为深入了解两种新型人工抗菌肽mytilin-derived-peptide-1(MDP-1)和mytilin-derived-peptide-2(MDP-2)的溶液结构和抗菌机理并探讨两种抗菌肽之间活性差异的结构基础,采用二维核磁共振技术(2-D NMR)研究MDP分子的溶液结构;采用透射电镜技术(Transmitted electron microscopy,TEM)研究MDP分子对于大肠杆菌和藤黄叠球菌的作用机理。研究结果表明,MDP-1和MDP-2均采取了典型的β-发夹结构,其分子表面具有明显的疏水斑片,其分子中碱性氨基酸突出于分子表面;经MDP分子处理后的大肠杆菌以及藤黄叠球菌均出现细胞壁或细胞膜结构被破坏,并出现膜壁分离以及细胞质内缩现象。我们认为,MDP-1和MDP-2分子中的碱性氨基酸有助于MDP结合细菌表面的带负电荷的基团,同时其分子表面的疏水斑片有助于其插入到细菌细胞膜内;其疏水斑片面积以及碱性氨基酸在分子表面的拓扑结构差异是MDP-1和MDP-2活性差异的主要原因;电镜实验结果表明MDP-1和MDP-2的主要靶标是细菌细胞壁以及细胞膜;上述研究为深入了解MDP分子的结构与功能的关系以及将来基于MDP分子的药物研发奠定了基础。
[Objective] The aim was to study the construction and expression of eukaryotic expression vectors of antibacterial peptides (mytilin and myticin) from Mytilus coruscus.[Method] By the screening of antibacterial peptide genes of mytilin and myticin of Mytilus coruscus,five antibacterial peptide genes were selected.Then,the relative eukaryotic expressing vectors were constructed by the use of PCR technique and DNA recombinant technology.Subsequently,they were transferred in to S78 Saccharomyces cerevisia by using LiAC transformation method,and then preliminary expressing analysis was carried out.[Result] Five eukaryotic expressing vectors of antibacterial peptides from Mytilus coruscus were successfully constructed,and the results of mRNA detection revealed that the five antibacterial peptides from Mytilus coruscus were successfully transcribed.[Conclusion] The results provide a basis for using genetic engineering to express antibacterial peptides of mytilin and myticin from Mytilus coruscus,and for developing the further study of antibacterial peptides from Mytilus coruscus based on this.