无指盘臭蛙皮肤抗菌肽Odorgrin A和Odorgrin C基因表达载体的构建及其在毕赤酵母中的表达

研究背景与目的：近二十年来，抗生素的广泛使用以及一些不当应用导致临床上出现大量的耐药性病原菌，所以不易产生耐药性的抗菌肽就成为目前研究的热点。本课题组此前的研究表明无指盘臭蛙（Odorrana grahami）皮肤抗菌肽具有广谱抗菌活性，但对真核细胞没有毒性，因此有成为新型药物的潜力。本研究采用毕赤酵母真核表达系统来生物合成抗菌肽Odorgrin A和Odorgrin C，为大量获取抗菌肽资源提供技术支撑。 方法：依照Odorgrin A和C的氨基酸序列、采用酵母偏爱密码子分别设计并化学合成了相应的目的基因序列。目的片段从合成质粒上用Xho Ι和EcoR Ι双酶切下后，与经同样限制酶完全酶切pPIC9K载体所获得的两个大片段直接连接，并转化至大肠杆菌DH5α。用PCR扩增、酶切及测序检测，鉴定正确的重组质粒。提取大量表达载体pPIC9K - Odo A和C并使之线性化后经电击法分别转化毕赤酵母（Pichia pastoris）GS115宿主菌，用营养缺陷型筛选、遗传霉素抗性筛选、PCR扩增和测序检测，鉴定并筛选出对G418具高抗性的Odorgrin A和C重组酵母菌。用甲醇对之进行诱导表达，SDS - PAGE电泳及反相层析检测表达产物，并做抑菌活性检测。 成果：PCR扩增、酶切及测序等结果表明表达载体pPIC9K - Odo A和C构建成功。营养缺陷型筛选、遗传霉素抗性筛选、PCR扩增和测序等证实pPIC9K - Odo A和C已整合入酵母基因组中。SDS - PAGE电泳及反相层析结果表明抗菌肽Odorgrin A和C成功地获得了分泌表达。而抑菌活性实验则检测到部分阳性克隆菌诱导分泌表达的抗菌肽Odorgrin A和C都对测试菌的生长具有较高（>94%）的抑制率。 结论：无指盘臭蛙皮肤抗菌肽Odorgrin A和Odorgrin C基因的表达载体都构建成功，并且都在毕赤酵母系统中获得了成功表达。 Background ＆ Objective: In the recent twenty years, a lot of pathogenic bacteria have come forth in clinic with durable trait derived from making use of and abusing the traditional antibiotics. Therefore, studying antimicrobial peptides, not be easy to be invalidated by durable bacteria, are becomimg popular and important. The skin antimicrobial peptides of Odorrana grahami with broad spectrum antibacterial activity and no toxicity to eukaryotic cell, discovered by previous research work of our workgroup, are looked forward to being potential medication. Pichia pastoris expressional system was used for biosynthesis antimicrobial peptides Odorgrin A and Odorgrin C in this study, for producing abundant antimicrobial peptides. Methods: The foreign fragments which included Odorgrin A or Odorgrin C gene according to their amino acid sequence respectively were synthesized based on the biased codon usage of yeast. The DNA fragments, obtained from the plasmids containing them by digested with Xho Ι and EcoR Ι, were directly ligated with the two bigger fragments obtained from the vector pPIC9K by digested with the same restriction enzymes. And then they were transformed into Escherichia coli DH5α to be selected and amplified positive colonies. The recombinants were testified by using PCR amplification, enzymes digestion and sequencing of the foreign fragment. After the expressional vector pPIC9K - Odo A and pPIC9K - Odo C were linearized, they were transformed into Pichia pastoris GS115 strain by the electroporation. Then the positive colonies which were of the highest geneticin resistant were selected through auxotrophic screening, genetic resistant screening, PCR amplification and sequencing of the inserted fragment. Methanol was used to induce the recombinant yeasts to express the foreign gene. SDS-PAGE electrophoresis, reversed phase chromatography and antibacterial activity experiment were used to testify the expressional products. Results: The evidences of PCR, enzymes digestion and sequence analysis confirmed that the expressional vector pPIC9K - Odo A and pPIC9K - Odo C have been constructed correctly. The results of auxotrophic screening, of genetic resistant screening, of PCR and sequencing of the foreign fragment showed that Odorgrin A and Odorgrin C gene have been homologous integrated with the Pichia pastoris genome. And it was also testified that antimicrobial peptides Odorgrin A and Odorgrin C have been expressed successfully by using SDS - PAGE electrophoresis, reversed phase chromatography and antibacterial activity experiment. Conclusion: The expressional vector of the skin antimicrobial peptides Odorgrin A and Odorgrin C gene of Odorrana grahami have been constructed correctly and both of the genes have been expressed successfully in Pichia pastoris system in this study.