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玉米(Zea mays)叶片ADP:蛋白质磷酸转移酶的底物特异性及其对丙酮酸、正磷酸二激酶磷酸化/失活的调控

Substrate specificity and regulation of the maize (Zea mays) leaf ADP: protein phosphotransferase catalysing phosphorylation/inactivation of pyruvate, orthophosphate dikinase.

作者信息

Budde R J, Ernst S M, Chollet R

出版信息

Biochem J. 1986 Jun 1;236(2):579-84. doi: 10.1042/bj2360579.

DOI:10.1042/bj2360579
PMID:3019319
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1146878/
Abstract

The protein substrate specificity of the maize (Zea mays) leaf ADP: protein phosphotransferase (regulatory protein, RP) was studied in terms of its relative ability to inactivate/phosphorylate pyruvate, orthophosphate dikinase from Zea mays and the non-sulphur purple photosynthetic bacterium Rhodospirillum rubrum. The dimeric bacterial dikinase was inactivated by the maize leaf RP via phosphorylation, with a stoichiometry of approximately 1 mol of phosphate incorporated/mol of 92.7-kDa protomer. Inactivation required both ADP and ATP, with ADP being the specific donor for regulatory phosphorylation. The requirements for inactivation/phosphorylation in this heterologous system were identical with those previously established for the tetrameric maize leaf dikinase. The ADP-dependent maize leaf RP did not phosphorylate alternative protein substrates such as casein or phosvitin, and its activity was not affected by cyclic nucleotides, Ca2+ or calmodulin. The regulation of the maize leaf ADP: protein phosphotransferase was studied in terms of changes in adenylate energy charge and pyruvate concentration. The change in adenylate energy charge necessary to substantially inhibit phosphorylation of maize leaf dikinase was not suggestive of it being a physiological modulator of phosphotransferase activity. Pyruvate was a potent competitive inhibitor of regulatory phosphorylation (Ki = 80 microM), consistent with its interaction with the catalytic phosphorylated intermediate of dikinase, the true protein substrate for ADP-dependent phosphorylation/inactivation.

摘要

从玉米(Zea mays)叶片ADP:蛋白磷酸转移酶(调节蛋白,RP)使玉米丙酮酸正磷酸二激酶和非硫紫色光合细菌红螺菌(Rhodospirillum rubrum)的丙酮酸正磷酸二激酶失活/磷酸化的相对能力方面,研究了其蛋白质底物特异性。玉米叶片RP通过磷酸化使二聚体细菌二激酶失活,化学计量比约为每摩尔92.7 kDa原体掺入1摩尔磷酸盐。失活需要ADP和ATP,其中ADP是调节磷酸化的特异性供体。在这个异源系统中,失活/磷酸化的要求与先前确定的四聚体玉米叶片二激酶的要求相同。依赖ADP的玉米叶片RP不会使酪蛋白或卵黄高磷蛋白等替代蛋白质底物磷酸化,其活性不受环核苷酸、Ca2+或钙调蛋白的影响。从腺苷酸能荷和丙酮酸浓度的变化方面研究了玉米叶片ADP:蛋白磷酸转移酶的调节。大幅抑制玉米叶片二激酶磷酸化所需的腺苷酸能荷变化并不表明它是磷酸转移酶活性的生理调节剂。丙酮酸是调节磷酸化的有效竞争性抑制剂(Ki = 80 microM),这与其与二激酶的催化磷酸化中间体(ADP依赖性磷酸化/失活的真正蛋白质底物)的相互作用一致。

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本文引用的文献

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