来自《探索血红素储存与降解中的双重作用》的MhuD

MhuD from : Probing a Dual Role in Heme Storage and Degradation.

作者信息

Matthews Sarah J, Pacholarz Kamila J, France Aidan P, Jowitt Thomas A, Hay Sam, Barran Perdita E, Munro Andrew W

机构信息

Manchester Institute of Biotechnology, School of Chemistry, Faculty of Science and Engineering , The University of Manchester , 131 Princess Street , Manchester M1 7DN , United Kingdom.

The Biomolecular Analysis Facility, Faculty of Biology, Medicine and Health , The University of Manchester , Oxford Road , Manchester M13 9PT , United Kingdom.

出版信息

ACS Infect Dis. 2019 Nov 8;5(11):1855-1866. doi: 10.1021/acsinfecdis.9b00181. Epub 2019 Sep 11.

DOI:10.1021/acsinfecdis.9b00181

PMID:31480841

Abstract

The () heme oxygenase MhuD liberates free iron by degrading heme to the linear tetrapyrrole mycobilin. The MhuD dimer binds up to two hemes within the active site of each monomer. Binding the first solvent-exposed heme allows heme degradation and releases free iron. Binding a second heme renders MhuD inactive, allowing heme storage. Native-mass spectrometry revealed little difference in binding affinity between solvent-exposed and solvent-protected hemes. Hence, diheme-MhuD is formed even when a large proportion of the MhuD population is in the apo form. Apomyoglobin heme transfer assays showed MhuD-diheme dissociation is far slower than monoheme dissociation at ∼0.12 min and ∼0.25 s, respectively, indicating that MhuD has a strong affinity for diheme. MhuD has not evolved to preferentially occupy the monoheme form and, through formation of a diheme complex, it functions as part of a larger network to tightly regulate both heme and iron levels in .

摘要

血红素加氧酶MhuD通过将血红素降解为线性四吡咯藻胆素释放出游离铁。MhuD二聚体在每个单体的活性位点最多结合两个血红素。结合第一个暴露于溶剂中的血红素可使血红素降解并释放游离铁。结合第二个血红素会使MhuD失活，从而实现血红素的储存。基质辅助激光解析电离飞行时间质谱显示，暴露于溶剂中的血红素与受溶剂保护的血红素之间的结合亲和力几乎没有差异。因此，即使很大一部分MhuD群体处于脱辅基形式，也会形成双血红素-MhuD。脱辅基肌红蛋白血红素转移试验表明，MhuD-双血红素解离比单血红素解离慢得多，分别约为0.12分钟和0.25秒，这表明MhuD对双血红素具有很强的亲和力。MhuD并未进化到优先占据单血红素形式，而是通过形成双血红素复合物，作为更大网络的一部分，紧密调节[具体环境]中的血红素和铁水平。

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MhuD from : Probing a Dual Role in Heme Storage and Degradation.来自《探索血红素储存与降解中的双重作用》的MhuD

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来自《探索血红素储存与降解中的双重作用》的MhuD

MhuD from : Probing a Dual Role in Heme Storage and Degradation.

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