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The mitochondrion of is required for cellular acetyl-CoA metabolism and protein acetylation.是细胞乙酰辅酶 A 代谢和蛋白质乙酰化所必需的。
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本文引用的文献

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Determination of glutathione redox potential and pH value in subcellular compartments of malaria parasites.疟原虫亚细胞区室中谷胱甘肽氧化还原电位和pH值的测定。
Free Radic Biol Med. 2017 Mar;104:104-117. doi: 10.1016/j.freeradbiomed.2017.01.001. Epub 2017 Jan 4.
2
Stage-Specific Changes in Plasmodium Metabolism Required for Differentiation and Adaptation to Different Host and Vector Environments.疟原虫分化以及适应不同宿主和媒介环境所需的阶段特异性代谢变化。
PLoS Pathog. 2016 Dec 27;12(12):e1006094. doi: 10.1371/journal.ppat.1006094. eCollection 2016 Dec.
3
OsmC and incomplete glycine decarboxylase complex mediate reductive detoxification of peroxides in hydrogenosomes of Trichomonas vaginalis.OsmC和不完全甘氨酸脱羧酶复合物介导阴道毛滴虫氢化酶体中过氧化物的还原解毒。
Mol Biochem Parasitol. 2016 Mar-Apr;206(1-2):29-38. doi: 10.1016/j.molbiopara.2016.01.006. Epub 2016 Jan 18.
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Genetic investigation of tricarboxylic acid metabolism during the Plasmodium falciparum life cycle.恶性疟原虫生命周期中三羧酸代谢的遗传学研究。
Cell Rep. 2015 Apr 7;11(1):164-74. doi: 10.1016/j.celrep.2015.03.011. Epub 2015 Apr 2.
5
Redox-dependent lipoylation of mitochondrial proteins in Plasmodium falciparum.恶性疟原虫中线粒体蛋白的氧化还原依赖性硫辛酰化作用
Mol Microbiol. 2014 Oct;94(1):156-71. doi: 10.1111/mmi.12753. Epub 2014 Sep 1.
6
BCKDH: the missing link in apicomplexan mitochondrial metabolism is required for full virulence of Toxoplasma gondii and Plasmodium berghei.支链α-酮酸脱氢酶:顶复门原虫线粒体代谢中缺失的环节是刚地弓形虫和伯氏疟原虫完全毒力所必需的。
PLoS Pathog. 2014 Jul 17;10(7):e1004263. doi: 10.1371/journal.ppat.1004263. eCollection 2014 Jul.
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Discrimination of potent inhibitors of Toxoplasma gondii enoyl-acyl carrier protein reductase by a thermal shift assay.热迁移分析鉴定刚地弓形虫烯酰基辅酶 A 还原酶的有效抑制剂。
Biochemistry. 2013 Dec 23;52(51):9155-66. doi: 10.1021/bi400945y. Epub 2013 Dec 13.
8
Kinetic flux profiling elucidates two independent acetyl-CoA biosynthetic pathways in Plasmodium falciparum.动力学通量分析揭示恶性疟原虫中有两条独立的乙酰辅酶 A 生物合成途径。
J Biol Chem. 2013 Dec 20;288(51):36338-50. doi: 10.1074/jbc.M113.503557. Epub 2013 Oct 25.
9
A key role for lipoic acid synthesis during Plasmodium liver stage development.硫辛酸合成在疟原虫肝脏阶段发育中的关键作用。
Cell Microbiol. 2013 Sep;15(9):1585-604. doi: 10.1111/cmi.12137. Epub 2013 Apr 5.
10
Lipoic acid metabolism of Plasmodium--a suitable drug target.疟原虫硫辛酸代谢——一个合适的药物靶点。
Curr Pharm Des. 2012;18(24):3480-9. doi: 10.2174/138161212801327266.

疟原虫和衣原体物种共享一种新型硫辛酸连接酶。

A novel lipoate attachment enzyme is shared by Plasmodium and Chlamydia species.

作者信息

Afanador Gustavo A, Guerra Alfredo J, Swift Russell P, Rodriguez Ryan E, Bartee David, Matthews Krista A, Schön Arne, Freire Ernesto, Freel Meyers Caren L, Prigge Sean T

机构信息

Department of Molecular Microbiology and Immunology, Johns Hopkins Bloomberg School of Public Health, Baltimore, MD, USA.

Department of Pharmacology and Molecular Sciences, Johns Hopkins School of Medicine, Baltimore, MD, USA.

出版信息

Mol Microbiol. 2017 Nov;106(3):439-451. doi: 10.1111/mmi.13776. Epub 2017 Sep 8.

DOI:10.1111/mmi.13776
PMID:28836704
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5653438/
Abstract

Lipoate is an essential cofactor for enzymes that are important for central metabolism and other processes. In malaria parasites, scavenged lipoate from the human host is required for survival. The Plasmodium falciparum mitochondrion contains two enzymes (PfLipL1 and PfLipL2) that are responsible for activating mitochondrial proteins through the covalent attachment of lipoate (lipoylation). Lipoylation occurs via a novel redox-gated mechanism that remains poorly understood. We show that PfLipL1 functions as a redox switch that determines which downstream proteins will be activated. Based on the lipoate redox state, PfLipL1 either functions as a canonical lipoate ligase or as a lipoate activating enzyme which works in conjunction with PfLipL2. We demonstrate that PfLipL2 is a lipoyltransferase and is a member of a novel clade of lipoate attachment enzymes. We show that a LipL2 enzyme from Chlamydia trachomatis has similar activity, demonstrating conservation between intracellular pathogens from different phylogenetic kingdoms and supporting the hypothesis that an early ancestor of malaria parasites once contained a chlamydial endosymbiont. Redox-dependent lipoylation may regulate processes such as central metabolism and oxidative defense pathways.

摘要

硫辛酸是对中心代谢和其他过程至关重要的酶的必需辅因子。在疟原虫中,从人类宿主 scavenged 来的硫辛酸是其生存所必需的。恶性疟原虫线粒体含有两种酶(PfLipL1 和 PfLipL2),它们负责通过硫辛酸的共价连接(硫辛酸化)来激活线粒体蛋白。硫辛酸化通过一种仍知之甚少的新型氧化还原门控机制发生。我们表明 PfLipL1 作为一种氧化还原开关,决定哪些下游蛋白将被激活。基于硫辛酸的氧化还原状态,PfLipL1 要么作为一种典型的硫辛酸连接酶发挥作用,要么作为一种与 PfLipL2 协同工作的硫辛酸激活酶发挥作用。我们证明 PfLipL2 是一种硫辛酰转移酶,并且是硫辛酸连接酶新分支的成员。我们表明沙眼衣原体的 LipL2 酶具有相似的活性,这证明了来自不同系统发育界的细胞内病原体之间的保守性,并支持了疟原虫的早期祖先曾含有衣原体内共生体这一假说。氧化还原依赖性硫辛酸化可能调节诸如中心代谢和氧化防御途径等过程。