CDS

Accession Number TCMCG081C24588
gbkey CDS
Protein Id XP_010658916.1
Location join(14884883..14885024,14885477..14886690)
Gene LOC104881228
GeneID 104881228
Organism Vitis vinifera

Protein

Length 451aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA33471
db_source XM_010660614.2
Definition PREDICTED: inactive protein RESTRICTED TEV MOVEMENT 2 [Vitis vinifera]

EGGNOG-MAPPER Annotation

COG_category O
Description Belongs to the small heat shock protein (HSP20) family
KEGG_TC -
KEGG_Module -
KEGG_Reaction -
KEGG_rclass -
BRITE -
KEGG_ko -
EC -
KEGG_Pathway -
GOs GO:0005575        [VIEW IN EMBL-EBI]
GO:0005623        [VIEW IN EMBL-EBI]
GO:0005886        [VIEW IN EMBL-EBI]
GO:0006810        [VIEW IN EMBL-EBI]
GO:0008150        [VIEW IN EMBL-EBI]
GO:0009605        [VIEW IN EMBL-EBI]
GO:0009607        [VIEW IN EMBL-EBI]
GO:0009615        [VIEW IN EMBL-EBI]
GO:0016020        [VIEW IN EMBL-EBI]
GO:0016032        [VIEW IN EMBL-EBI]
GO:0040011        [VIEW IN EMBL-EBI]
GO:0043207        [VIEW IN EMBL-EBI]
GO:0044000        [VIEW IN EMBL-EBI]
GO:0044403        [VIEW IN EMBL-EBI]
GO:0044419        [VIEW IN EMBL-EBI]
GO:0044464        [VIEW IN EMBL-EBI]
GO:0044766        [VIEW IN EMBL-EBI]
GO:0046739        [VIEW IN EMBL-EBI]
GO:0046741        [VIEW IN EMBL-EBI]
GO:0046794        [VIEW IN EMBL-EBI]
GO:0050896        [VIEW IN EMBL-EBI]
GO:0051179        [VIEW IN EMBL-EBI]
GO:0051234        [VIEW IN EMBL-EBI]
GO:0051701        [VIEW IN EMBL-EBI]
GO:0051704        [VIEW IN EMBL-EBI]
GO:0051707        [VIEW IN EMBL-EBI]
GO:0051814        [VIEW IN EMBL-EBI]
GO:0052126        [VIEW IN EMBL-EBI]
GO:0052192        [VIEW IN EMBL-EBI]
GO:0071944        [VIEW IN EMBL-EBI]
GO:1902579        [VIEW IN EMBL-EBI]

Sequence

CDS:  
ATGTTTACGCCGCAACGACCCCCCCGTGGATCTACAACCAGCCGTTCACGACCTGCGCTGCGCCAGGTTTATCAAGAGTTGCAGCCCACTTCCGAATGGAAACAAGAAGAAGGAAGTGCTGTTCTAGTTGTTCATGTTCCTGGTTTTACCAAGGAGCAAGTTGGGATTCAAATACAAGGCATGGACATGCTCAGGGTTCGTGGAACGCGCCCATCTCAGCCCAACACATGGATCCGTTTCGATAAGGCTTTTCCTATTCCAGAAGATTGTACTACAAGTGGTATTCAAGCCAAGTTCGGGAATGGAATTCTTTATGTTACATTCCAGAAGAAGACGAAGAATATTACGCAAGTTGGTTCCGAAGAAAAGCAGGCCAAACCAACACAACAAAGAGATGAGAAGGATTCCCAACTTCCAAGCCCTCGAGAAGTATCACCGCCCAGTGCTTCAACCAGTGGTGGTGAGGGGAAACGCGAGGAAGCTCCCAGCAAGCTAAAGTCTGAAATGGATGAGGCGAGTGACCTAAAACAAACAACTTCAACCACTCAAGGCAAGAGCCAAACAGAAGCAAAGAGTACGGAAGCTCCGACCAAGCTAAAGTCTCCAGAGGATGAAGACGCCAATCTTAGAAAAGCAAGTACTTCAAGCCTTGGAGACAATATCGGAACAGACGCAAACAATATGGAAACTCTGAGCTCCAAGAAAGCACAAAGCAATAAGGCAAAGGCCGAAAAGGGTGGAGAAGATCAACGAGTAGAAAAAAGTACAAGTGAGGGGTCCAAGAATGCTGAGAATGTTGTTGAAAAAGCCACCCCAGGCGAGGTAAGAGGCAAAACAAATCATGATGATATGGAGAAGCCTACTGCAGCGGAAAAGTCAGAGGAGGCTTTGGGAAAGGCTCTTGATCAGAAGCAAACTGAAAGCAGCGAGAAGATAAGCAAAGAATCAAAATTGACCGCTGAAAGCAGTGCACAGAATGCTTTGGGAAAGGCTGTTGATCAGAAGCAAACCGAAGGCGGTGAGAAGCTAGGCAAAGAATCAAAAGTGACGGCTGAAAATGTTATTCAGAAGAGGGTAGGAAAGGAAAAGATTGATGGACCTGCAGATAGTCTAGATCAAAAGGCTGCAACTGAGAAATACAGCAATGCCACAAAGATAGGAAGGACAACAAAAAAGGTAGTCGATGGATATAAATCTGGGAAATACAAGCAGATTGTGAAGGACTTTATAACCCCCAAGGCTGAGGAAGACAGAAAATTGTTGTTGAATATGGGTGTGGCAGCCCTGGTAATTGTGGCACTTGGCGCTTATATGACCTACACCCATTGGCCTTCTGAAAATCTCAAGAAGCAGTAA
Protein:  
MFTPQRPPRGSTTSRSRPALRQVYQELQPTSEWKQEEGSAVLVVHVPGFTKEQVGIQIQGMDMLRVRGTRPSQPNTWIRFDKAFPIPEDCTTSGIQAKFGNGILYVTFQKKTKNITQVGSEEKQAKPTQQRDEKDSQLPSPREVSPPSASTSGGEGKREEAPSKLKSEMDEASDLKQTTSTTQGKSQTEAKSTEAPTKLKSPEDEDANLRKASTSSLGDNIGTDANNMETLSSKKAQSNKAKAEKGGEDQRVEKSTSEGSKNAENVVEKATPGEVRGKTNHDDMEKPTAAEKSEEALGKALDQKQTESSEKISKESKLTAESSAQNALGKAVDQKQTEGGEKLGKESKVTAENVIQKRVGKEKIDGPADSLDQKAATEKYSNATKIGRTTKKVVDGYKSGKYKQIVKDFITPKAEEDRKLLLNMGVAALVIVALGAYMTYTHWPSENLKKQ