Change in inorganic phosphate physical state can regulate transcription

IF 3.6 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
M. Gottesman, A. Mustaev
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引用次数: 0

Abstract

ABSTRACT Inorganic phosphate (Pi), a ubiquitous metabolite, is involved in all major biochemical pathways. We demonstrate that, in vitro, MgHPO4 (the intracellular Pi form) at physiological concentrations can exist in a metastable supersaturated dissolved state or as a precipitate. We have shown that in solution, MgHPO4 strongly stimulates exonuclease nascent transcript cleavage by RNA polymerase. We report here that MgHPO4 precipitate selectively and efficiently inhibits transcription initiation in vitro. In view of the MgHPO4 solubility and in vitro sensitivity of RNA synthesis to MgHPO4 precipitate, at physiological concentrations, MgHPO4 should cause a 50–98% inhibition of cellular RNA synthesis, thus exerting a strong regulatory action. The effects of Pi on transcription in vivo will, therefore, reflect the physical state of intracellular Pi.
无机磷酸盐物理状态的改变可以调控转录
无机磷酸盐(Pi)是一种普遍存在的代谢物,参与了所有主要的生物化学途径。我们证明,在体外,生理浓度下的MgHPO4(细胞内Pi形式)可以以亚稳态过饱和溶解状态存在或作为沉淀存在。我们已经证明,在溶液中,MgHPO4强烈刺激RNA聚合酶裂解外切酶新生转录物。我们在此报道,MgHPO4沉淀选择性和有效地抑制体外转录起始。考虑到MgHPO4的溶解度和体外RNA合成对MgHPO4沉淀物的敏感性,在生理浓度下,MgHPO4应能对细胞RNA合成产生50-98%的抑制作用,从而发挥较强的调控作用。因此,Pi对体内转录的影响将反映细胞内Pi的物理状态。
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来源期刊
Transcription-Austin
Transcription-Austin BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
6.50
自引率
5.60%
发文量
9
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