280500 0.328 1∶9841500 0.243 1∶29524500 0.202 空白 Mock 0.190 滴度 Titer >1093500 
下载: 导出CSV
-
[1] 汤慧敏, 李玉峰. C-Myc在慢性髓系白血病中的作用机制研究进展 [J]. 中国实验血液学杂志, 2019, 27(1):297−300.TANG H M, LI Y F. Research progress of C-myc in chronic myelogenous leukemia [J]. Journal of Experimental Hematology, 2019, 27(1): 297−300.(in Chinese) [2] 张彪. 新型有机硒化合物CU27通过靶向c-MYC转录功能抑制肝癌转移及肿瘤干细胞性能[D]. 北京: 军事科学院, 2020.ZHANG B. A novel organic selenium compound CU27 inhibits liver cancer metastasis and cancer stem cells through inhibition of c-MYC transcriptional function[D]. Beijing: Military Academy of Sciences, 2020. (in Chinese) [3] 王奕婷, 姜雪薇, 白晓彦. 靶向c-Myc的癌症治疗策略 [J]. 中国生物化学与分子生物学报, 2022, 38(11):1451−1457.WANG Y T, JIANG X W, BAI X Y. Cancer treatment strategies by targeting the oncoprotein c-myc [J]. Chinese Journal of Biochemistry and Molecular Biology, 2022, 38(11): 1451−1457.(in Chinese) [4] 纪濛濛, 赵维莅. MYC癌蛋白通过代谢通路影响肿瘤发生的研究进展 [J]. 中华血液学杂志, 2014, 35(5):470−474.JI M M, ZHAO W L. Advances of MYC oncoprotein in tumorigenesis through metabolism pathway [J]. Chinese Journal of Hematology, 2014, 35(5): 470−474.(in Chinese) [5] 杨宁, 钟华. C-Myc在多发性骨髓瘤中的研究进展 [J]. 肿瘤, 2021, 41(2):131−138.YANG N, ZHONG H. Research progress of C-Myc in multiple myeloma [J]. Tumor, 2021, 41(2): 131−138.(in Chinese) [6] 余伙梅, 胡凯, 廖德宇, 等. c-Myc靶向LncRNA SNHG3对乳腺癌细胞生物学作用的影响 [J]. 现代肿瘤医学, 2022, 30(19):3445−3453.YU H M, HU K, LIAO D Y, et al. Effects of biological role of LncRNA SNHG3 targeted by c-Myc on breast cancer cells [J]. Journal of Modern Oncology, 2022, 30(19): 3445−3453.(in Chinese) [7] 高明德, 王小林. c-Myc在膀胱癌中的作用机制及其研究进展 [J]. 癌症进展, 2021, 19(8):757−760,769.GAO M D, WANG X L. Mechanism and research progress of c-Myc in bladder cancer [J]. Oncology Progress, 2021, 19(8): 757−760,769.(in Chinese) [8] 孙崙泉, Hiroto Naora, 苏成芝. C-myc基因表达调控的研究[J]. 生物化学杂志, 1988, 4(6): 481−488.SUN L Q, Hiroto N, SU C Z. Study on regulation of c-myc oncogene expression[J]. Chinese Journal of Biochemistry and Molecular Biology, 1988, 4(6): 481−488. (in Chinese) [9] 魏素菊, 张凯. C-myc蛋白结构、功能及对肿瘤细胞调控作用 [J]. 河北医药, 2009, 31(21):2965−2966.WEI S J, ZHANG K. Structure and function of C-myc protein and its regulation on tumor cells [J]. Hebei Medical Journal, 2009, 31(21): 2965−2966.(in Chinese) [10] 杨帆. C-Myc通过转录激活SQLE促进胆固醇合成以及细胞增殖[D]. 北京: 北京协和医学院, 2021.YANG F. C-Myc activates SQLE through transcription to promote cholesterol synthesis and cell proliferation[D]. Beijing: Peking Union Medical College, 2021. (in Chinese) [11] 许慧. c-Myc转录抑制活性在白血病发生发展中的作用[D]. 上海: 上海师范大学, 2019.XU H. Role of c-Myc transcription inhibitory activity in the occurrence and development of leukemia[D]. Shanghai: Shanghai Normal University, 2019. (in Chinese) [12] TIMMUSK S, FOSSUM C, BERG M. Porcine circovirus type 2 replicase binds the capsid protein and an intermediate filament-like protein [J]. The Journal of General Virology, 2006, 87(Pt 11): 3215−3223. [13] PRICE A M, MESSINGER J E, LUFTIG M A. C-myc represses transcription of epstein-barr virus latent membrane protein 1 early after primary B cell infection [J]. Journal of Virology, 2018, 92(2): e01178−e01117. [14] FAN X L, LIU Y, CHEN J J. Activation of c-Myc contributes to bovine papillomavirus type 1 E7-induced cell proliferation [J]. The Journal of Biological Chemistry, 2003, 278(44): 43163−43168. doi: 10.1074/jbc.M306008200 [15] WANG Y W, CHANG H S, LIN C H, et al. HPV-18 E7 conjugates to c-myc and mediates its transcriptional activity [J]. The International Journal of Biochemistry & Cell Biology, 2007, 39(2): 402−412. [16] 张海燕, 杨宏军, 王长法, 等. 凝胶过滤与镍柱亲和纯化金葡菌α-溶血素重组蛋白的生物学特性比较 [J]. 生物工程学报, 2009, 25(2):176−180. doi: 10.3321/j.issn:1000-3061.2009.02.003ZHANG H Y, YANG H J, WANG C F, et al. Activity and quality comparison of the engineered protein Staphylococcus aureus α-hemolysin purified with gel filtration chromatography and Ni-NTA [J]. Chinese Journal of Biotechnology, 2009, 25(2): 176−180.(in Chinese) doi: 10.3321/j.issn:1000-3061.2009.02.003 [17] 刘伟, 郭抗抗, 林鸷, 等. 猪Jiv基因的克隆表达与多克隆抗体制备 [J]. 西北农林科技大学学报(自然科学版), 2015, 43(2):7−13,22.LIU W, GUO K K, LIN Z, et al. Cloning and expression of swine Jiv gene and preparation of its polyclonal antibody [J]. Journal of Northwest A & F University (Natural Science Edition), 2015, 43(2): 7−13,22.(in Chinese) [18] 李卫锦, 张静文, 袁长春, 等. 基于iTRAQ技术筛选红榄李种子响应败育差异表达蛋白 [J]. 广东农业科学, 2020, 47(7):68−78.LI W J, ZHANG J W, YUAN C C, et al. Identification of differentially expressed proteins in abortive seeds of Lumnitzera littorea based on iTRAQ [J]. Guangdong Agricultural Sciences, 2020, 47(7): 68−78.(in Chinese) [19] 赵小明. 家蚕丝腺特异表达的bHLH转录因子Bmsage和Bmdimm的功能研究[D]. 重庆: 西南大学, 2014.ZHAO X M. Function on BHLH transcription factors, bmsage and bmdimm, expressed specially in the silk gland of silkworm, Bombyx mori[D]. Chongqing: Southwest University, 2014. (in Chinese) [20] 卓严玲, 吕其壮, 邓家华, 等. 猪P58IPK蛋白多克隆抗体的制备 [J]. 农业生物技术学报, 2019, 27(11):2083−2090.ZHUO Y L, LV Q Z, DENG J H, et al. Preparation of polyclonal antibody against porcine(Sus scrofa) P58IPK protein [J]. Journal of Agricultural Biotechnology, 2019, 27(11): 2083−2090.(in Chinese) [21] 阮青婷, 张琦, 龚紫凤, 等. 猪圆环病毒4型Cap蛋白的原核表达及其单克隆抗体的制备 [J]. 中国兽医科学, 2021, 51(12):1554−1560.RUAN Q T, ZHANG Q, GONG Z F, et al. Prokaryotic expression and monoclonal antibody preparation of Cap protein of porcine circovirus type 4 [J]. Chinese Veterinary Science, 2021, 51(12): 1554−1560.(in Chinese) [22] 吕其壮, 刘畅, 颜秋, 等. 猪热休克蛋白40(Hsp40)的原核表达、纯化及多克隆抗体的制备 [J]. 中国兽医学报, 2019, 39(4):728−734.LYU Q Z, LIU C, YAN Q, et al. Prokaryotic expression and purification of porcine heat shock protein 40 (Hsp40)and preparation of its polyclonal antibody [J]. Chinese Journal of Veterinary Science, 2019, 39(4): 728−734.(in Chinese) [23] 王伟超. 核仁蛋白EBP2反馈调控转录因子c-Myc影响rDNA转录、细胞增殖以及肿瘤形成[D]. 上海: 华东师范大学, 2015.WANG W C. A positive feedack loop between EBP2 and c-myc regulates rDNA transcription, cell proliferation and tumorigenesis[D]. Shanghai: East China Normal University, 2015. (in Chinese) [24] BOWEN H, BIGGS T E, PHILLIPS E, et al. C-Myc represses and Miz-1 activates the murine natural resistance-associated protein 1 promoter [J]. The Journal of Biological Chemistry, 2002, 277(38): 34997−35006. doi: 10.1074/jbc.M204232200 -
点击查看大图
计量
- 文章访问数: 143
- HTML全文浏览量: 76
- PDF下载量: 8
- 被引次数: 0
