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本文引用的文献

1
A role for tetrahydrofolates in the metabolism of iron-sulfur clusters in all domains of life.四氢叶酸在所有生命领域的铁硫簇代谢中的作用。
Proc Natl Acad Sci U S A. 2010 Jun 8;107(23):10412-7. doi: 10.1073/pnas.0911586107. Epub 2010 May 20.
2
Phosphoribosylpyrophosphate synthetase (PrsA) variants alter cellular pools of ribose 5-phosphate and influence thiamine synthesis in Salmonella enterica.磷酸核糖焦磷酸合成酶(PrsA)变体改变细胞内 5-磷酸核糖的池,影响沙门氏菌属中硫胺素的合成。
Microbiology (Reading). 2010 Mar;156(Pt 3):950-959. doi: 10.1099/mic.0.033050-0. Epub 2009 Dec 3.
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Iron-sulfur (Fe/S) protein biogenesis: phylogenomic and genetic studies of A-type carriers.铁硫(Fe/S)蛋白生物合成:A型载体的系统基因组学和遗传学研究
PLoS Genet. 2009 May;5(5):e1000497. doi: 10.1371/journal.pgen.1000497. Epub 2009 May 29.
4
Bacterial frataxin CyaY is the gatekeeper of iron-sulfur cluster formation catalyzed by IscS.细菌型铁硫蛋白CyaY是由IscS催化的铁硫簇形成的守门蛋白。
Nat Struct Mol Biol. 2009 Apr;16(4):390-6. doi: 10.1038/nsmb.1579. Epub 2009 Mar 22.
5
Regulation of expression of the tricarballylate utilization operon (tcuABC) of Salmonella enterica.肠炎沙门氏菌三羧酸利用操纵子(tcuABC)表达的调控
Res Microbiol. 2009 Apr;160(3):179-86. doi: 10.1016/j.resmic.2009.01.001. Epub 2009 Jan 21.
6
Involvement of the Cra global regulatory protein in the expression of the iscRSUA operon, revealed during studies of tricarballylate catabolism in Salmonella enterica.在对肠炎沙门氏菌中三羧基丙酸分解代谢的研究过程中,揭示了Cra全局调控蛋白参与iscRSUA操纵子的表达。
J Bacteriol. 2009 Apr;191(7):2069-76. doi: 10.1128/JB.01577-08. Epub 2009 Jan 9.
7
Archaeal ApbC/Nbp35 homologs function as iron-sulfur cluster carrier proteins.古菌的ApbC/Nbp35同源物作为铁硫簇载体蛋白发挥作用。
J Bacteriol. 2009 Mar;191(5):1490-7. doi: 10.1128/JB.01469-08. Epub 2008 Dec 29.
8
Bacterial ApbC protein has two biochemical activities that are required for in vivo function.细菌ApbC蛋白具有体内功能所需的两种生化活性。
J Biol Chem. 2009 Jan 2;284(1):110-118. doi: 10.1074/jbc.M807003200. Epub 2008 Nov 10.
9
Biogenesis of iron-sulfur clusters in photosystem I: holo-NfuA from the cyanobacterium Synechococcus sp. PCC 7002 rapidly and efficiently transfers [4Fe-4S] clusters to apo-PsaC in vitro.光系统I中铁硫簇的生物合成:来自集胞藻属聚球藻PCC 7002的全酶NfuA在体外能快速且高效地将[4Fe-4S]簇转移至脱辅基PsaC。
J Biol Chem. 2008 Oct 17;283(42):28426-35. doi: 10.1074/jbc.M803395200. Epub 2008 Aug 11.
10
Bacterial ApbC can bind and effectively transfer iron-sulfur clusters.细菌ApbC能够结合并有效转移铁硫簇。
Biochemistry. 2008 Aug 5;47(31):8195-202. doi: 10.1021/bi800551y. Epub 2008 Jul 11.

三羟丁酸盐降低运输恢复鼠伤寒沙门氏菌 apbC 突变体的生长。

Decreased transport restores growth of a Salmonella enterica apbC mutant on tricarballylate.

机构信息

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

出版信息

J Bacteriol. 2012 Feb;194(3):576-83. doi: 10.1128/JB.05988-11. Epub 2011 Nov 18.

DOI:10.1128/JB.05988-11
PMID:22101844
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3264071/
Abstract

Mutants of Salmonella enterica lacking apbC have nutritional and biochemical properties indicative of defects in iron-sulfur ([Fe-S]) cluster metabolism. An apbC mutant is unable to grow on tricarballylate as a carbon source. Based on the ability of ApbC to transfer an [Fe-S] cluster to an apoprotein, this defect was attributed to poor loading of the [Fe-S] cluster-containing TcuB enzyme. Consistent with these observations, a previous study showed that overexpression of iscU, which encodes an [Fe-S] cluster molecular scaffold, suppressed the tricarballylate growth defect of an apbC mutant (J. M. Boyd, J. A. Lewis, J. C. Escalante-Semerena, and D. M. Downs, J. Bacteriol. 190:4596-4602, 2008). In this study, tcuC mutations that suppress the growth defect of an apbC mutant by decreasing the intracellular concentration of tricarballylate are described. Collectively, the suppressor analyses support a model in which reduced TcuB activity prevents growth on tricarballylate by (i) decreasing catabolism and (ii) allowing levels of tricarballylate that are toxic to the cell to accumulate. The apbC tcuC mutant strains described here reveal that the balance of the metabolic network can be altered by the accumulation of deleterious metabolites.

摘要

沙门氏菌 apbC 缺失突变体能表明其在铁硫簇([Fe-S] 簇)代谢方面存在缺陷,其营养和生化特性发生了变化。apbC 突变体不能以三羟丁酸盐作为碳源生长。基于 ApbC 将 [Fe-S] 簇转移到脱辅基蛋白的能力,这种缺陷归因于 [Fe-S] 簇结合的 TcuB 酶的装载不良。这些观察结果与先前的一项研究一致,该研究表明,过表达编码 [Fe-S] 簇分子支架的 iscU 可抑制 apbC 突变体的三羟丁酸盐生长缺陷(J. M. Boyd、J. A. Lewis、J. C. Escalante-Semerena 和 D. M. Downs,J. Bacteriol. 190:4596-4602, 2008)。在这项研究中,描述了 tcuC 突变体可通过降低细胞内三羟丁酸盐浓度来抑制 apbC 突变体的生长缺陷。总的来说,抑制分析支持这样一种模型,即降低 TcuB 活性通过(i)降低分解代谢和(ii)允许对细胞有毒的三羟丁酸盐水平积累,从而阻止在三羟丁酸盐上生长。这里描述的 apbC tcuC 突变株表明,有害代谢物的积累可以改变代谢网络的平衡。