痘苗病毒K7蛋白的细胞相互作用组分析确定了三种转运机制作为K7的结合伴侣。

Cellular interactome analysis of vaccinia virus K7 protein identifies three transport machineries as binding partners for K7.

作者信息

Li Ye, Zhang Leiliang, Ke Youyang

机构信息

MOH Key Laboratory of Systems Biology of Pathogens, Institute of Pathogen Biology, Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing, 100730, China.

Department of Emergency, 171st Hospital of PLA, Jiujiang, 332000, Jiangxi, China.

出版信息

Virus Genes. 2017 Dec;53(6):814-822. doi: 10.1007/s11262-017-1504-5. Epub 2017 Aug 16.

DOI:10.1007/s11262-017-1504-5

PMID:28815417

Abstract

Identification of viral-host interacting proteins will contribute to understanding of how poxvirus exploits the host cellular machinery. The vaccinia virus gene K7R encodes a conserved protein K7 in most orthopoxviruses. To gain insight into the biology of K7, we investigated the cellular interactome of K7 by GST pulldown coupled with mass spectrometry. The top categories of identified proteins contained components of trafficking machineries. We selected key components of three transport machineries including coatomer, retromer, and CHEVI to further confirm their binding abilities to K7. Di-lysine motif of K7 is required for its interaction with coatomer, while C terminal leucines in K7 are critical for association of retromer. Our study uncovers the viral-host interactome of vaccinia K7 and reveals three host transport machineries as binding partners of K7, which might have important roles in poxvirus' life cycles.

摘要

鉴定病毒与宿主相互作用的蛋白质将有助于理解痘病毒如何利用宿主细胞机制。痘苗病毒基因K7R在大多数正痘病毒中编码一种保守蛋白K7。为深入了解K7的生物学特性，我们通过谷胱甘肽S-转移酶下拉结合质谱法研究了K7的细胞相互作用组。鉴定出的蛋白质的主要类别包含运输机制的成分。我们选择了包括COPII包被蛋白、逆转录酶复合物和CHEVI在内的三种运输机制的关键成分，以进一步确认它们与K7的结合能力。K7的双赖氨酸基序是其与COPII包被蛋白相互作用所必需的，而K7中的C末端亮氨酸对于逆转录酶复合物的结合至关重要。我们的研究揭示了痘苗病毒K7的病毒-宿主相互作用组，并揭示了三种宿主运输机制作为K7的结合伙伴，这可能在痘病毒的生命周期中发挥重要作用。

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痘苗病毒K7蛋白的细胞相互作用组分析确定了三种转运机制作为K7的结合伴侣。

Cellular interactome analysis of vaccinia virus K7 protein identifies three transport machineries as binding partners for K7.

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