膜锚定的底物结合蛋白被部署在次级的士转运蛋白中。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-06-27 DOI:10.1515/hsz-2022-0337
Anja Roden, Melanie K Engelin, Klaas M Pos, Eric R Geertsma
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引用次数: 1

摘要

底物结合蛋白(sbp)是溶质运输系统的一部分,用于增加底物亲和力和吸收率。与主要转运系统相比,依赖sbp的二次转运机制尚不清楚。到目前为止,功能研究主要集中在唾液酸的Na+偶联三部分atp非依赖性周质(TRAP)转运体上。在此,我们报道了来自人类病原体奇迹变形杆菌的TAXIPm-PQM的体外功能表征。TAXIPm-PQM属于trap亚家族,使用不同类型的SBP,称为trap相关的胞浆外免疫原(TAXI)蛋白。TAXIPm-PQM可催化质子依赖性α-酮戊二酸同调,其收缩压是转运机制的重要组成部分。重要的是,TAXIPm-PQM代表了第一个功能表征的SBP依赖的二级转运体,它不依赖于可溶性的SBP,而是使用膜锚定的SBP。
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Membrane-anchored substrate binding proteins are deployed in secondary TAXI transporters.

Substrate-binding proteins (SBPs) are part of solute transport systems and serve to increase substrate affinity and uptake rates. In contrast to primary transport systems, the mechanism of SBP-dependent secondary transport is not well understood. Functional studies have thus far focused on Na+-coupled Tripartite ATP-independent periplasmic (TRAP) transporters for sialic acid. Herein, we report the in vitro functional characterization of TAXIPm-PQM from the human pathogen Proteus mirabilis. TAXIPm-PQM belongs to a TRAP-subfamily using a different type of SBP, designated TRAP-associated extracytoplasmic immunogenic (TAXI) protein. TAXIPm-PQM catalyzes proton-dependent α-ketoglutarate symport and its SBP is an essential component of the transport mechanism. Importantly, TAXIPm-PQM represents the first functionally characterized SBP-dependent secondary transporter that does not rely on a soluble SBP, but uses a membrane-anchored SBP instead.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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