广泛的调查揭示了[NiFe]氢化酶中连接FeS簇的残基的替代耐受性。

Q2 Biochemistry, Genetics and Molecular Biology BMC Biochemistry Pub Date : 2014-06-17 DOI:10.1186/1471-2091-15-10
Isaac T Yonemoto, Benjamin R Clarkson, Hamilton O Smith, Philip D Weyman
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引用次数: 9

摘要

背景:为了了解[NiFe]氢化酶中FeS簇连接的影响,我们进行了一项研究,替换了氢化酶小亚基中连接三个FeS簇的所有12个氨基酸位置。我们以来自异交单胞菌“深层生态型”的氢化酶为模型,在12个连接位点上分别替换了4个氨基酸(Asp, His, Asn, Gln)中的一个,因为这些氨基酸是在NiFe氢化酶序列中发现的保守半胱氨酸位点上的替代配位残基。我们还希望发现一种相对于先前报道的“G1”(H230C/P285C)改进酶具有更高的析氢活性的酶,其中内侧FeS簇Pro和远端FeS簇His分别取代了Cys。结果:在筛选的所有替代中,天冬氨酸替代通常耐受良好,检查表明观察到的酶活性缺陷可能主要是由于酶的小亚基加工不当。从序列数据库比对氢化酶序列,发现许多罕见的取代;我们测试的数据库中存在的五个取代都显示出可测量的析氢活性。对选择的取代物进行纯化和测试,支持筛选实验的结果。这些结果的分析证实了小亚单元处理的重要性。将活性与成熟小亚基的数量归一化,表明总酶成熟程度较“G1”酶有所改善。结论:我们全面筛选了A. macleodii“深层生态型”氢化酶的48个氨基酸取代,了解了氨基酸与FeS簇的非规范连接,并提高了该类氢化酶的出氢活性。我们的研究表明,非规范连接可以是功能性的,也提出了一个新的限制因素,在生产的活性酶。
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A broad survey reveals substitution tolerance of residues ligating FeS clusters in [NiFe] hydrogenase.

Background: In order to understand the effects of FeS cluster attachment in [NiFe] hydrogenase, we undertook a study to substitute all 12 amino acid positions normally ligating the three FeS clusters in the hydrogenase small subunit. Using the hydrogenase from Alteromonas macleodii "deep ecotype" as a model, we substituted one of four amino acids (Asp, His, Asn, Gln) at each of the 12 ligating positions because these amino acids are alternative coordinating residues in otherwise conserved-cysteine positions found in a broad survey of NiFe hydrogenase sequences. We also hoped to discover an enzyme with elevated hydrogen evolution activity relative to a previously reported "G1" (H230C/P285C) improved enzyme in which the medial FeS cluster Pro and the distal FeS cluster His were each substituted for Cys.

Results: Among all the substitutions screened, aspartic acid substitutions were generally well-tolerated, and examination suggests that the observed deficiency in enzyme activity may be largely due to misprocessing of the small subunit of the enzyme. Alignment of hydrogenase sequences from sequence databases revealed many rare substitutions; the five substitutions present in databases that we tested all exhibited measurable hydrogen evolution activity. Select substitutions were purified and tested, supporting the results of the screening assay. Analysis of these results confirms the importance of small subunit processing. Normalizing activity to quantity of mature small subunit, indicative of total enzyme maturation, weakly suggests an improvement over the "G1" enzyme.

Conclusions: We have comprehensively screened 48 amino acid substitutions of the hydrogenase from A. macleodii "deep ecotype", to understand non-canonical ligations of amino acids to FeS clusters and to improve hydrogen evolution activity of this class of hydrogenase. Our studies show that non-canonical ligations can be functional and also suggests a new limiting factor in the production of active enzyme.

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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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