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肌红蛋白的氧化还原反应。

Redox reactions of myoglobin.

机构信息

Meat Science and Muscle Biology Laboratory, Department of Animal Sciences, University of Wisconsin-Madison, Madison, WI 53706, USA.

出版信息

Antioxid Redox Signal. 2013 Jun 10;18(17):2342-51. doi: 10.1089/ars.2012.4887. Epub 2012 Oct 11.

DOI:10.1089/ars.2012.4887
PMID:22900975
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3638515/
Abstract

SIGNIFICANCE

Failure to maintain myoglobin (Mb) in the reduced state causes the formation of metMb, ferryl Mb species, and cross-linked Mb. Dissociation of ferriprotoporphyrin IX from the globin and release of iron atoms can also occur as oxidized Mb accumulates. These modifications may contribute to various oxidative pathologies in muscle and muscle foods.

RECENT ADVANCES

The mechanism of ferryl Mb-mediated oxidative damage to nearby structures has been partially elucidated. Dissociation of ferriprotoporphyrin IX from metMb occurs more readily at acidic pH values. The dissociated ferriprotoporphyrin IX (also called hemin) readily decomposes preformed lipid hydroperoxides to reactive oxygen species. Heme oxygenase as well as lipophilic free radicals can degrade the protoporphyrin IX moiety, which results in the formation of free iron.

CRITICAL ISSUES

The multiple pathways by which Mb can incur toxicity create difficulties in determining the major cause of oxidative damage in a particular system. Peroxides and low pH activate each of the oxidative Mb forms, ferriprotoporphyrin IX, and released iron. Determining the relative concentration of these species is technically difficult, but essential to a complete understanding of oxidative pathology in muscle tissue.

FUTURE DIRECTIONS

Improved methods to assess the different pathways of Mb toxicity are needed. Although significant advances have been made in the understanding of Mb interactions with other biomolecules, further investigation is needed to understand the physical and chemical nature of these interactions.

摘要

意义

如果肌红蛋白 (Mb) 不能保持还原状态,就会形成高铁肌红蛋白 (metMb)、亚铁肌红蛋白物种和交联肌红蛋白。随着氧化肌红蛋白的积累,亚铁原卟啉 IX 也可能从球蛋白上解离并释放铁原子。这些修饰可能导致肌肉和肌肉食品中的各种氧化病理。

最新进展

部分阐明了高铁肌红蛋白介导的氧化损伤对附近结构的作用机制。在酸性 pH 值下,metMb 中 ferriprotoporphyrin IX 的解离更容易发生。分离的 ferriprotoporphyrin IX(也称为血红素)更容易将预先形成的脂质过氧化物分解为活性氧。血红素加氧酶以及亲脂性自由基可以降解原卟啉 IX 部分,导致游离铁的形成。

关键问题

Mb 发生毒性的多种途径使得难以确定特定系统中氧化损伤的主要原因。过氧化物和低 pH 值激活了每种氧化肌红蛋白形式、ferriprotoporphyrin IX 和释放的铁。确定这些物质的相对浓度在技术上很困难,但对于全面了解肌肉组织中的氧化病理至关重要。

未来方向

需要改进评估 Mb 毒性的不同途径的方法。尽管在理解肌红蛋白与其他生物分子的相互作用方面取得了重大进展,但仍需要进一步研究以了解这些相互作用的物理和化学性质。

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