苜蓿根瘤菌的结瘤蛋白NodH的体外磺基转移酶活性,该蛋白是宿主特异性结瘤所必需的。
In vitro sulfotransferase activity of NodH, a nodulation protein of Rhizobium meliloti required for host-specific nodulation.
作者信息
Ehrhardt D W, Atkinson E M, Faull K F, Freedberg D I, Sutherlin D P, Armstrong R, Long S R
机构信息
Gilbert Laboratory, Howard Hughes Medical Institute, Stanford University, California 94305-5020, USA.
出版信息
J Bacteriol. 1995 Nov;177(21):6237-45. doi: 10.1128/jb.177.21.6237-6245.1995.
Abstract
Early stages of nodulation involve the exchange of signals between the bacterium and the host plant. Bacterial nodulation (nod) genes are required for Rhizobium spp. to synthesize lipooligosaccharide morphogens, termed Nod factors. The common nod genes encode enzymes that synthesize the factor core structure, which is modified by host-specific gene products. Here we show direct in vitro evidence that Rhizobium meliloti NodH, a host-specific nodulation gene, catalyzes the transfer of sulfate from 3'-phosphoadenosine 5'-phosphosulfate to the terminal 6-O position of Nod factors, and we show substrate requirements for the reaction. Our results indicate that polymerization of the chitooligosaccharide backbone likely precedes sulfation and that sulfation is not absolutely dependent on the presence or the particular structure of the N-acyl modification. NodH sulfation provides a tool for the enzymatic in vitro synthesis of novel Nod factors, or putative Nod factors intermediates, with high specific activity.
摘要
结瘤的早期阶段涉及细菌与宿主植物之间的信号交换。根瘤菌属合成脂寡糖形态发生素(称为结瘤因子)需要细菌结瘤(nod)基因。常见的nod基因编码合成因子核心结构的酶,该核心结构由宿主特异性基因产物修饰。在此,我们展示了直接的体外证据,即苜蓿根瘤菌的宿主特异性结瘤基因NodH催化硫酸根从3'-磷酸腺苷5'-磷酸硫酸转移至结瘤因子的末端6-O位置,并且我们展示了该反应的底物要求。我们的结果表明,壳寡糖主链的聚合可能先于硫酸化,并且硫酸化并不绝对依赖于N-酰基修饰的存在或特定结构。NodH硫酸化为体外酶促合成具有高比活性的新型结瘤因子或假定的结瘤因子中间体提供了一种工具。
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