固氮丝状非异形胞蓝细菌束毛藻Trichodesmium sp.菌株IMS 101中固氮酶基因表达的昼夜节律。
Circadian rhythm of nitrogenase gene expression in the diazotrophic filamentous nonheterocystous cyanobacterium Trichodesmium sp. strain IMS 101.
作者信息
Chen Y B, Dominic B, Mellon M T, Zehr J P
机构信息
Biology Department, Rensselaer Polytechnic Institute, Troy, New York 12180-3590, USA.
出版信息
J Bacteriol. 1998 Jul;180(14):3598-605. doi: 10.1128/JB.180.14.3598-3605.1998.
Abstract
Recent studies suggested that the daily cycle of nitrogen fixation activity in the marine filamentous nonheterocystous cyanobacterium Trichodesmium sp. is controlled by a circadian rhythm. In this study, we evaluated the rhythm of nitrogen fixation in Trichodesmium sp. strain IMS 101 by using the three criteria for an endogenous rhythm. Nitrogenase transcript abundance oscillated with a period of approximately 24 h, and the cycle was maintained even under constant light conditions. The cyclic pattern of transcript abundance was maintained when the culture was grown at 24 and 28.5 degrees C, although the period was slightly longer (26 h) at the higher temperature. The cycle of gene expression could be entrained with light-dark cues. Results of inhibitor experiments indicated that transcript abundance was regulated primarily by transcription initiation, rather than by degradation. The circadian rhythm, the first conclusively demonstrated endogenous rhythm in a filamentous cyanobacterium, was also reflected in nitrogenase MoFe protein abundance and patterns of Fe protein posttranslational modification-demodification.
摘要
最近的研究表明,海洋丝状非异形蓝藻束毛藻属中固氮活性的每日循环受昼夜节律控制。在本研究中,我们通过使用内源性节律的三个标准,评估了束毛藻属菌株IMS 101中的固氮节律。固氮酶转录本丰度以约24小时的周期振荡,即使在持续光照条件下该循环仍得以维持。当培养物在24和28.5摄氏度下生长时,转录本丰度的循环模式得以维持,尽管在较高温度下周期略长(26小时)。基因表达的循环可以被明暗线索所诱导。抑制剂实验结果表明,转录本丰度主要受转录起始调控,而非降解调控。昼夜节律是丝状蓝藻中首个确凿证明的内源性节律,它也反映在固氮酶钼铁蛋白丰度以及铁蛋白翻译后修饰-去修饰模式中。
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