使用溶液和固态核磁共振相结合的方法深入了解膜嵌入的BamA的构象稳定性。

Insight into the conformational stability of membrane-embedded BamA using a combined solution and solid-state NMR approach.

作者信息

Sinnige Tessa, Houben Klaartje, Pritisanac Iva, Renault Marie, Boelens Rolf, Baldus Marc

机构信息

NMR Spectroscopy, Department of Chemistry, Faculty of Science, Bijvoet Center for Biomolecular Research, Utrecht University, Padualaan 8, 3584 CH, Utrecht, The Netherlands.

出版信息

J Biomol NMR. 2015 Apr;61(3-4):321-32. doi: 10.1007/s10858-014-9891-6. Epub 2015 Jan 8.

DOI:10.1007/s10858-014-9891-6

PMID:25567766

Abstract

The β-barrel assembly machinery (BAM) is involved in folding and insertion of outer membrane proteins in Gram-negative bacteria, a process that is still poorly understood. With its 790 residues, BamA presents a challenge to current NMR methods. We utilized a "divide and conquer" approach in which we first obtained resonance assignments for BamA's periplasmic POTRA domains 4 and 5 by solution NMR. Comparison of these assignments to solid-state NMR (ssNMR) data obtained on two BamA constructs including the transmembrane domain and one or two soluble POTRA domains suggested that the fold of POTRA domain 5 critically depends on the interface with POTRA 4. Using specific labeling schemes we furthermore obtained ssNMR resonance assignments for residues in the extracellular loop 6 that is known to be crucial for BamA-mediated substrate folding and insertion. Taken together, our data provide novel insights into the conformational stability of membrane-embedded, non-crystalline BamA.

摘要

β-桶组装机器（BAM）参与革兰氏阴性菌外膜蛋白的折叠和插入，这一过程目前仍了解甚少。BamA有790个残基，对当前的核磁共振方法构成挑战。我们采用了一种“分而治之”的方法，首先通过溶液核磁共振获得了BamA周质区POTRA结构域4和5的共振归属。将这些归属与在两个包含跨膜结构域以及一个或两个可溶性POTRA结构域的BamA构建体上获得的固态核磁共振（ssNMR）数据进行比较，结果表明POTRA结构域5的折叠严重依赖于与POTRA 4的界面。通过特定的标记方案，我们还获得了细胞外环6中残基的ssNMR共振归属，已知该环对BamA介导的底物折叠和插入至关重要。综上所述，我们的数据为膜嵌入的非晶体BamA的构象稳定性提供了新的见解。

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使用溶液和固态核磁共振相结合的方法深入了解膜嵌入的BamA的构象稳定性。

Insight into the conformational stability of membrane-embedded BamA using a combined solution and solid-state NMR approach.

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