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酵母AMP途径基因通过对一种代谢中间体的合成调控来响应腺嘌呤。

Yeast AMP pathway genes respond to adenine through regulated synthesis of a metabolic intermediate.

作者信息

Rébora K, Desmoucelles C, Borne F, Pinson B, Daignan-Fornier B

机构信息

Institut de Biochimie et Génétique Cellulaires, CNRS UMR 5095, 33077 Bordeaux Cedex, France.

出版信息

Mol Cell Biol. 2001 Dec;21(23):7901-12. doi: 10.1128/MCB.21.23.7901-7912.2001.

DOI:10.1128/MCB.21.23.7901-7912.2001

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC99957/

Abstract

In Saccharomyces cerevisiae, AMP biosynthesis genes (ADE genes) are transcriptionally activated in the absence of extracellular purines by the Bas1p and Bas2p (Pho2p) transcription factors. We now show that expression of the ADE genes is low in mutant strains affected in the first seven steps of the pathway, while it is constitutively derepressed in mutant strains affected in later steps. Combined with epistasy studies, these results show that 5'-phosphoribosyl-4-succinocarboxamide-5-aminoimidazole (SAICAR), an intermediate metabolite of the pathway, is needed for optimal activation of the ADE genes. Two-hybrid studies establish that SAICAR is required to promote interaction between Bas1p and Bas2p in vivo, while in vitro experiments suggest that the effect of SAICAR on Bas1p-Bas2p interaction could be indirect. Importantly, feedback inhibition by ATP of Ade4p, catalyzing the first step of the pathway, appears to regulate SAICAR synthesis in response to adenine availability. Consistently, both ADE4 dominant mutations and overexpression of wild-type ADE4 lead to deregulation of ADE gene expression. We conclude that efficient transcription of yeast AMP biosynthesis genes requires interaction between Bas1p and Bas2p which is promoted in the presence of a metabolic intermediate whose synthesis is controlled by feedback inhibition of Ade4p acting as the purine nucleotide sensor within the cell.

摘要

在酿酒酵母中，胞外嘌呤缺乏时，AMP生物合成基因（ADE基因）会被转录因子Bas1p和Bas2p（Pho2p）转录激活。我们现在发现，在该途径前七个步骤受影响的突变菌株中，ADE基因的表达水平较低，而在后续步骤受影响的突变菌株中，ADE基因的表达则组成型去抑制。结合上位性研究，这些结果表明，该途径的中间代谢产物5'-磷酸核糖基-4-琥珀酰胺羧酰胺-5-氨基咪唑（SAICAR）是ADE基因最佳激活所必需的。双杂交研究表明，SAICAR在体内促进Bas1p和Bas2p之间的相互作用是必需的，而体外实验表明，SAICAR对Bas1p - Bas2p相互作用的影响可能是间接的。重要的是，催化该途径第一步的Ade4p受ATP的反馈抑制，似乎根据腺嘌呤的可用性调节SAICAR的合成。一致地，ADE4显性突变和野生型ADE4的过表达均导致ADE基因表达失调。我们得出结论，酵母AMP生物合成基因的有效转录需要Bas1p和Bas2p之间的相互作用，这种相互作用在一种代谢中间产物存在时被促进，该中间产物的合成由作为细胞内嘌呤核苷酸传感器的Ade4p的反馈抑制所控制。