镍槲皮素酶--一种 "杂交 "金属酶:金属掺入和金属配体置换研究。

Q2 Biochemistry, Genetics and Molecular Biology BMC Biochemistry Pub Date : 2015-04-23 DOI:10.1186/s12858-015-0039-4
Dimitrios Nianios, Sven Thierbach, Lenz Steimer, Pavel Lulchev, Dagmar Klostermeier, Susanne Fetzner
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引用次数: 0

摘要

背景:槲皮素酶是铜蛋白超家族中依赖金属的二氧酶。虽然真菌槲皮素酶是铜蛋白,但重组链霉菌槲皮素酶(QueD)以前曾被描述为能够结合 Ni(2+)和其他一些二价金属离子。这就提出了哪些因素决定了金属选择,以及哪种金属离子与生理相关等问题:结果:异源生产的 QueD 蛋白的金属占有率依次为 Ni > Co > Fe > Mn。与其他金属相比,铁不支持催化活性。从野生型链霉菌(Streptomyces sp.在无细胞转录-翻译系统中体外合成 QueD 时,如果存在镍(2+),就会产生具有催化活性的蛋白质,对体外合成蛋白质的圆二色光谱进行比较后发现,镍(2+)离子支持正确的折叠。用丙氨酸取代 3His/1Glu 金属结合基团的单个氨基酸会大大降低或取消槲皮素酶的活性,并影响其结构的完整性。只有谷氨酸配体(E76)被组氨酸取代后,Ni-QueD 和 Co-QueD 变体才保留了原生折叠,并显示出剩余的催化活性:结论:异源形成具有催化活性的原生QueD全酶需要Ni(2+)、Co(2+)或Mn(2+),即偏好八面体配位几何的金属离子,以及完整的3His/1Glu图案或金属的4His环境。观察到的金属占有率表明,金属掺入 QueD 是受所产生的金属配合物的相对稳定性而不是金属丰度的影响。Ni(2+) 很可能是 FLA 链霉菌 QueD 的生理相关辅助因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Nickel quercetinase, a "promiscuous" metalloenzyme: metal incorporation and metal ligand substitution studies.

Background: Quercetinases are metal-dependent dioxygenases of the cupin superfamily. While fungal quercetinases are copper proteins, recombinant Streptomyces quercetinase (QueD) was previously described to be capable of incorporating Ni(2+) and some other divalent metal ions. This raises the questions of which factors determine metal selection, and which metal ion is physiologically relevant.

Results: Metal occupancies of heterologously produced QueD proteins followed the order Ni > Co > Fe > Mn. Iron, in contrast to the other metals, does not support catalytic activity. QueD isolated from the wild-type Streptomyces sp. strain FLA contained mainly nickel and zinc. In vitro synthesis of QueD in a cell-free transcription-translation system yielded catalytically active protein when Ni(2+) was present, and comparison of the circular dichroism spectra of in vitro produced proteins suggested that Ni(2+) ions support correct folding. Replacement of individual amino acids of the 3His/1Glu metal binding motif by alanine drastically reduced or abolished quercetinase activity and affected its structural integrity. Only substitution of the glutamate ligand (E76) by histidine resulted in Ni- and Co-QueD variants that retained the native fold and showed residual catalytic activity.

Conclusions: Heterologous formation of catalytically active, native QueD holoenzyme requires Ni(2+), Co(2+) or Mn(2+), i.e., metal ions that prefer an octahedral coordination geometry, and an intact 3His/1Glu motif or a 4His environment of the metal. The observed metal occupancies suggest that metal incorporation into QueD is governed by the relative stability of the resulting metal complexes, rather than by metal abundance. Ni(2+) most likely is the physiologically relevant cofactor of QueD of Streptomyces sp. FLA.

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来源期刊
BMC Biochemistry
BMC Biochemistry BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
3 months
期刊介绍: BMC Biochemistry is an open access journal publishing original peer-reviewed research articles in all aspects of biochemical processes, including the structure, function and dynamics of metabolic pathways, supramolecular complexes, enzymes, proteins, nucleic acids and small molecular components of organelles, cells and tissues. BMC Biochemistry (ISSN 1471-2091) is indexed/tracked/covered by PubMed, MEDLINE, BIOSIS, CAS, EMBASE, Scopus, Zoological Record, Thomson Reuters (ISI) and Google Scholar.
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