通过E83、E105和E107残基，DraK组氨酸激酶传感器结构域中pH诱导的构象变化机制。

Mechanism of the pH-induced conformational change in the sensor domain of the DraK Histidine kinase via the E83, E105, and E107 residues.

作者信息

Yeo Kwon Joo, Hong Young-Soo, Jee Jun-Goo, Lee Jae Kyoung, Kim Hyo Jeong, Park Jin-Wan, Kim Eun-Hee, Hwang Eunha, Kim Sang-Yoon, Lee Eun-Gyeong, Kwon Ohsuk, Cheong Hae-Kap

机构信息

Division of Magnetic Resonance, Korea Basic Science Institute (KBSI), Ochang, Chungbuk, Republic of Korea.

Chemical Biology Research Center, Korea Research Institute of Bioscience and Biotechnology (KRIBB), Ochang, Chungbuk, Republic of Korea.

出版信息

PLoS One. 2014 Sep 9;9(9):e107168. doi: 10.1371/journal.pone.0107168. eCollection 2014.

DOI:10.1371/journal.pone.0107168

PMID:25203403

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4159317/

Abstract

The DraR/DraK two-component system was found to be involved in the differential regulation of antibiotic biosynthesis in a medium-dependent manner; however, its function and signaling and sensing mechanisms remain unclear. Here, we describe the solution structure of the extracellular sensor domain of DraK and suggest a mechanism for the pH-dependent conformational change of the protein. The structure contains a mixed alpha-beta fold, adopting a fold similar to the ubiquitous sensor domain of histidine kinase. A biophysical study demonstrates that the E83, E105, and E107 residues have abnormally high pKa values and that they drive the pH-dependent conformational change for the extracellular sensor domain of DraK. We found that a triple mutant (E83L/E105L/E107A) is pH independent and mimics the low pH structure. An in vivo study showed that DraK is essential for the recovery of the pH of Streptomyces coelicolor growth medium after acid shock. Our findings suggest that the DraR/DraK two-component system plays an important role in the pH regulation of S. coelicolor growth medium. This study provides a foundation for the regulation and the production of secondary metabolites in Streptomyces.

摘要

发现DraR/DraK双组分系统以培养基依赖的方式参与抗生素生物合成的差异调节；然而，其功能以及信号传导和传感机制仍不清楚。在此，我们描述了DraK细胞外传感器结构域的溶液结构，并提出了该蛋白pH依赖性构象变化的机制。该结构包含混合的α-β折叠，采用与组氨酸激酶普遍存在的传感器结构域相似的折叠方式。一项生物物理研究表明，E83、E105和E107残基具有异常高的pKa值，并且它们驱动DraK细胞外传感器结构域的pH依赖性构象变化。我们发现三重突变体（E83L/E105L/E107A）不依赖pH，并模拟低pH结构。一项体内研究表明，DraK对于天蓝色链霉菌生长培养基在酸冲击后恢复pH至关重要。我们的研究结果表明，DraR/DraK双组分系统在天蓝色链霉菌生长培养基的pH调节中起重要作用。本研究为链霉菌中次级代谢产物的调节和生产提供了基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb74/4159317/c2a0383e604d/pone.0107168.g001.jpg

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通过E83、E105和E107残基，DraK组氨酸激酶传感器结构域中pH诱导的构象变化机制。

Mechanism of the pH-induced conformational change in the sensor domain of the DraK Histidine kinase via the E83, E105, and E107 residues.

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