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本文引用的文献

1
Yeast two-hybrid studies on interaction of proteins involved in regulation of nitrogen fixation in the phototrophic bacterium Rhodobacter capsulatus.关于光合细菌荚膜红假单胞菌中参与固氮调节的蛋白质相互作用的酵母双杂交研究。
J Bacteriol. 2003 Sep;185(17):5240-7. doi: 10.1128/JB.185.17.5240-5247.2003.
2
Role of GlnB and GlnK in ammonium control of both nitrogenase systems in the phototrophic bacterium Rhodobacter capsulatus.谷氨酰胺结合蛋白B(GlnB)和谷氨酰胺结合蛋白K(GlnK)在光合细菌荚膜红假单胞菌两种固氮酶系统的铵控制中的作用。
Microbiology (Reading). 2003 Aug;149(Pt 8):2203-2212. doi: 10.1099/mic.0.26235-0.
3
Antagonism of PII signalling by the AmtB protein of Escherichia coli.大肠杆菌AmtB蛋白对PII信号的拮抗作用。
Mol Microbiol. 2003 May;48(4):1017-28. doi: 10.1046/j.1365-2958.2003.03479.x.
4
Context-dependent functions of the PII and GlnK signal transduction proteins in Escherichia coli.大肠杆菌中PII和GlnK信号转导蛋白的上下文依赖性功能。
J Bacteriol. 2002 Oct;184(19):5364-75. doi: 10.1128/JB.184.19.5364-5375.2002.
5
AmtB is necessary for NH(4)(+)-induced nitrogenase switch-off and ADP-ribosylation in Rhodobacter capsulatus.在荚膜红细菌中,AmtB对于铵离子(NH₄⁺)诱导的固氮酶关闭和ADP核糖基化是必需的。
J Bacteriol. 2002 Aug;184(15):4081-8. doi: 10.1128/JB.184.15.4081-4088.2002.
6
PII T-loop mutations affecting signal transduction to NtrB also abolish yeast two-hybrid interactions.影响向NtrB信号转导的PII T环突变也会消除酵母双杂交相互作用。
J Bacteriol. 2002 Jul;184(13):3746-8. doi: 10.1128/JB.184.13.3746-3748.2002.
7
Ammonium/methylammonium transport (Amt) proteins facilitate diffusion of NH3 bidirectionally.铵/甲铵转运蛋白(Amt)可双向促进氨(NH3)的扩散。
Proc Natl Acad Sci U S A. 2002 Mar 19;99(6):3926-31. doi: 10.1073/pnas.062043799. Epub 2002 Mar 12.
8
Membrane sequestration of the signal transduction protein GlnK by the ammonium transporter AmtB.铵转运蛋白AmtB对信号转导蛋白GlnK的膜隔离作用
EMBO J. 2002 Feb 15;21(4):536-45. doi: 10.1093/emboj/21.4.536.
9
Inter-domain cross-talk controls the NifA protein activity of Herbaspirillum seropedicae.结构域间的相互作用调控了巴西固氮螺菌NifA蛋白的活性。
FEBS Lett. 2001 Nov 9;508(1):1-4. doi: 10.1016/s0014-5793(01)03017-4.
10
Functional characterization of three GlnB homologs in the photosynthetic bacterium Rhodospirillum rubrum: roles in sensing ammonium and energy status.光合细菌红螺菌中三个谷氨酰胺结合蛋白(GlnB)同源物的功能表征:在感知铵和能量状态中的作用
J Bacteriol. 2001 Nov;183(21):6159-68. doi: 10.1128/JB.183.21.6159-6168.2001.

光合细菌红螺菌中谷氨酰胺结合蛋白(GlnB)激活NifA活性关键残基的鉴定。

Identification of critical residues in GlnB for its activation of NifA activity in the photosynthetic bacterium Rhodospirillum rubrum.

作者信息

Zhang Yaoping, Pohlmann Edward L, Roberts Gary P

机构信息

Department of Bacteriology, University of Wisconsin, Madison, WI 53706, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Mar 2;101(9):2782-7. doi: 10.1073/pnas.0306763101. Epub 2004 Feb 17.

DOI:10.1073/pnas.0306763101
PMID:14970346
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC365697/
Abstract

The P(II) regulatory protein family is unusually widely distributed, being found in all three domains of life. Three P(II) homologs called GlnB, GlnK, and GlnJ have been identified in the photosynthetic bacterium Rhodospirillum rubrum. These have roles in at least four distinct functions, one of which is activation of the nitrogen fixation-specific regulatory protein NifA. The activation of NifA requires only the covalently modified (uridylylated) form of GlnB. GlnK and GlnJ are not involved. However, the basis of specificity for different P(II) homologs in different processes is poorly understood. We examined this specificity by altering GlnJ to support NifA activation. A small number of amino acid substitutions in GlnJ were important for this ability. Two (affecting residues 45 and 54) are in a loop called the T-loop, which contains the site of uridylylation and is believed to be very important for contacts with other proteins, but other critical residues lie in the C terminus (residues 95-97 and 109-112) and near the N terminus (residues 3-5 and 17). Because many of the residues important for P(II)-NifA interaction lie far from the T-loop in the known x-ray crystal structures of P(II) proteins, our results lead to the hypothesis that the T-loop of GlnB is flexible enough to come into proximity with both the C- and N-terminal regions of the protein to bind NifA. Finally, the results show that the level of P(II) accumulation is also an important factor for NifA activation.

摘要

P(II)调节蛋白家族分布异常广泛,在生命的所有三个域中均有发现。在光合细菌红螺菌中已鉴定出三种P(II)同源物,分别称为GlnB、GlnK和GlnJ。它们至少具有四种不同的功能,其中之一是激活固氮特异性调节蛋白NifA。NifA的激活仅需要共价修饰(尿苷酰化)形式的GlnB。GlnK和GlnJ不参与其中。然而,对于不同过程中不同P(II)同源物的特异性基础了解甚少。我们通过改变GlnJ以支持NifA激活来研究这种特异性。GlnJ中的少数氨基酸取代对这种能力很重要。其中两个(影响第45和54位残基)位于一个称为T环的环中,该环包含尿苷酰化位点,并且被认为对于与其他蛋白质的接触非常重要,但其他关键残基位于C末端(第95 - 97位和109 - 112位残基)和靠近N末端(第3 - 5位和17位残基)。由于在已知的P(II)蛋白X射线晶体结构中,许多对P(II)-NifA相互作用重要的残基远离T环,我们的结果提出了一个假设,即GlnB的T环足够灵活,能够与蛋白质的C末端和N末端区域接近以结合NifA。最后,结果表明P(II)积累水平也是NifA激活的一个重要因素。