CoVDB Coronavirus Database (v3)   
Strain
Avian_HQ853286 (Region: Brazil;  Strain: Turkey coronavirus isolate TCoV-4/BR/2008 spike glycoprotein mRNA;  Date: 2008)
Gene
spike glycoprotein
Description
Annotated in NCBI,  spike glycoprotein
GenBank Accession
Full name
Spike glycoprotein      
Alternative Name
E2
Peplomer protein
 

Sequence

CDS
ATGTTGGTGCAGTTGTGTTGCCTGACGATAATCTTGTCACTTGTATGTAATGTGAGTTCTATTCCCACAATTTGTCTCAATGCTACTGTAGGTAGTGGTGTGTGTCTACCTTGCACTTACATACCAGAGTATGCAGATGGTAAAAATGGGGGTGAAGCCCTAGATTATTATAGTCCAGATGTTATGAGACCGCCAGATGGCGCATATATACAATCCGGTTATTATGAACCACTATTCACAGGTTGCTTTAATCAAACTAATCAAACTGATAGCACCTGTAGAAATGGGCTTTATAAAGGGTCGCGAGGTAATTATACTATACAAGGTGATTTTCTTAAAAATTATGATGCTGTTGGCATAATGTTTTGGTGGGCTTTAGCTACTAATGTGGGTAAAGTAACACCACCCAATGATGCTACTTTTATTTTAACATGGGGCAACTTTATTCTTAATTCTAAGAATTTTACAGGTTTCCATAAAGTTAAAAGTGTCATATTTATTGCCACTGGAGATATCTTCGTAAATGGCGTTTTAATGGGTTTTTATAATCTAAATTTTACACAAACCTTAACAATTTGGTTAGCACAGTGTGTTGGCACAATGATGGTTGTTATTTTACGTAATAGTAATGCTCTAGTTCATTTTTCGGCTGGCAACGTAGTTGCTTTCGAACCCTGCACAGGAGACACTACTATTAATAAGTTACGTTGCGCTTATCAGCAATTTAATTTTTCTACAGGATTTTATGACATAGATACTTTTGTACCTGTGACATCTAATATTACATATTTACCTTACCCAGATTTAAAAGACAATACTGGTCAAGAGGTATGTGACTATTATGTAGCTCTTAAAGGAGATCATGTTATTTACAACCAAAGTTGTGTAGACTCTAAGTACCCATTCTTTAAATTAAAGTGTAATAATACTTATTCATGGGATAATGATAAGTTGTGTATTTTAGGGTCTGAAATATATGTGCCGGGGTATAATGTTTACACTAATACGCAACATTCATATGCTGGCACTATACCGAATTATCCAACTTGTTCTTCCAAAGGTCTTAGTTTGGAAAATATTTATAATAATATAGGTTTCAATAGATTTTGTGTAACTAAATTGTTGACGACTCGTGATATATCATCTATAACCCAATACACTTGTGTTTATGTCGTTAGTGTAGAAGGTTTTGATAGTTATAATCAAGGTATTGTATTCAGTTATGTTGGTGTAAACTTTGATTTTGGTACAGCTATGTATAGTGTGAAAACTGCACCTATGCAGTTCATCTATACAGAGCAATGTCATAAGTATAATATTTACAACATAAGAGGTGTTGGTCAAATATTAAATGTCACTGGTAAAGATAATACTACACTTGTAGACGGTGGTCTAGTAATAACTAGTGGCAGTGGCTTATTGGCTTTTCGTAATAATGGAAGTCTTATTAGTGTACAACCTTGCCGGACAGTTTCAACTCAAGCTGTAATTGTTAATGGGAGTTTTGTAGGCTTGTTTGTTCCTGCATCTTGTTGGTTAGCCGATCAATTTAATCTAGGTAACCACACAGAATATGTAGATGGTGGTTGTCTTATTAGTAATAAGACTATTAGTAGAAAGCGTAGGTCTACTAACGCTGTTTATACTGGTGAATGCACAGGTTTATTTGCAGCTATGGGTACATCTTGTATTTATAGTAATGGCACAGTTCTTAATAGAACATTACCACAACCATCTGTTCAAACTAGTGTGCAACCATTACTAGGTGTTGTAGCAAATGTGTCTATTCCAAAAGAATTGACACTTGCTGTAACCACAGAATACTTACTAACTCGTTATCAGAAAGTTACTATTGATAGTGCTAAATATGTCTGTGGTGATTCTACAAGGTGCCGCACGTTGCTGCAGCAGTATGGTTCTTTTTGCCAGAGTGTTAATGCTATATTATGTGGTGTTAATGAGAATGAAGATAATGGTTTACTGCAATATGCGGAAGCTATTAATACAGGTTACACACTTAATTTTACTGGTTATAATGTATCCAATTTGGGTGGGTTTGATTTGTCCCTTGTTCTACCCAAAAATCTTACTTTGGCACAAAATCAAGGTAGGTCTACTATTGAAGACTTACTTTTTGACAAAGTTGTTACTCTAGGTGTTAGTGAAGTTGATCAGAATTATGATAAATGTATAGCATCTAGAGGTGGTTCTTTTACTAATTTAGCAGATTTAACTTGTGCTCAGTTTTACAATGGTGTCATGGTGCTCCCTGGTGTTGTTGACCCTGGTCTAATGGCAGTGTACACCGGCTCTTTAATAGGTGGTATGGCGCTCGGAGGCATTACAGCAGCGGCATCCATACCATTTGCTACTCAAATACAAGCACGTGTCAATTATTTAGCGTTGACACAATCAGTGCTTTTAGATAACCAAAATTTGATAGCAAATTCCTTTAATAAGGCCCTTAAAGGTATACAGTCAGCATTAGACACTGTTTCCCAGGGGTTTGTTGAAGTAGCTAGAGGTTTTGAGAGCGTAACTGTAGCACTTAATAAAGTTCAGGATGTGGTTAACACACATTCCGACATATTAAATAAACTTATGGCTCAGCTTAGTGTTAATTTTGGGGCTGTTTCATCTTCTCTTAATGAGATATACCTAAAATTAGACCAGATTAATGCAGATGCTCAGGTTGATAGGTTAATTACTGGTAGGTTGACTGCATTATCAACTTACGTAGCATCTCTTCAATTAGCAGCTTATAAGGCTGACCAGTCAAGACGCTTGGCTCTACAGAAAGTAGAGGAGTGTGTTAAGTCGCAATCCATGCGATATGGTTTCTGTGGTAATGGTAGCCATGTTCTAACAATACCACAGAGTGCTCCTAATGGAATATTCTTTATCCACTACACGTACCAACCCACTTCTTATGTTACAATTGAAGCAGTGCCTGGTCTATGTGTAACAACACCTTCTGGAAAGTATGGTGTAATGCCCAAGACTGGAAGTGGCATCATATTTAGACAGAATGATACTTTCTTTGTCACTTCCACACAGTTATATGAGCCTAA
Protein
MLVQLCCLTIILSLVCNVSSIPTICLNATVGSGVCLPCTYIPEYADGKNGGEALDYYSPDVMRPPDGAYIQSGYYEPLFTGCFNQTNQTDSTCRNGLYKGSRGNYTIQGDFLKNYDAVGIMFWWALATNVGKVTPPNDATFILTWGNFILNSKNFTGFHKVKSVIFIATGDIFVNGVLMGFYNLNFTQTLTIWLAQCVGTMMVVILRNSNALVHFSAGNVVAFEPCTGDTTINKLRCAYQQFNFSTGFYDIDTFVPVTSNITYLPYPDLKDNTGQEVCDYYVALKGDHVIYNQSCVDSKYPFFKLKCNNTYSWDNDKLCILGSEIYVPGYNVYTNTQHSYAGTIPNYPTCSSKGLSLENIYNNIGFNRFCVTKLLTTRDISSITQYTCVYVVSVEGFDSYNQGIVFSYVGVNFDFGTAMYSVKTAPMQFIYTEQCHKYNIYNIRGVGQILNVTGKDNTTLVDGGLVITSGSGLLAFRNNGSLISVQPCRTVSTQAVIVNGSFVGLFVPASCWLADQFNLGNHTEYVDGGCLISNKTISRKRRSTNAVYTGECTGLFAAMGTSCIYSNGTVLNRTLPQPSVQTSVQPLLGVVANVSIPKELTLAVTTEYLLTRYQKVTIDSAKYVCGDSTRCRTLLQQYGSFCQSVNAILCGVNENEDNGLLQYAEAINTGYTLNFTGYNVSNLGGFDLSLVLPKNLTLAQNQGRSTIEDLLFDKVVTLGVSEVDQNYDKCIASRGGSFTNLADLTCAQFYNGVMVLPGVVDPGLMAVYTGSLIGGMALGGITAAASIPFATQIQARVNYLALTQSVLLDNQNLIANSFNKALKGIQSALDTVSQGFVEVARGFESVTVALNKVQDVVNTHSDILNKLMAQLSVNFGAVSSSLNEIYLKLDQINADAQVDRLITGRLTALSTYVASLQLAAYKADQSRRLALQKVEECVKSQSMRYGFCGNGSHVLTIPQSAPNGIFFIHYTYQPTSYVTIEAVPGLCVTTPSGKYGVMPKTGSGIIFRQNDTFFVTSTQLYEP

Summary

Function
attaches the virion to the host cell membrane by interacting with sialic acids, initiating the infection.
mediates fusion of the virion and cellular membranes by acting as a class I viral fusion protein. Under the current model, the protein has at least 3 conformational states: pre-fusion native state, pre-hairpin intermediate state, and post-fusion hairpin state. During viral and target cell membrane fusion, the coiled coil regions (heptad repeats) assume a trimer-of-hairpins structure, positioning the fusion peptide in close proximity to the C-terminal region of the ectodomain. The formation of this structure appears to drive apposition and subsequent fusion of viral and target cell membranes.
Acts as a viral fusion peptide after S2 cleavage occurring upon virus endocytosis.
Subunit
Homotrimer; each monomer consists of a S1 and a S2 subunit. The resulting peplomers protrude from the virus surface as spikes.
Similarity
Belongs to the gammacoronaviruses spike protein family.
Keywords
Cleavage on pair of basic residues   Coiled coil   Fusion of virus membrane with host endosomal membrane   Fusion of virus membrane with host membrane   Glycoprotein   Host membrane   Host-virus interaction   Membrane   Signal   Transmembrane   Transmembrane helix   Viral attachment to host cell   Viral envelope protein   Viral penetration into host cytoplasm   Virion   Virulence   Virus endocytosis by host   Virus entry into host cell  
Feature
chain  Spike glycoprotein
Uniprot
Pfam
PF01600   Corona_S1
PF01601   Corona_S2
Interpro
IPR027400   S_HR2
IPR042549   GAMMA_CORONA_SPIKE
IPR002551   Corona_S1
IPR002552   Corona_S2
Gene 3D
ProteinModelPortal
PDB
6CV0     E-value=8e-126     Score= 410     Identity=34.39%     Cov(Q)=86.12%     Cov(P)=79.73%

Ontologies

Subcellular Location

From MSLVP
From Uniprot
Virion membrane   Accumulates in the endoplasmic reticulum-Golgi intermediate compartment, where it participates in virus particle assembly. Some S oligomers may be transported to the plasma membrane, where they may mediate cell-cell fusion.   With evidence from 1 publications.
Host endoplasmic reticulum-Golgi intermediate compartment membrane   Accumulates in the endoplasmic reticulum-Golgi intermediate compartment, where it participates in virus particle assembly. Some S oligomers may be transported to the plasma membrane, where they may mediate cell-cell fusion.   With evidence from 1 publications.

Topology

Length:
1023
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
38.4476
Exp number, first 60 AAs:
5.56444
Total prob of N-in:
0.37980
outside
1  -  1023
 
 
Copyright@ 2018-2023    Any Comments and suggestions mail to:  zhuzl@cqu.edu.cn, mg@cau.edu.cn   渝ICP备19006517号

渝公网安备 50010602502065号

In processing...
Login to ASFVdb
Email
Password
Please go to Regist if without an account.
If you have forgotten your password, you can once again Regist an account with a registed or new email.
Change my password
Enter new password
Reenter new password
Regist an account of ASFVdb
It is required that you provide your institutional e-mail address (with edu or org in the domain) as confirmation of your affiliation.
Enter email
Reenter email
First Name
Last Name
Institution
You can directly go to if with an account.
Registraion Success
Your password has been sent to your email.
Please check it and login later.
Welcome to use ASFVdb.