Laboratory of Microbial Metabolism and School of Life Sciences and Biotechnology, Shanghai Jiaotong University, Shanghai 200030, China.
J Biol Chem. 2010 Jun 25;285(26):20097-108. doi: 10.1074/jbc.M109.090092. Epub 2010 Apr 20.
The oxazolomycins (OZMs) are a growing family of antibiotics produced by several Streptomyces species that show diverse and important antibacterial, antitumor, and anti-human immunodeficiency virus activity. Oxazolomycin A is a peptide-polyketide hybrid compound containing a unique spiro-linked beta-lactone/gamma-lactam, a 5-substituted oxazole ring. The oxazolomycin biosynthetic gene cluster (ozm) was identified from Streptomyces albus JA3453 and localized to 79.5-kb DNA, consisting of 20 open reading frames that encode non-ribosomal peptide synthases, polyketide synthases (PKSs), hybrid non-ribosomal peptide synthase-PKS, trans-acyltransferases (trans-ATs), enzymes for methoxymalonyl-acyl carrier protein (ACP) synthesis, putative resistance genes, and hypothetical regulation genes. In contrast to classical type I polyketide or fatty acid biosynthases, all 10 PKS modules in the gene cluster lack cognate ATs. Instead, discrete ATs OzmM (with tandem domains OzmM-AT1 and OzmM-AT2) and OzmC were equipped to carry out all of the loading functions of both malonyl-CoA and methoxymalonyl-ACP extender units. Strikingly, only OzmM-AT2 is required for OzmM activity for OZM biosynthesis, whereas OzmM-AT1 seemed to be a cryptic AT domain. The above findings, together with previous results using isotope-labeled precursor feeding assays, are assembled for the OZM biosynthesis model to be proposed. The incorporation of both malonyl-CoA (by OzmM-AT2) and methoxymalonyl-ACP (by OzmC) extender units seemed to be unprecedented for this class of trans-AT type I PKSs, which might be fruitfully manipulated to create structurally diverse novel compounds.
唑烷霉素(OZMs)是一类由几种链霉菌产生的抗生素,具有多样化和重要的抗菌、抗肿瘤和抗人类免疫缺陷病毒活性。唑烷霉素 A 是一种肽-聚酮杂合化合物,含有独特的螺环连接的β-内酯/γ-内酰胺和 5 取代的唑环。唑烷霉素生物合成基因簇(ozm)从白色链霉菌 JA3453 中鉴定出来,并定位于 79.5kb 的 DNA 上,由 20 个开放阅读框组成,编码非核糖体肽合酶、聚酮合酶(PKSs)、杂合非核糖体肽合酶-PKS、转酰基转移酶(trans-ATs)、甲氧基丙二酰-酰基载体蛋白(ACP)合成酶、假定的抗性基因和假设的调控基因。与经典的 I 型聚酮或脂肪酸生物合成酶不同,基因簇中的所有 10 个 PKS 模块都缺乏同源 AT。相反,离散的 ATs OzmM(具有串联结构域 OzmM-AT1 和 OzmM-AT2)和 OzmC 被装备来执行所有丙二酰-CoA 和甲氧基丙二酰-ACP 延伸单位的加载功能。引人注目的是,只有 OzmM-AT2 对 OZM 生物合成中的 OzmM 活性是必需的,而 OzmM-AT1 似乎是一个隐匿的 AT 结构域。上述发现与以前使用同位素标记前体喂养实验的结果一起,被组装成 OZM 生物合成模型。这种 I 型 trans-AT PKS 类别的延伸单位(通过 OzmM-AT2 提供丙二酰-CoA 和通过 OzmC 提供甲氧基丙二酰-ACP)的掺入似乎是前所未有的,这可能为创造结构多样化的新型化合物提供有益的操作。