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从霍乱弧菌中截短 VC0395_0300 蛋白的 N 端不会导致双鸟苷酸环化酶活性丧失。

N-terminal truncation of VC0395_0300 protein from Vibrio cholerae does not lead to loss of diguanylate cyclase activity.

机构信息

ViStA Lab, Department of Biological Sciences, BITS, Pilani - K K Birla Goa Campus, Goa 403726, India.

Department of Biotechnology, Indian Institute of Technology Roorkee (IIT-R), Roorkee, Uttarakhand 247667, India.

出版信息

Biophys Chem. 2021 Jan;268:106493. doi: 10.1016/j.bpc.2020.106493. Epub 2020 Oct 10.

Abstract

The bacterial secondary messenger bis-(3',5')-cyclic-dimeric-guanosine monophosphate (c-di-GMP) has been implicated in the pathogenesis of Vibrio cholerae, due to its significant role in regulating the virulence, biofilm formation and motility of the host organism. The VC0395_0300 protein from V. cholerae, possessing a GGEEF sequence has been established as a diguanylate cyclase (DGC) capable of catalyzing the conversion of two GTP molecules to form cyclic-di-GMP. This in turn, plays a crucial role in allowing the organism to adopt a dual lifestyle, thriving both in human and aquatic systems. The difficulty in procuring sufficient amounts of homogenous soluble protein for structural assessment of the GGDEF domain in VC0395_0300 and the lack of soluble protein yield, prompted the truncation into smaller constructs (Sebox31 and Sebox32) carrying the GGDEF domain. The truncates retained their diguanylate cyclase activity comparable to the wild type, and were able to form biofilms as well. Fluorescence and circular dichroism spectroscopy measurements revealed that the basic structural elements do not show significant changes in the truncated proteins as compared to the full-length. This has also been confirmed using homology modeling and molecular docking of the wild type and truncates. This led us to conclude that the truncated constructs retain their activity in spite of the deletions in the N terminal region. This is supportive of the fact that DGC activity in GGDEF proteins is predominantly dependent on the presence of the conserved GGD(/E)EF domain and its interaction with GTP.

摘要

细菌的第二信使双(3',5')-环二鸟苷单磷酸(c-di-GMP)已被认为与霍乱弧菌的发病机制有关,因为它在调节宿主生物体的毒力、生物膜形成和运动性方面起着重要作用。霍乱弧菌的 VC0395_0300 蛋白具有 GGEEF 序列,已被确定为能够催化两个 GTP 分子转化为环二鸟苷单磷酸的二鸟苷酸环化酶(DGC)。这反过来又使生物体能够采用双重生活方式,在人类和水生系统中都能茁壮成长。由于难以获得足够数量的同质可溶性蛋白来进行 VC0395_0300 的 GGDEF 结构评估,并且可溶性蛋白产量不足,因此将其截断为携带 GGDEF 结构域的更小构建体(Sebox31 和 Sebox32)。截断体保留了与其野生型相当的二鸟苷酸环化酶活性,并且能够形成生物膜。荧光和圆二色性光谱测量表明,与全长相比,截断蛋白的基本结构元素没有明显变化。这也通过对野生型和截断体的同源建模和分子对接得到了证实。这使我们得出结论,尽管在 N 端区域缺失,但截断构建体仍保留其活性。这支持了这样一个事实,即 GGDEF 蛋白中的 DGC 活性主要依赖于保守的 GGD(/E)EF 结构域的存在及其与 GTP 的相互作用。

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