CDS
| Accession Number | TCMCG058C07125 |
| gbkey | CDS |
| Protein Id | KAF7126452.1 |
| Location | join(31052758..31052851,31054426..31055019,31055389..31055475,31055561..31055631,31055806..31055882,31056006..31056147,31056430..31056591,31057380..31057569,31059189..31059260,31059934..31060031,31060137..31060187,31060446..31060559,31060651..31060851,31060932..31061033,31061309..31061416,31061499..31061732,31062071..31062321,31062462..31062633,31062746..31062901,31062992..31063042,31063877..31064017,31064101..31064304,31064407..31064538,31064626..31064799,31065175..31065414,31065968..31066162) |
| Organism | Rhododendron simsii |
| locus_tag | RHSIM_Rhsim11G0176000 |
Protein
| Length | 1370aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA588298, BioSample:SAMN13241185 |
| db_source | WJXA01000011.1 |
| Definition | hypothetical protein RHSIM_Rhsim11G0176000 [Rhododendron simsii] |
| Locus_tag | RHSIM_Rhsim11G0176000 |
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: ATGATAGTCTTCTTTGTGTCTTGTTGCAGAAAGAAGAAGAGAAAGCCACATGATCAGATGAACTACTATAGGGACAATTCTCATGGACACAAAAGTATTGAATTGCAGTGGTTTCTTTTACTAACCAAAGTTTCCACCGCAGGTAGTGAGTACTACAACAGTGGCCAACATGGACAACGCTGGAACGCTGCCACCAGTGGGGAGCACGCCGTTAAGATACCCCCACCGCCTGGTTCAGTTAGTTCCGAACAGTGGCCAGCGATAGCCCCCCCACCACCGCCGCCAATGATGAGCAGCAGCGAGATGAGTTCTACCGGTTTCTCCGGTCCGCACCAGGCACCACTACCGCCGCCCCACCCTGCCCTTGCTCTCGGGTTTAACAAGAGCACATTCACCTATGAAGAGCTAGCGGCGGCGACTGGTGGCTTTGCCAAGGGTAATCTGTTGGGACAAGGTGGGTTTGGGTATGTTCACAAAGGGGTGTTGCCTAATGGCAAGGAGATAGCAGTGAAGAGTCTGAAATCTGGTAGTGGGCAAGGGGAGAGAGAGTTCCAGGCAGAGGTTGACATTATTAGTCGCGTCCATCACCGTCATCTTGTGTCACTTGTGGGGTATTGCATGGCGGATACTCAAAGGATGTTGGTTTACGAATTCGTTCCCAATAACTCACTTGAATATCACCTCCACGGAAAGGATCACCCAAACATGGATTTTCAAGCTAGGCTCAAAATTGCATTGGGATCAGCCAAAGGATTTGCTTACCTTCATGAGGACTGCCACCCTCGCATAATCCACCGTGACATCAAAGCTGCTAATATCCTCCTTGACTACAATTATGAAGCCAAGGTGGCAGATTTTGGATTGGCTAAACTTTCCAATGACACCAACACCCATGTGTCAACACGTATTATGGGGACCTTTGGGTACTTGGCACCTGAGTATGCATCAAGTGGCAAGCTAACTGATAAGTCTGATGTCTATTCATATGGCATTGTGCTCTTGGAACTGATCACCGGGCGACGCCCAGTGGACATCAGCAGCGACGAAGACAGCTTAGTAGACTGGGCTAGGCCAATTCTAATGCGTGTGACTGAAGGTGGAAGCTATGAAGAGTTGGTGGATCCATGCTTGGGAAATGACTACAATCCCCAGGAGATGTTGCGCATGGTAGCTTGTGCTGCTGCTTGCATTAGGCATTCTGCAAGGAGGCGCCCAAAGATGAGCCAGATTGTACGTGCTTTGGAAGGTGATGTGTCACTGGAGGACTTGAACGAAGGGGTGAAACCAGGCCACAGTGCAATCTTTGGCTCCAGCGGCAGTTCTGAGTACGACAGTTCGTACCATTCTGATGTGAAGAGGTTTAGGAAAGGGGCAATGTCAAGCCAGGAGTTCACCAGCAGCGAGCATGGAGTCACAGATCTCCGCAGCCCCGTGGATCTCTCAATGGCCCAACCTCTCGTGAAGAAGGACGACGACCGAGACGACGAAGCGGAGTACTCTCCATTTCTCGGGATCGAGAAGGGCGCAGTCCTTCAAGAAGCTAGGGTTTTCAATGATCCTCAACTTGATCCAAGGCGATGCTCGCAGGTCATTACGAAGCTTCTGTACCTTCTGAATCAAGGAGAAACATTTACGAAGGTTGAAGCTACAGAGGTATTCTTCGCAACAACAAAGCTTTTTCAATCAAGAGATATTGGATTGAGGAGAATGGTTTATTTGATGATAAAGGAGCTCTCTCCCTCTGCTGATGAGGTTATTATTGTCACAAGTTCACTTATGAAGGACATGAATAGCAAGACTGATATGTATCGGGCAAATGCTATACGTGTCCTTTGTCGTATCACGGATGGAACGCTTCTAACACAAATTGAGAGATACTTGAAGCAAGCCATTGTTGACAAAAATCCTGTGGTTGCTAGTGCAGCCCTGGTTAGTGGAATCCATTTACTCCAGACAAATCCAGAGATTGTGAAAAGGTGGAGTAACGAGGTAACAGAAGCTGTTCAATCAAGGTCAGCACTCGTGCAGTTCCATGCCCTTGCTCTGCTTCACCAGATCCGGCAAAATGACCGATTAGCTGTAAGCAAGCTAGTTTCCAGCTTAACTAAAGGAACTGTTCGTTCACCTTTGGCTCAGTGTCTGTTAATTCGTTACACTAGTCAGGTTATCAGGGAATCTATGATGAACAACCAGGCTGGGGACCGTCCATTTTATGAGTTTCTTGAGAATTGTCTTCGACACAAAGCTGATATGGTTATTTTTGAGGCAGCTAGAGCAATCACGGAATTCAGTGGTGTGACAACTAGAGAACTGACCCCAGCAATTACTGTTCTACAACTCTTCTTAAGTTCTTCCAAGCCAGTGCTTCGCTTTGCTGCAGTCCGTATTTTGAACAAGGTGGCAATGACCCATCCAATGGCTGTAACAAATTGCAATATAGATATGGAGAGCTTGATTTCCGATCAAAATAGAAGCATAGCTACTCTAGCCATCACCACTCTGCTGAAAACTGGCAATGAGTCAAGTGTAGACCGCTTGATGAAACAAATTACCAATTTTATGTCTGACATTGCTGATGAATTTAAGATTGTTGTAGTGGAAGCCATCAGATCTTTGTGTTTGAAATTCCCACTCAAGTATAGATCCCTGATGAATTTCTTGAGCAATATTTTGAGGGAAGAAGGTGGTTTTGATTACAAGAAAGCGATCGTTGATTCTATCGTTATCTTAATAAGAGACATCCCAGATGCAAAAGAAAGTGGGTTGCTTCACCTATGTGAATTTATAGAGGATTGTGAATTCACCTATCTTTCTACACAGATTCTCCATTTCCTTGGAATCGAGGGGCCAAAGACATCAGATCCCAGTAAATATATTCGGTACATTTACAATCGAGTAATCCTTGAGAATGCGACTGTTCGGGCCAGTGCTGTCAGCACATTAGCTAAGTTTGGTTGCATAGTTGATTCCTTGAAACCTCGTATATTTGTTTTGTTGAGACGCTGTCTCTTTGACAGTGATGATGAGGTTCGTGATAGGGCTACGCTATATCTGAATATGCTTGGGGGTGAGGGTGGAGTTGTTGAAACTGATCAAGATGTGAAGGACTTCCTCTTTGGGTCATTGGATATGCCGCTGGTCAACCTTGAGACAAGTTTGAAGAATTATGTTCAGGAGCCTTCAGAAGAGCCTTTTGATATTGATTCTGTACCTAAGGAGGTTAAATCTCAGCCACTTGCTGAGAAGAAAGCCCCTGGTAAAAAGCCAACTGGCTTAGGTGCTGCTCCAGCTGGCCCCACGTCAACTATTGATACTTATGAGAAGATGCTCTCTTCTATCCCAGAGTTCTCAAGCTTTGGGAAGCTTTTCAAGTCTTCACCACCCGTGGAGCTTACAGAGGCTGAAACAGAATATGCAGTCAACGTTGTTAAGCACATTTTCGATAGGCATGTGGTGTTCCAGTACAACTGCACAAATACAGTTCCTGAGCAATTACTGGAAAATGTTTCCGTGATAGTGGATGCCTCTGAAGCGGAGGAATTTTCTGAAGTATCAACAAAGTCTTTAAGATCTCTTCCATATGATTCACCAGGACAGACATTTGTAGCATTTGAGAAGCCAGATGGAATCCCTGCTGTTGGAAAGTTTTCCAACACGTTGAAGTTTGTTGTAAAAGAGGTTGATCCAACCACGGGCGACGCTGAGGACGATGGTGTGGATGATGAATACAAGCTGGAGGACCTTGAGGTTGTTGCAGCGGATTATGTATTAAAAGTCGGGGTCTCTAATTTCAGGAATGCTTGGGAAAGCATGGGCCCAGATTATGAGCGGGTGGATGAATATGGTCTTGGTGCAAGGGAAAGCTTGGCAGAAGCCGTCAATACGGTCATAGGCCTTCTTGGCATGCAGCCCTGTGAGGGTACAGAGGTGGTCCCACCGAACTCGAGATCGCACACTTGCTTATTGTCTGGTGTTTACATGGGCAACTTAAAGGTTCTAGTTCGGCTGTCGTTCGGTATTGACGGGCCAAAAGAAGTTGCAATGAAGCTTGCCGTTAGATCCGAGGATGAATCTGTCAGCGATGCTATTCACGAAATTGTAGCAAGCGGCTAG |
| Protein: MIVFFVSCCRKKKRKPHDQMNYYRDNSHGHKSIELQWFLLLTKVSTAGSEYYNSGQHGQRWNAATSGEHAVKIPPPPGSVSSEQWPAIAPPPPPPMMSSSEMSSTGFSGPHQAPLPPPHPALALGFNKSTFTYEELAAATGGFAKGNLLGQGGFGYVHKGVLPNGKEIAVKSLKSGSGQGEREFQAEVDIISRVHHRHLVSLVGYCMADTQRMLVYEFVPNNSLEYHLHGKDHPNMDFQARLKIALGSAKGFAYLHEDCHPRIIHRDIKAANILLDYNYEAKVADFGLAKLSNDTNTHVSTRIMGTFGYLAPEYASSGKLTDKSDVYSYGIVLLELITGRRPVDISSDEDSLVDWARPILMRVTEGGSYEELVDPCLGNDYNPQEMLRMVACAAACIRHSARRRPKMSQIVRALEGDVSLEDLNEGVKPGHSAIFGSSGSSEYDSSYHSDVKRFRKGAMSSQEFTSSEHGVTDLRSPVDLSMAQPLVKKDDDRDDEAEYSPFLGIEKGAVLQEARVFNDPQLDPRRCSQVITKLLYLLNQGETFTKVEATEVFFATTKLFQSRDIGLRRMVYLMIKELSPSADEVIIVTSSLMKDMNSKTDMYRANAIRVLCRITDGTLLTQIERYLKQAIVDKNPVVASAALVSGIHLLQTNPEIVKRWSNEVTEAVQSRSALVQFHALALLHQIRQNDRLAVSKLVSSLTKGTVRSPLAQCLLIRYTSQVIRESMMNNQAGDRPFYEFLENCLRHKADMVIFEAARAITEFSGVTTRELTPAITVLQLFLSSSKPVLRFAAVRILNKVAMTHPMAVTNCNIDMESLISDQNRSIATLAITTLLKTGNESSVDRLMKQITNFMSDIADEFKIVVVEAIRSLCLKFPLKYRSLMNFLSNILREEGGFDYKKAIVDSIVILIRDIPDAKESGLLHLCEFIEDCEFTYLSTQILHFLGIEGPKTSDPSKYIRYIYNRVILENATVRASAVSTLAKFGCIVDSLKPRIFVLLRRCLFDSDDEVRDRATLYLNMLGGEGGVVETDQDVKDFLFGSLDMPLVNLETSLKNYVQEPSEEPFDIDSVPKEVKSQPLAEKKAPGKKPTGLGAAPAGPTSTIDTYEKMLSSIPEFSSFGKLFKSSPPVELTEAETEYAVNVVKHIFDRHVVFQYNCTNTVPEQLLENVSVIVDASEAEEFSEVSTKSLRSLPYDSPGQTFVAFEKPDGIPAVGKFSNTLKFVVKEVDPTTGDAEDDGVDDEYKLEDLEVVAADYVLKVGVSNFRNAWESMGPDYERVDEYGLGARESLAEAVNTVIGLLGMQPCEGTEVVPPNSRSHTCLLSGVYMGNLKVLVRLSFGIDGPKEVAMKLAVRSEDESVSDAIHEIVASG |