Onaka Hiroyasu, Taniguchi Shin-ichi, Igarashi Yasuhiro, Furumai Tamotsu
Biotechnology Research Center, Toyama Prefectural University, Kosugi, Toyama 939-0398, Japan.
Biosci Biotechnol Biochem. 2003 Jan;67(1):127-38. doi: 10.1271/bbb.67.127.
The biosynthetic gene cluster for rebeccamycin, an indolocarbazole antibiotic, from Lechevalieria aerocolonigenes ATCC 39243 has 11 ORFs. To clarify their functions, mutants with rebG, rebD, rebC, rebP, rebM, rebR, rebH, rebT, or orfD2 disrupted were constructed, and the gene products were examined. rebP disruptants produced 11,11'-dichlorochromopyrrolic acid, found to be a biosynthetic intermediate by a bioconversion experiment. Other genes encoded N-glycosyltransferase (rebG), monooxygenase (rebC), methyltransferase (rebM), a transcriptional activator (rebR), and halogenase (rebH). rebT disruptants produced rebeccamycin as much as the wild strain, so rebT was probably not involved in rebeccamycin production. Biosynthetic genes of staurosporine, an another indolocarbazole antibiotic, were cloned from Streptomyces sp. TP-A0274. staO, staD, and staP were similar to rebO, rebD, and rebP, respectively, all of which are responsible for indolocarbazole biosynthesis, But a rebC homolog, encoding a putative enzyme oxidizing the C-7 site of pyrrole rings, was not found in the staurosporine biosynthetic gene cluster. These results suggest that indolocarbazole is constructed by oxidative decarboxylation of chromopyrrolic acid (11,11'-dichlorochromopyrrolic acid in rebeccamycin) generated from two molecules of tryptophan by coupling and that the oxidation state at the C-7 position depends on the additional enzyme(s) encoded by the biosynthetic genes.
来自产气栖热放线菌ATCC 39243的吲哚咔唑抗生素瑞贝克霉素的生物合成基因簇有11个开放阅读框(ORF)。为阐明其功能,构建了rebG、rebD、rebC、rebP、rebM、rebR、rebH、rebT或orfD2被破坏的突变体,并对基因产物进行了检测。rebP缺失突变体产生了11,11'-二氯铬吡咯酸,通过生物转化实验发现其为生物合成中间体。其他基因编码N-糖基转移酶(rebG)、单加氧酶(rebC)、甲基转移酶(rebM)、转录激活因子(rebR)和卤化酶(rebH)。rebT缺失突变体产生的瑞贝克霉素与野生菌株一样多,因此rebT可能不参与瑞贝克霉素的产生。从链霉菌属TP-A0274中克隆了另一种吲哚咔唑抗生素星形孢菌素的生物合成基因。staO、staD和staP分别与rebO、rebD和rebP相似,它们均负责吲哚咔唑的生物合成,但在星形孢菌素生物合成基因簇中未发现编码假定的氧化吡咯环C-7位点的酶的rebC同源物。这些结果表明,吲哚咔唑是由两分子色氨酸通过偶联产生的铬吡咯酸(瑞贝克霉素中的11,11'-二氯铬吡咯酸)经氧化脱羧构建而成,且C-7位的氧化态取决于生物合成基因编码的额外酶。
