首页> 美国卫生研究院文献>Transcription >Change in inorganic phosphate physical state can regulate transcription

【2h】

Change in inorganic phosphate physical state can regulate transcription

机译：无机磷酸盐物理状态的变化可以调节转录

代理获取

本网站仅为用户提供外文OA文献查询和代理获取服务，本网站没有原文。下单后我们将采用程序或人工为您竭诚获取高质量的原文，但由于OA文献来源多样且变更频繁，仍可能出现获取不到、文献不完整或与标题不符等情况，如果获取不到我们将提供退款服务。请知悉。

页面导航

摘要
著录项
相似文献
相关主题

摘要

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.

机译：无机磷酸盐（PI），一种普遍的代谢物，参与了所有主要的生化途径。我们证明，体外，在生理浓度下的MGHPO4（细胞内PI形式）可以以亚稳定的超饱和溶解状态存在或作为沉淀物存在。我们已经表明，在解决方案中，MGHPO4强烈刺激RNA聚合酶的外切核酸酶发酵转录物切割。我们在此报告MGHPO4沉淀选择性，有效地抑制体外转录起始。鉴于MGHPO4溶解度和RNA合成对MGHPO4沉淀物的体外敏感性，在生理浓度下，MGHPO4应引起50-98％的细胞RNA合成抑制，从而施加强烈的调节作用。因此，PI对体内转录的影响将反映细胞内PI的物理状态。

著录项

期刊名称 Transcription
作者
Max E. Gottesman; Arkady Mustaev;
展开▼
作者单位

展开▼
年(卷),期 2019(10),4-5
年度 2019
页码 187–194
总页数 8
原文格式 PDF
正文语种
中图分类
关键词

机译：沉淀磷酸镁;RNA聚合酶;启动;抑制;

相似文献

外文文献
中文文献
专利

1. Change in inorganic phosphate physical state can regulate transcription [J] . Max E. Gottesman, Arkady Mustaev Transcription . 2019,第1a5期

机译：无机磷酸盐物理状态的变化可以调节转录
2. OsPHF1 regulates the plasma membrane localization of low- and high-affinity inorganic phosphate transporters and determines inorganic phosphate uptake and translocation in rice [J] . Chen J., Liu Y., Ni J., Plant physiology . 2011,第1期

机译：OsPHF1调节低亲和力和高亲和力无机磷酸盐转运蛋白的质膜定位，并确定水稻中无机磷酸盐的吸收和转运
3. Overexpression of a Maize Transcription Factor ZmPHR1 Improves Shoot Inorganic Phosphate Content and Growth of Arabidopsis under Low-Phosphate Conditions [J] . Wang Xiuhong, Bai Jianrong, Liu Huiming, Plant molecular biology reporter . 2013,第3期

机译：玉米转录因子ZmPHR1的过表达改善了低磷酸盐条件下芽无机磷酸盐含量和拟南芥的生长
4. "Promoter Array" Studies Identify Cohorts of Genes Directly Regulated by Methylation, Copy Number Change, or Transcription Factor Binding in Human Cancer Cells [C] . YIPENG WANG, JUN HAYAKAWA, FRED LONG, NIH Symposium on Therapeutic Oligonucleotides . 2005

机译：“启动子阵列”研究鉴定了通过甲基化，拷贝数变化或人癌细胞中的转录因子结合直接调节的基因的群组
5. Development of pillared M(IV) phosphate phosphonate inorganic organic hybrid ion exchange materials for applications in separations found in the nuclear fuel cycle. [D] . Burns, Jonathan David. 2012

机译：开发用于核燃料循环中分离的柱状磷酸M（IV）膦酸酯无机有机杂化离子交换材料。
6. OsPHF1 Regulates the Plasma Membrane Localization of Low- and High-Affinity Inorganic Phosphate Transporters and Determines Inorganic Phosphate Uptake and Translocation in Rice [O] . Jieyu Chen, Yu Liu, Jun Ni, 2011

机译：OsPHF1调节低和高亲和力无机磷酸盐转运蛋白的质膜定位并确定水稻中无机磷酸盐的吸收和转运
7. OsPHF1 Regulates the Plasma Membrane Localization of Low- and High-Affinity Inorganic Phosphate Transporters and Determines Inorganic Phosphate Uptake and Translocation in Rice1[W][OA] [O] . Chen, Jieyu, Liu, Yu, Ni, Jun, 2011

机译：OsPHF1调节低亲和力和高亲和力无机磷酸盐转运蛋白的质膜定位，并确定Rice1中无机磷酸盐的吸收和转运[W] [OA]
8. Exchangeable Inorganic Phosphate in Lake Sediments. [R] . chi li, wan 1975

机译：湖泊沉积物中可交换的无机磷酸盐。

Change in inorganic phosphate physical state can regulate transcription

摘要

著录项

相似文献

相关主题

期刊订阅