Schnell N, Entian K D, Schneider U, Götz F, Zähner H, Kellner R, Jung G
Medizinisch-Naturwissenschaftliches Forschungszentrum, University of Tübingen, FRG.
Nature. 1988 May 19;333(6170):276-8. doi: 10.1038/333276a0.
The genetic basis for the biosynthesis of large polypeptide antibiotics such as nisin has not been explained so far. We show here that the structural gene epiA encoding the antibiotic epidermin from Staphylococcus epidermidis is located on a 54-kilobase plasmid and codes for a 52-amino-acid prepeptide, which is processed to the tetracyclic 21-peptide amide antibiotic. The mature sequence of epidermin corresponds to the C-terminal 22-peptide segment of pre-epidermin and contains the precursor amino acids Ser, Thr and Cys, from which the unusual amino-acid constituents are derived. The more lipophilic epidermin is cleaved at a hydrophilic turn between Arg-1 and Ile+1 from the N-terminal segment-30 to -1, which probably assumes a partially amphiphilic alpha-helix conformation. We propose that the N-terminus (-30 to -1) plays a cooperative role during modification reactions and prevents toxicity of the mature epidermin to the producing strain before the antibiotic is cleaved off and secreted.
到目前为止,诸如乳链菌肽等大型多肽抗生素生物合成的遗传基础尚未得到解释。我们在此表明,编码表皮葡萄球菌抗生素表皮菌素的结构基因epiA位于一个54千碱基的质粒上,编码一个52个氨基酸的前肽,该前肽被加工成四环21肽酰胺抗生素。表皮菌素的成熟序列对应于前表皮菌素的C端22肽段,并包含前体氨基酸丝氨酸、苏氨酸和半胱氨酸,异常氨基酸成分由此衍生而来。亲脂性更强的表皮菌素在N端片段-30至-1中Arg-1和Ile+1之间的亲水性转折处被切割,该片段可能呈现部分两亲性α-螺旋构象。我们提出,N端(-30至-1)在修饰反应中起协同作用,并在抗生素被切割并分泌之前防止成熟表皮菌素对产生菌株产生毒性。