大肠杆菌中丙氨酸合成的主要酶的遗传和调控。
Genetics and regulation of the major enzymes of alanine synthesis in Escherichia coli.
机构信息
Department of Molecular and Cell Biology, The University of Texas at Dallas, Richardson, Texas 75080, USA.
出版信息
J Bacteriol. 2010 Oct;192(20):5304-11. doi: 10.1128/JB.00738-10. Epub 2010 Aug 20.
Abstract
Genetic analysis of alanine synthesis in the model genetic organism Escherichia coli has implicated avtA, the still uncharacterized alaA and alaB genes, and probably other genes. We identified alaA as yfbQ. We then transferred mutations in several transaminase genes into a yfbQ mutant and isolated a mutant that required alanine for optimal growth. For cells grown with carbon sources other than pyruvate, the major alanine-synthesizing transaminases are AvtA, YfbQ (AlaA), and YfdZ (which we designate AlaC). Growth with pyruvate as the carbon source and multicopy suppression suggest that several other transaminases can contribute to alanine synthesis. Expression studies showed that alanine modestly repressed avtA and yfbQ but had no effect on yfdZ. The leucine-responsive regulatory protein (Lrp) mediated control by alanine. We purified YfbQ and YfdZ and showed that both are dimers with K(m)s for pyruvate within the intracellular range of pyruvate concentration.
摘要
在模式生物大肠杆菌中,对丙氨酸合成的遗传分析表明,avtA、尚未被表征的 alaA 和 alaB 基因,以及可能的其他基因都参与其中。我们发现 alaA 是 yfbQ。然后,我们将几种转氨酶基因的突变转移到 yfbQ 突变体中,并分离出一种需要丙氨酸才能最佳生长的突变体。对于以丙酮酸以外的碳源生长的细胞,主要的丙氨酸合成转氨酶是 AvtA、YfbQ(AlaA)和 YfdZ(我们指定为 AlaC)。以丙酮酸作为碳源的生长和多拷贝抑制表明,其他几种转氨酶也可以参与丙氨酸的合成。表达研究表明,丙氨酸适度抑制 avtA 和 yfbQ,但对 yfdZ 没有影响。亮氨酸反应调节蛋白(Lrp)介导的由丙氨酸控制。我们纯化了 YfbQ 和 YfdZ,并表明两者都是二聚体,其对丙酮酸的 K(m) 值在细胞内丙酮酸浓度范围内。
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