Institute of Biomolecule Reconstruction, Sun Moon University, 100 Kalsan-ri, Tangjeonmyun, Asansi, Chungnam, 336-708, South Korea.
Appl Microbiol Biotechnol. 2012 Jan;93(2):687-96. doi: 10.1007/s00253-011-3567-x. Epub 2011 Sep 18.
A number of structurally diverse natural products harboring pyrrole moieties possess a wide range of biological activities. Studies on biosynthesis of pyrrole ring have shown that pyrrole moieties are derived from L-proline. Nargenicin A(1), a saturated alicyclic polyketide from Nocardia sp. CS682, is a pyrrole-2-carboxylate ester of nodusmicin. We cloned and identified a set of four genes from Nocardia sp. CS682 that show sequence similarity to the respective genes involved in the biosynthesis of the pyrrole moieties of pyoluteorin in Pseudomonas fluorescens, clorobiocin in Streptomyces roseochromogenes subsp. Oscitans, coumermycin A(1) in Streptomyces rishiriensis, one of the pyrrole rings of undecylprodigiosin in Streptomyces coelicolor, and leupyrrins in Sorangium cellulosum. These genes were designated as ngnN4, ngnN5, ngnN3, and ngnN2. In this study, we presented the evidences that the pyrrole moiety of nargenicin A(1) was also derived from L-proline by the coordinated action of three proteins, NgnN4 (proline adenyltransferase), NgnN5 (proline carrier protein), and NgnN3 (flavine-dependent acyl-coenzyme A dehydrogenases). Biosynthesis of pyrrole moiety in nargenicin A(1) is initiated by NgnN4 that catalyzes ATP-dependent activation of L-proline into L-prolyl-AMP, and the latter is transferred to NgnN5 to create prolyl-S-peptidyl carrier protein (PCP). Later, NgnN3 catalyzes the two-step oxidation of prolyl-S-PCP into pyrrole-2-carboxylate. Thus, this study presents another example of a pyrrole moiety biosynthetic pathway that uses a set of three genes to convert L-proline into pyrrole-2-carboxylic acid moiety.
许多具有吡咯部分的结构多样的天然产物具有广泛的生物活性。吡咯环生物合成的研究表明,吡咯部分来源于 L-脯氨酸。Nargenicin A(1)是来自诺卡氏菌 CS682 的饱和脂环族聚酮化合物,是 nodusmicin 的吡咯-2-羧酸酯。我们从诺卡氏菌 CS682 中克隆并鉴定了一组与荧光假单胞菌中吡咯他霉素、玫瑰色红球菌亚种 Oscitans 中的氯罗比菌素、里氏木霉中的 coumermycin A(1)、链霉菌中的十一烷丙基普罗霉素和纤维堆囊菌中的 leupyrrins 的吡咯部分生物合成相关的基因。这些基因被命名为 ngnN4、ngnN5、ngnN3 和 ngnN2。在这项研究中,我们提供了证据表明,Nargenicin A(1)的吡咯部分也是通过三种蛋白质的协同作用,即 NgnN4(脯氨酸腺嘌呤转移酶)、NgnN5(脯氨酸载体蛋白)和 NgnN3(黄素依赖性酰基辅酶 A 脱氢酶),来源于 L-脯氨酸。Nargenicin A(1)中吡咯部分的生物合成由 NgnN4 启动,该酶催化 L-脯氨酸与 ATP 依赖性激活,形成 L-脯氨酰-AMP,后者转移到 NgnN5 上,形成脯酰-S-肽酰载体蛋白(PCP)。随后,NgnN3 催化脯酰-S-PCP 的两步氧化生成吡咯-2-羧酸。因此,这项研究提供了另一个使用一组三个基因将 L-脯氨酸转化为吡咯-2-羧酸部分的吡咯部分生物合成途径的例子。
