Browse of TCMCG079C19058 protein

CDS

Accession Number	TCMCG079C19058
gbkey	CDS
Protein Id	XP_017430364.1
Location	join(4011114..4011143,4011498..4011567,4011991..4012141,4012232..4012389,4012886..4013151,4013240..4013458,4013549..4013657,4013743..4013858,4014083..4014181,4014821..4014930,4015899..4015973,4016413..4016491,4016574..4016720,4017508..4017588,4017716..4017835,4018895..4019017,4019488..4019565,4019661..4019749,4019837..4019945,4020230..4020298,4020375..4020485,4020715..4020770,4020911..4021088,4021170..4021271,4021348..4021419,4021624..4021689,4021845..4021910,4022091..4022177,4022308..4022424,4022581..4022655,4022763..4022849,4023015..4023056)
Gene	LOC108338146
GeneID	108338146
Organism	Vigna angularis

Protein

Length	1118aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA328963
db_source	XM_017574875.1
Definition	PREDICTED: ubiquitin carboxyl-terminal hydrolase 12-like isoform X1 [Vigna angularis]

EGGNOG-MAPPER Annotation

COG_category	O
Description	Ubiquitin carboxyl-terminal hydrolase
KEGG_TC	-
KEGG_Module	-
KEGG_Reaction	-
KEGG_rclass	-
BRITE	ko00000        [VIEW IN KEGG] ko00001        [VIEW IN KEGG] ko01000        [VIEW IN KEGG] ko01002        [VIEW IN KEGG] ko04121        [VIEW IN KEGG]
KEGG_ko	ko:K11838        [VIEW IN KEGG]
EC	3.4.19.12        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway	ko04068        [VIEW IN KEGG] ko05168        [VIEW IN KEGG] ko05169        [VIEW IN KEGG] ko05203        [VIEW IN KEGG] map04068        [VIEW IN KEGG] map05168        [VIEW IN KEGG] map05169        [VIEW IN KEGG] map05203        [VIEW IN KEGG]
GOs	-

Sequence

CDS:   ATGACTGTGATGACTCCTGCTCCTATTGATCAGCAGGAGGATGAGGAGATGCTTGTCCCACACACTGATTTGGCGGAGAATAATCACCAACCCATGGAAGTTGTGGCACAACCTGATGCTGCCAACACTGTGGAGAGCCAGCCTGTCGAGGATCCTTCATCAACAAGATTCACGTGGAAAATTGACAACTTTTCTAGAATGAATTCGAAGAAGCTGTATTCAGAAATATTTGTTGTTGGTGGATATAAATGGCGGGTACTTATTTTCCCAAAAGGGAACAATGTGGACTATTTGTCCATGTATTTGGATGTTGCAGATTCTTCTAGTTTGCCCTATGGCTGGAGTAGATACGCACAGTTTAGCTTGGCTGTTATTAATCAAATCCATAATAAATATTCTGTGAGAAAAGACACACAGCACCAATTCAATGTGCGGGAAAGTGATTGGGGTTTCACATCCTTTATGCCGCTCGGTGAATTGTATGATCCTACCAGAGGGTATCTTGTGAATGATACTCTTGTAGTTGAGGCCGAGGTTCTTGTTCGTAGAATTGTTGACTACTGGACATATGATTCAAAAAAGGAGACTGGCTATGTTGGACTTAAGAACCAGGGTGCTACATGTTATATGAATTCTCTACTCCAAACTTTATATCACATTCCTTATTTTCGAAAGGCTGTGTACCACATGCCAACAACAGAGAATGACATGCCCTCTGCAAGCATCCCTTTGGCATTGCAGAGTTTATTCTACAAGCTCCAGTATAGTGACACCAGTGTTGCAACAAAGGAGCTCACTAAATCTTTTGGATGGGATACGTATGATTCTTTCATGCAGCATGATGTTCAAGAACTGAACAGAGTCCTTTCTGAAAAACTTGAAGACAAAATGAAGGGAACTGTTGTTGAGGGAACTATACAGAAGTTATTTGAAGGACATCATATGAACTATATTGAATGCATCAATGTGGACTATAAATCAACTAGAAAGGAGTCGTTTTATGACCTTCAGCTTGATGTGAAAGGCTGTCCTGATGTATATGCTTCCTTTGACAAATATGTTGAAGTTGAACGTCTTGAAGGGGACAACAAATACCATGCTGAACAATATGGTTTGCAGGATGCTAAGAAGGGTGTCCTATTCATTGATTTCCCTCCTGTTCTTCAGCTTCAGCTGAAAAGATTTGAATATGACTTTATGCGGGATACCATGGTCAAGATTAATGACCGTTATGAGTTTCCCATGCAACTCGACCTTGATCGTGAGAATGGAAAATATTTATCACCCGAAGCTGATAGGAATGTCCGCAATCTTTACACACTTCACAGTGTTTTGGTTCATAGTGGTGGTGTACATGGTGGACATTATTACGCGTTTATCAGGCCAACTCTCTCTGAGCAGTGGTATAAATTTGATGACGAGAGGGTAACTAAAGAAGACACTAAACGGGCATTAGAGGAGCAATATGGTGGCGAGGAAGAGTTACCACAGACGAATCCTGGGTTTAACAACACTCCTTTTAAATTCACCAAATATTCAAATGCTTATATGCTGGTATATATACGGGAAGCTGACAAGGACAAAGTAATATGCAATGTGGATGAGAAAGACATCGCCGAACATTTAAGGGAGAGGTTGAAGAAAGAACAAGAAGAAAAGGAGCACAAAAAGAAAGAAAAGGCGGAGGCTCACCTTTACACTATTATAAAGGTGGCACGAGATGAAGACCTTGCAGAGCAGATTGGAAAGGATATATATTTTGATCTTGTAGACCATGACAAAGTGAGGAGTTTCCGTGTCCAAAAACAAACATCTTTTAACCTTTTTAAGGACGAGGTTGCTAAAGAGTTTAACATACCAGTTCAATTCCAGCGCTTTTGGCTGTGGGCAAAGCGGCAAAACCATACATATCGACCAAATCGACCATTGACACCCATGGAAGAAGCACAATCTGTCGGACAATTGAGAGAGGTATCAAACAAGGTTCACAATGCAGAGTTGAAATTGTTTTTGGAAGTGGAGCTTGGGCTGGATTTACGTCCTATTGCACCACCTGACAAGACAAAGGATGATATATTACTTTTCTTCAAGTTATATGATCCTGAGAAAGAGGAGCTACGTTATGTTGGAAGGCTCTTTGTGAAGAATACTGGTAAGCCATTGGAAATCTTGACGAAATTAAACAAAATGGCTGGTTATGACCCTGATGAAGAGATTGGACTATATGAGGAAATTAAGTTTGAGCCAAATGTTATGTGTGAACCTATTGATAAGAAATTAACATTTCGAGCTAGCCAGTTAGAAGATGGAGATATTATATGCTTTCAGAAAGCTCCTGCTATATACAATGAGGAACATGTCCGCTATCCAGATGTGCCATCATACCTAGAATATGTGCACAACCGCCAGGTTGTTCACTTTCGGTCTCTTGATAAACCCAAGGAAGATGACTTCTGCCTCGAGATGTCAAGGCTCTATAAATATGATGATGTAGTGGAGAGAGTGGCTCAACAACTTGGTTTGGATGATCCATCCATAATCAGGCTTACGCCACACAATTGTTACTCTCAGCAACCAAAACCCCAGCCTGTTAAGTATCGTGGTGTGGAGCATTTGTCTGAAATGCTGGTTCACTATAATCAGACTTCGGACATATTGTACTATGAAGTACTTGACATCCCTCTGCCAGAATTACAAGGTTTGAAAACTCTGAAAGTTGCATTTCACCATGCTACCAAGGATGAAGTGGTTATTCATACCATTAGGCTTCCAAAGCAGAGCACTGTGGGGGATGTCCTTGATGATCTGAAAACAAAGGTGGAATTGTCGTCCCCTGAAGCCGAGCTTAGGTTGCTTGAAGTTTTCTATCACAAGATATACAAGGTTTTCCCTCCCAATGAGAAGATTGAAAACATTAATGATCAATACTGGACTTTACGTGCAGAAGAGATTCCAGAAGAGGAGAAAAATCTTGGTCCACATGATCGCCTAATCCATGTGTATCATTTCACGAAAGATACGGCTCAGAACCAAATGCAAATTCAGAACTTTGGGGAACCCTTTTTCTTGGTCATACGTGAAGGGGAGACTTTGACTGAAATTAAAGTTCGAATACAAAAGAAACTTCAAGTTCCTGATGATGAGTTTGCAAAGTGGAAATTTGCTTTTTTTTCTTTAGGGCGTCCTGAGTACCTTCAGGATTCTGACATTGTATCCAATCGTTTTCAGAGGAGAGATGTGTATGGTGCTTGGGAGCAGTATCTTGGCTTGGAGCATACTGATAATGCTCCAAAAAGATCATATGCTGTCAACCAGAATCGCCATACTTTTGAGAAGCCAGTAAAGATTTATAATTAG

Protein:   MTVMTPAPIDQQEDEEMLVPHTDLAENNHQPMEVVAQPDAANTVESQPVEDPSSTRFTWKIDNFSRMNSKKLYSEIFVVGGYKWRVLIFPKGNNVDYLSMYLDVADSSSLPYGWSRYAQFSLAVINQIHNKYSVRKDTQHQFNVRESDWGFTSFMPLGELYDPTRGYLVNDTLVVEAEVLVRRIVDYWTYDSKKETGYVGLKNQGATCYMNSLLQTLYHIPYFRKAVYHMPTTENDMPSASIPLALQSLFYKLQYSDTSVATKELTKSFGWDTYDSFMQHDVQELNRVLSEKLEDKMKGTVVEGTIQKLFEGHHMNYIECINVDYKSTRKESFYDLQLDVKGCPDVYASFDKYVEVERLEGDNKYHAEQYGLQDAKKGVLFIDFPPVLQLQLKRFEYDFMRDTMVKINDRYEFPMQLDLDRENGKYLSPEADRNVRNLYTLHSVLVHSGGVHGGHYYAFIRPTLSEQWYKFDDERVTKEDTKRALEEQYGGEEELPQTNPGFNNTPFKFTKYSNAYMLVYIREADKDKVICNVDEKDIAEHLRERLKKEQEEKEHKKKEKAEAHLYTIIKVARDEDLAEQIGKDIYFDLVDHDKVRSFRVQKQTSFNLFKDEVAKEFNIPVQFQRFWLWAKRQNHTYRPNRPLTPMEEAQSVGQLREVSNKVHNAELKLFLEVELGLDLRPIAPPDKTKDDILLFFKLYDPEKEELRYVGRLFVKNTGKPLEILTKLNKMAGYDPDEEIGLYEEIKFEPNVMCEPIDKKLTFRASQLEDGDIICFQKAPAIYNEEHVRYPDVPSYLEYVHNRQVVHFRSLDKPKEDDFCLEMSRLYKYDDVVERVAQQLGLDDPSIIRLTPHNCYSQQPKPQPVKYRGVEHLSEMLVHYNQTSDILYYEVLDIPLPELQGLKTLKVAFHHATKDEVVIHTIRLPKQSTVGDVLDDLKTKVELSSPEAELRLLEVFYHKIYKVFPPNEKIENINDQYWTLRAEEIPEEEKNLGPHDRLIHVYHFTKDTAQNQMQIQNFGEPFFLVIREGETLTEIKVRIQKKLQVPDDEFAKWKFAFFSLGRPEYLQDSDIVSNRFQRRDVYGAWEQYLGLEHTDNAPKRSYAVNQNRHTFEKPVKIYN