In recent years, the application of proteomic approaches as a tool for global expression analysis and protein identification has been highly efficient in the field of plant research. A solution culture experiment involving two nitrogen treatments, 0.14 mM NH4NO3 (low nitrogen (N)) and 1.07 mM NH4NO3 (control), was conducted to investigate the response of rice root to low N stress. Root system architecture changed markedly under low N stress, with more lateral roots occurring on the lower part of adventitious roots and longer lateral roots on the upper part, compared to the control. A proteomic approach was employed to further study the rice responses to low N stress. Proteins extracted from roots were profiled by two-dimensional gel electrophoresis, and differentially expressed proteins were analyzed by mass spectrometry. Twelve protein spots were successfully identified by mass spectrometry, 11 of which had known functions. Of these, four were involved with the tricarboxylic acid cycle, two with adenylate metabolism, two with phenylpropanoid metabolism, and two with protein degradation. These differentially expressed proteins play an important role in the responsive mechanisms of rice root to low N stress, and uncovering how the rice proteins respond to low N stress could contribute to improving the nitrogen use efficiency.
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机译:近年来,蛋白质组学方法作为一种用于全球表达分析和蛋白质鉴定的工具的应用在植物研究领域非常高效。涉及两种氮处理的溶液培养实验,分别为0.14 mM NH 4 NO 3 (低氮(N))和1.07 mM NH 4 NO <进行了sub> 3 (对照)研究稻根对低氮胁迫的响应。与对照相比,低氮胁迫下根系结构发生了显着变化,不定根下部出现更多侧生根,上部出现较长侧生根。蛋白质组学方法被用于进一步研究水稻对低氮胁迫的反应。从根提取的蛋白质通过二维凝胶电泳进行分析,并通过质谱分析差异表达的蛋白质。通过质谱法成功鉴定出12个蛋白质斑点,其中11个具有已知功能。其中,四个与三羧酸循环有关,两个与腺苷酸代谢有关,两个与苯丙烷代谢有关,两个与蛋白质降解有关。这些差异表达的蛋白质在水稻根系对低氮胁迫的响应机制中起着重要作用,并且揭示了水稻蛋白质如何响应低氮胁迫可以有助于提高氮的利用效率。
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