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霍乱弧菌 NhaP2 阳离子-质子反向转运蛋白的 C 端胞质部分影响其活性和底物亲和力。

The C-terminal cytoplasmic portion of the NhaP2 cation-proton antiporter from Vibrio cholerae affects its activity and substrate affinity.

机构信息

Department of Chemistry, University of Manitoba, Winnipeg, MB, R3T 2N2, Canada.

出版信息

Mol Cell Biochem. 2014 Apr;389(1-2):51-8. doi: 10.1007/s11010-013-1926-x. Epub 2013 Dec 18.

DOI:10.1007/s11010-013-1926-x
PMID:24347178
Abstract

In this work, we report the phenotypic and biochemical effects of deleting the C-terminal cytoplasmic portion of the NhaP2 cation/proton antiporter from Vibrio cholerae. While the deletion changed neither the expression nor targeting of the Vc-NhaP2 in an antiporter-less Escherichia coli strain, it resulted in a changed sensitivity of the host to sodium ions at neutral pH, indicating an altered Na(+) transport through the truncated variant. When assayed in inside-out sub-bacterial vesicles, the truncation was found to result in greatly reduced K(+)/H(+) and Na(+)/H(+) antiport activity at all pH values tested and a greater than fivefold decrease in the affinity for K(+) (measured as the apparent K m) at pH 7.5. Being expressed in trans in a strain of V. cholerae bearing a chromosomal nhaP2 deletion, the truncated nhaP2 gene was able to complement its inability to grow in potassium-rich medium at pH 6.0. Thus the residual K(+)/H(+) antiport activity associated with the truncated Vc-NhaP2 was still sufficient to protect cells from an over-accumulation of K(+) ions in the cytoplasm. The presented data suggest that while the cytoplasmic portion of Vc-NhaP2 is not involved in ion translocation directly, it is necessary for optimal activity and substrate binding of the Vc-NhaP2 antiporter.

摘要

在这项工作中,我们报告了从霍乱弧菌中删除 NhaP2 阳离子/质子反向转运蛋白的 C 端细胞质部分的表型和生化效应。虽然该缺失既没有改变无反向转运体的大肠杆菌菌株中 Vc-NhaP2 的表达也没有改变其靶向,但它导致宿主在中性 pH 下对钠离子的敏感性发生变化,表明通过截断变体改变了 Na(+) 转运。当在细菌内部向外亚基小泡中进行测定时,发现该截断导致在所有测试的 pH 值下 K(+)/H(+) 和 Na(+)/H(+)反向转运活性大大降低,并且在 pH 7.5 时对 K(+)的亲和力(以表观 Km 测量)降低了五倍以上。在携带染色体 nhaP2 缺失的霍乱弧菌菌株中表达时,截短的 nhaP2 基因能够弥补其在 pH 6.0 的富含钾的培养基中无法生长的能力。因此,与截断的 Vc-NhaP2 相关的残留 K(+)/H(+)反向转运活性仍然足以保护细胞免受细胞质中 K(+)离子的过度积累。所呈现的数据表明,虽然 Vc-NhaP2 的细胞质部分不直接参与离子转运,但它对于 Vc-NhaP2 反向转运体的最佳活性和底物结合是必需的。

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