CDS

Accession Number TCMCG051C28611
gbkey CDS
Protein Id XP_024464525.1
Location join(9737994..9738039,9738551..9738645,9738749..9738799,9738986..9739099,9739199..9739399,9739486..9739587,9739997..9740104,9740191..9740421,9740758..9741008,9741130..9741301,9741403..9741558,9741677..9741727,9741965..9742105,9742179..9742376,9742495..9742626,9742706..9742879,9743164..9743403,9743902..9744096)
Gene LOC7464033
GeneID 7464033
Organism Populus trichocarpa

Protein

Length 885aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA17973
db_source XM_024608757.1
Definition coatomer subunit gamma isoform X2 [Populus trichocarpa]

EGGNOG-MAPPER Annotation

COG_category U
Description The coatomer is a cytosolic protein complex that binds to dilysine motifs and reversibly associates with Golgi non- clathrin-coated vesicles, which further mediate biosynthetic protein transport from the ER, via the Golgi up to the trans Golgi network. Coatomer complex is required for budding from Golgi membranes, and is essential for the retrograde Golgi-to-ER transport of dilysine-tagged proteins
KEGG_TC -
KEGG_Module -
KEGG_Reaction -
KEGG_rclass -
BRITE ko00000        [VIEW IN KEGG]
ko04131        [VIEW IN KEGG]
ko04147        [VIEW IN KEGG]
KEGG_ko ko:K17267        [VIEW IN KEGG]
EC -
KEGG_Pathway -
GOs -

Sequence

CDS:  
ATGGCACAACCTCTCGTGAAAAAAGACGATGATCACGACGATGAAGAGTACTCTCCGTTTTTGGGGATTGAGAAGGGCGCTGTTCTTCAGGAAGCTAGGGTTTTTAATGATCCTCAACTTGATCCGAGAAGATGCTCTCAGGTTATCACAAAGCTTCTTTATCTACTGAACCAAGGAGATTACTTCACCAAGACTGAAGCCACAGAAGTTTTCTTTTCCGTGACAAAGCTTTTCCAGTCGAAAGATTTTGGTTTGAGGAGAATGGTTTATTTGATTATAAAGGAATTATCGCCATCAGCAGATGAGGTTATTATTGTCACAAGCTCCCTAATGAAGGACATGAATAGCAAGACTGATATGTACCGAGCAAATGCCATTCGTGTGCTTTGTCGGATAACAGATGGAACCCTTCTTACCCAGATCGAACGATATCTGAAACAAGCAATAGTTGACAAGAATCCAGTAGTTGCTAGTGCAGCCTTGGTCAGTGGGATTCATTTACTCCAGACGAACCCAGAGATTGTCAAAAGGTGGAGTAATGAGGTTCAAGAAGCTGTACAGTCAAGGGCTGCCCTTGTACAATTTCATGCACTGGCTTTGCTCCAGCAGATACGACAGAACGATCGACTTGCTGTTAGTAAGTTGGTTACTAGTTTGACTAGGGGAACTGTTCGCTCACCAATGGCTCAATGCCTCTTAATACGTTATGCTAGTCAGGTTATTCGTGAGTCAGCTAACACACAAACAGGGGACCGTCCTTTCTATGATTTTCTGGAGAGTTGTCTGCGCCATAAGGCTGAAATGGTGATATTTGAGGCTGCCAGAGCAATTACAGAGCTCAGTGGTGTGACAAACCGAGAATTGACTCCAGCGATCACTGTTCTCCAGCTCTTCTTGAGTTCGTCCAAGCCTGTGCTGAGATTTGCAGCTGTCCGTACTTTGAACAAGGTGGCCATGACTCATCCCATGGCTGTCACAAACTGCAACATTGATATGGAGAGCTTAATTTCTGACCAGAACAGAAGCATTGCCACTCTTGCAATCACCACTCTACTTAAGACAGGAAATGAATCAAGTGTGGATCGCTTGATGAAGCAGATAACAAATTTCATGTCAGATATAGCTGATGAGTTCAAAATTGTTGTTGTGGAAGCCATAAGGTCACTGTGTTTGAAGTTTCCCTTGAAGTATAGATCATTGATGAACTTTTTAAGCAACATTCTCAGGGAGGAAGGAGGATTTGAGTACAAAAAGGCTATTGTAGATTCAATTGTGATCCTTATCAGAGATATCCCTGAAGCAAAGGAAAGTGGTTTACTTCATTTGTGTGAATTTATTGAAGATTGTGAATTTACCTATCTATCCACACAGATACTCCACTTTCTGGGGATTGAAGGCCCAAAGACCACAGATCCCAGCAAATACATACGCTATATCTACAACCGTGTGCATCTTGAGAATGCTACTGTCCGGGCTGCTGCTGTGAGCACTCTGGCAAAATTTGGTGCTATGGTTGACGCACTGAAGCCACGAATTTTTGTCCTGTTGAGGCGCTGTATCTTTGACAGTGATGATGAGGTTCGTGATAGAACAACACTTTATCTCAGCACACTTGGGGGTGATGGTGAAGTGGTTGAAACTGATAGAGACACAAAGACTTTTCTCTTTGGAGACCTGGATATCCCTCTTGTGAATCTGGAGACAAGTTTGAAAAATTATGAGCCTTCTGAAGAGCCTTTTGATATTGATTCTGTTCCAAAAGAAGTCAAGTCTCAGCCGCTTGCTGAGAAGAAAGCCCCAGGCAAAAAGCCAACTGGTCTTGGTGCTCCTCCGGCTGGTCCTCCATCTACCGTTGATGCTTACGAAAGGCTTCTTTCCTCTATTCCAGAGTTTTCGGACTTTGGGAAGCCTTTCAAGTCCTCGGCACCTGTGGAGCTTACAGAAGCAGAAACAGAATATGCAGTTAATGTTGTTAAGCACATATTTGATAGGCATGTCGTGTTCCAGTACAACTGCACCAACACGATTCCTGAGCAATTATTGGAAAATGTCTCTGTTATTGTGGATTCGTCAGAAGCGGATAACTTTGCAGAAGTAGCATCCAAGCCTTTACGATCTCTTCCTTATGATACACCTGGACAAACCTTTGTGGCATTTGAGAAGCCTAAGGGAATCACTGCTGTAGGAAAGTTTTCAAACACATTGAGGTTCATTGTTAAAGAGGTTGATCCAACTACTGGTGAGGCAGAGGAGGATGGCGTTGAAGATGAATACCAACTGGAGGACCTTGAGGTTGTTGCAGCAGATTACATGATGAAGGTCGGAGTCTCCAATTTCAGGAATGCTTGGGAAAGCATGGGAGATGAATTTGAGCATGTGGATGAATATGGCCTTGGCCCAAGGGAGAACTTGGCTGAAGCTGTTATCGCTGTCATCAACCTTCTTGGGATGCAGCCTTGTGAGGGAACAGAGGTTGTTGCAACCAATTCAAGGTCACACACGTGTCTACTATCTGGTGTTTTCCTAGGCAACGTGAGGGTGCTTGCACGGTTGCAGTTTGGAATTCATGGTTCTAGGGATGTTGCAATGAAACTGGCTGTTAGATCTGAGGATGAAGCCGTCAGTGATACCATTCACGAGATTGTATCAAGCGGCTGA
Protein:  
MAQPLVKKDDDHDDEEYSPFLGIEKGAVLQEARVFNDPQLDPRRCSQVITKLLYLLNQGDYFTKTEATEVFFSVTKLFQSKDFGLRRMVYLIIKELSPSADEVIIVTSSLMKDMNSKTDMYRANAIRVLCRITDGTLLTQIERYLKQAIVDKNPVVASAALVSGIHLLQTNPEIVKRWSNEVQEAVQSRAALVQFHALALLQQIRQNDRLAVSKLVTSLTRGTVRSPMAQCLLIRYASQVIRESANTQTGDRPFYDFLESCLRHKAEMVIFEAARAITELSGVTNRELTPAITVLQLFLSSSKPVLRFAAVRTLNKVAMTHPMAVTNCNIDMESLISDQNRSIATLAITTLLKTGNESSVDRLMKQITNFMSDIADEFKIVVVEAIRSLCLKFPLKYRSLMNFLSNILREEGGFEYKKAIVDSIVILIRDIPEAKESGLLHLCEFIEDCEFTYLSTQILHFLGIEGPKTTDPSKYIRYIYNRVHLENATVRAAAVSTLAKFGAMVDALKPRIFVLLRRCIFDSDDEVRDRTTLYLSTLGGDGEVVETDRDTKTFLFGDLDIPLVNLETSLKNYEPSEEPFDIDSVPKEVKSQPLAEKKAPGKKPTGLGAPPAGPPSTVDAYERLLSSIPEFSDFGKPFKSSAPVELTEAETEYAVNVVKHIFDRHVVFQYNCTNTIPEQLLENVSVIVDSSEADNFAEVASKPLRSLPYDTPGQTFVAFEKPKGITAVGKFSNTLRFIVKEVDPTTGEAEEDGVEDEYQLEDLEVVAADYMMKVGVSNFRNAWESMGDEFEHVDEYGLGPRENLAEAVIAVINLLGMQPCEGTEVVATNSRSHTCLLSGVFLGNVRVLARLQFGIHGSRDVAMKLAVRSEDEAVSDTIHEIVSSG