The first event in viral infection is the attachment of a virus to specific receptors on the host cell surface. This will trigger conformational changes of the viral surface protein. For
Viruses replicate and proliferate in host cells while continuously adjusting to and modulating the host environment.They encode a wide spectrum of multifunctional proteins,which interplay with and modify proteins in h...Viruses replicate and proliferate in host cells while continuously adjusting to and modulating the host environment.They encode a wide spectrum of multifunctional proteins,which interplay with and modify proteins in host cells.Viral genomes were chronologically the first to be sequenced.However,the corresponding viral proteomes,the alterations of host proteomes upon viral infection,and the dynamic nature of proteins,such as post-translational modifications,enzymatic cleavage,and activation or destruction by proteolysis,remain largely unknown.Emerging high-throughput techniques,in particular quantitative or semi-quantitative mass spectrometry-based proteomics analysis of viral and cellular proteomes,have been applied to define viruses and their interactions with their hosts.Here,we review the major areas of viral proteomics,including virion proteomics,structural proteomics,viral protein interactomics,and changes to the host cell proteome upon viral infection.展开更多
Swine acute diarrhea syndrome coronavirus(SADS‐CoV)is a recently discovered coronavirus that causes severe and acute diarrhea and rapid weight loss in piglets.SADS‐CoV was reported to be capable of infecting cell li...Swine acute diarrhea syndrome coronavirus(SADS‐CoV)is a recently discovered coronavirus that causes severe and acute diarrhea and rapid weight loss in piglets.SADS‐CoV was reported to be capable of infecting cell lines derived from diverse species,including bats,mice,hamsters,rats,chickens,pigs,nonhuman primates,and humans,implying its high risk of cross‐species infection.However,its receptor is still unknown.In this study,the receptor‐binding domain of the SADS‐CoV spike(S)protein was purified and then subjected to affinity purification(AP)‐coupled mass spectrometry(MS)‐based proteomic analysis to identify the interactors of the SADS‐CoV S protein.Forty‐three host proteins were identified,and a Gene Ontology analysis indicated that these interactors can be grouped into categories such as“cell‐cell adhesion”,“translation”“viral transcription”,suggesting that these processes may participate in the SADS‐CoV life cycles.RNA interference‐based screening of these interactors indicated that PPIB and vimentin can affect SADS‐CoV replication.Our study provides an overarching view into the host interactome of the SADS‐CoV S protein and highlights potential targets for the development of therapeutics against SADS‐CoV.展开更多
文摘The first event in viral infection is the attachment of a virus to specific receptors on the host cell surface. This will trigger conformational changes of the viral surface protein. For
基金supported by the National Project on Major Infectious Diseases Prevention (Grant No. 2008ZX10002-009)the National Basic Research Program of China (Grant No. 2011CB910703)
文摘Viruses replicate and proliferate in host cells while continuously adjusting to and modulating the host environment.They encode a wide spectrum of multifunctional proteins,which interplay with and modify proteins in host cells.Viral genomes were chronologically the first to be sequenced.However,the corresponding viral proteomes,the alterations of host proteomes upon viral infection,and the dynamic nature of proteins,such as post-translational modifications,enzymatic cleavage,and activation or destruction by proteolysis,remain largely unknown.Emerging high-throughput techniques,in particular quantitative or semi-quantitative mass spectrometry-based proteomics analysis of viral and cellular proteomes,have been applied to define viruses and their interactions with their hosts.Here,we review the major areas of viral proteomics,including virion proteomics,structural proteomics,viral protein interactomics,and changes to the host cell proteome upon viral infection.
基金supported by National Natural Science Foundation of China(31830096)the Open Research Fund Program of Wuhan National Bio‐Safety Level 4 Lab of CAS(2020ACCP‐MS01)the Youth Innovation Promotion Association CAS(grants 2018367 to L.‐K.Z).
文摘Swine acute diarrhea syndrome coronavirus(SADS‐CoV)is a recently discovered coronavirus that causes severe and acute diarrhea and rapid weight loss in piglets.SADS‐CoV was reported to be capable of infecting cell lines derived from diverse species,including bats,mice,hamsters,rats,chickens,pigs,nonhuman primates,and humans,implying its high risk of cross‐species infection.However,its receptor is still unknown.In this study,the receptor‐binding domain of the SADS‐CoV spike(S)protein was purified and then subjected to affinity purification(AP)‐coupled mass spectrometry(MS)‐based proteomic analysis to identify the interactors of the SADS‐CoV S protein.Forty‐three host proteins were identified,and a Gene Ontology analysis indicated that these interactors can be grouped into categories such as“cell‐cell adhesion”,“translation”“viral transcription”,suggesting that these processes may participate in the SADS‐CoV life cycles.RNA interference‐based screening of these interactors indicated that PPIB and vimentin can affect SADS‐CoV replication.Our study provides an overarching view into the host interactome of the SADS‐CoV S protein and highlights potential targets for the development of therapeutics against SADS‐CoV.
