Departamento de Bioquímica y Biología Molecular, Campus de Excelencia Agroalimentario CEIA3, Universidad de Córdoba, Spain.
Environ Microbiol Rep. 2012 Apr;4(2):257-67. doi: 10.1111/j.1758-2229.2012.00329.x. Epub 2012 Feb 20.
Very low nitrogen concentration is a critical limitation in the oligotrophic oceans inhabited by the cyanobacterium Prochlorococccus, one of the main primary producers on Earth. It is well known that nitrogen starvation affects redox homeostasis in cells. We have studied the effect of nitrogen starvation on the thiol redox proteome in the Prochlorococcus sp. SS120 strain, by using shotgun proteomic techniques to map the cysteine modified in each case and to quantify the ratio of reversibly oxidized/reduced species. We identified a number of proteins showing modified cysteines only under either control or N-starvation, including isocitrate dehydrogenase and ribulose phosphate 3-epimerase. We detected other key enzymes, such as glutamine synthetase, transporters and transaminases, showing that nitrogen-related pathways were deeply affected by nitrogen starvation. Reversibly oxidized cysteines were also detected in proteins of other important metabolic pathways, such as photosynthesis, phosphorus metabolism, ATP synthesis and nucleic acids metabolism. Our results demonstrate a wide effect of nitrogen limitation on the redox status of the Prochlorococcus proteome, suggesting that besides previously reported transcriptional changes, this cyanobacterium responds with post-translational redox changes to the lack of nitrogen in its environment.
在贫营养海洋中,氮浓度非常低,这是一种关键的限制因素,而海洋中的蓝细菌聚球藻是地球上主要的初级生产者之一。众所周知,氮饥饿会影响细胞内的氧化还原稳态。我们通过使用 shotgun 蛋白质组学技术来绘制每个案例中被修饰的半胱氨酸,并定量可逆氧化/还原物种的比例,研究了氮饥饿对聚球藻 sp. SS120 菌株的硫醇氧化还原蛋白质组的影响。我们鉴定了许多仅在对照或 N 饥饿条件下出现修饰半胱氨酸的蛋白质,包括异柠檬酸脱氢酶和核酮糖 1,5-二磷酸 3-差向异构酶。我们还检测到其他关键酶,如谷氨酰胺合成酶、转运体和转氨酶,表明与氮相关的途径受到氮饥饿的深刻影响。在其他重要代谢途径的蛋白质中也检测到可还原的氧化半胱氨酸,如光合作用、磷代谢、ATP 合成和核酸代谢。我们的结果表明,氮限制对聚球藻蛋白质组的氧化还原状态有广泛的影响,这表明除了先前报道的转录变化外,这种蓝细菌还会对其环境中缺乏氮做出翻译后氧化还原变化的响应。
