CDS
| Accession Number | TCMCG073C37584 |
| gbkey | CDS |
| Protein Id | XP_010523658.1 |
| Location | complement(join(10322..10411,10485..10723,10850..11111,11189..11320,11814..11978,12078..12148,12603..12816,12906..13091,13500..13592,13697..14264,14382..14509,14589..14710,14831..14873,15133..15252,15336..15433,15562..15619,15696..15801,15910..15946,16055..16151,16383..16505,16607..16661,17471..17787)) |
| Gene | LOC104801971 |
| GeneID | 104801971 |
| Organism | Tarenaya hassleriana |
Protein
| Length | 1107aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA268022 |
| db_source | XM_010525356.2 |
| Definition | PREDICTED: protein transport protein SEC31 homolog B-like isoform X1 [Tarenaya hassleriana] |
EGGNOG-MAPPER Annotation
| COG_category | U |
| Description | Protein transport protein SEC31 homolog |
| KEGG_TC | - |
| KEGG_Module |
M00404
[VIEW IN KEGG] |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko00002 [VIEW IN KEGG] ko04131 [VIEW IN KEGG] |
| KEGG_ko |
ko:K14005
[VIEW IN KEGG] |
| EC | - |
| KEGG_Pathway |
ko04141
[VIEW IN KEGG] map04141 [VIEW IN KEGG] |
| GOs |
GO:0005575
[VIEW IN EMBL-EBI] GO:0005622 [VIEW IN EMBL-EBI] GO:0005623 [VIEW IN EMBL-EBI] GO:0005737 [VIEW IN EMBL-EBI] GO:0005829 [VIEW IN EMBL-EBI] GO:0005911 [VIEW IN EMBL-EBI] GO:0009506 [VIEW IN EMBL-EBI] GO:0016020 [VIEW IN EMBL-EBI] GO:0030054 [VIEW IN EMBL-EBI] GO:0044424 [VIEW IN EMBL-EBI] GO:0044444 [VIEW IN EMBL-EBI] GO:0044464 [VIEW IN EMBL-EBI] GO:0055044 [VIEW IN EMBL-EBI] |
Sequence
| CDS: ATGGCGTGCATAAAGGAGGTGAGCAGATCCGCCTCCGTGGCGCTGTCTCCGGACGCTCCGTACATGGCGGCCGGGACCATGGCAGGGGCTGTGGATCTGTCGTTTAGTTCGTCCGCCAATCTCGATATCTTCAAGGTCGACTTCCAGTCGGACGATCGGGAGCTGATACTGGTGGGCGAGTGCCCCAGCTCCGAACGTTTCAATCGCCTCGCGTGGGGAAGAAATGGATCCGGCTCTGACGAACTTTCCCTTGGTCTCATCGCCGGTGGCCTTGTCGATGGGAATATTGATATTTGGAATCCATTCTCTCTGATCCGTTCTCAGTCTGGCGAAAGTATGCTTGTTGGACATCTTCAAATACATAAAGGGCCTGTCCGTGGTCTCGAGTTTAACGCTATAACACCAAACCTGCTTGCTTCTGGTGCTGATGATGGTGAGATTTGCATTTGGGATCTTGCTAAGCCTTCGGAGCCTTCTCAGTTTCCTGTTCTGAAGGGTAGTAGTTCTGCTGCACAAGGTGAAATTTCTTTTTTATCGTGGAACAGAAAGGTTCAACAAATATTAGCATCCACCTCATATAATGGGACAACTGTGGTCTGGGACTTGAGGAAGCAGAAGCCTGTAATTAGCTTTGCAGATTCTGTTCGACGACGGTGCTCAGTTTTGCAGTGGAATCCTGATATTGCAACTCAGATTATTGTTGCATCAGATGATGATAGTTCTTCTACTCTGAAGCTTTGGGACATGAGGAATACAATGTCACCCATGAAAGAGTTTGTCGGCCACACGAGAGGCGTGATTGCAATGGAGTGGTGCCCAAGTGACAGCTCGTATCTTCTTACCTGTGCTAAAGACAACCGTACTATTTGTTGGGACACAAATACAGCAGAGATTGTAGCTGAGTTACCTGCTGGCAACAATTGGAATTTTGATGTTCATTGGTACCTAAATATACCTGGAGTTATATCAGCATCTTCATTTGACGGGAAAATAGGCATCTACAACATTGAGGGTTGCAGCCGCTGTGGTGCTGGAGAGAACTATTTTGGTGCTGCTCCCCTAAGAGCACCAAAATGGTACAAGCGACCTGTTGGTGCATCTTTTGGCTTTGGCGGAAAGCTTGTTTCATTTAACCAAAAGCTTCCTCAAAAGGGTGCTTCGAACAATGCATCTGAGGTATTTTTGCATACTCTGGTCATGGAACAAAGTTTGGTGAATCATTCTTCTGAATTTGAAGATGCACTAGAGAAAGGAGACAAGTTTTCTCTAAGGGTTTTGTGTGAGAAGAAATCTCATGAGTCTGAATCTAGTGAGGAAAAGGAGACATGGGGCTTGTTGAAAACTATGTTTGAAGATGAAGGAACTACAAGAACGAAGTTGCTTAATCATCTGGGCTTTAGCTTGCTTTCTGAGGAGAAGGATAAAGCAGTAGACGGACTTTCTTCAGATCTGAATGGCACTCAGTTGGATGACACTGTGGAACAAGATGCAATGGAGCCTGAGTACAATAAAGAGGCGGCTGTATTTGGTATGGATAATGGTGAAGACTTCTTCAACAATCTTCCAAGTCCTAAGACTGATACTCCTGTATCAACATCTGCTGCGGACTTTACTCCCCCAGCTACTGGTTATGGTGCAAACATAGAAGAGATTCAACAAATACCAGAAGACGAAGAAGAAATCTCTGATCCAGTATTTGATGATACTCTCCAACGTGCTTTAGTTGTAGGGGATTACAAGGAAGCGGTAGCTCAGTGTATATCTGCAAATAAGTTCGCTGATGCTTTAGTCATTGCTCATGTTGGCGGCGCTGCACTGTGGGAGAGTACTCGTAATAGATATCTGAAGATGAGCTGTGCACCTTACATGAAGGTTGTTTCTGCGATGGTGAACAATGATCTCATGACCCTTGTTCACACCAGGCCACCAAAGTTCTGGAAAGAAACTCTTGCTCTCCTTTGTAGTTTTGCACAAGGAGATGAATGGACCAGTCTCTGTGATGCTCTCGCCTCAAAGTTGATGGCTGCCGGTAATACTTTGGCTGCAACTTTGTGCTATATTTGCGCAAATAATGTTGACAAAACAGTAGAAATTTGGTCAAGCAGCCTTGTAAATGAGCGTGATGGAAAATCTTATGCTGAGGTTCTTCAAGATTTTATGGAGAAGACCCTTGTTCTTGCCTTGGCAACCGGGAACAAAAGATTCAGCACATCCCTCTGCAAGCTTTTTGAGAGTTACTCTGAGATTTTGGCCTGTCAGGGGCGTCTAATGACGGCGATGAAGTGTTTGAAAGTTCTGGAGTCTGGTGGCTTGTCACCTGAACTTTCAATCTTACGGGATCGGATTGCCCTGTCTGCAGAACCTGGTGCTGTTGTAGATACTCAAAATGCTAGTTCGATTGACCCTCATCCTGAAAGCCCACTGCCATATCATCAGAAAGCAACTCAAATGACACCAAGTGTTCCTGGTAGTCCATACGATAATCAGTATCAACAACAGTACAATGATTCTTATGCGGGAGGGATTGTCCCTTCAAGTTCGCATCCACCTATGCAGCAGCCGTCCATGTTTATGCCTAACCAAGCTCAGCCTGATCCACAGCCATCTTTCGTTCCTGCTCCTGTAAGCAATGCTCAGCAATCCATGAGAACTACTTTTGTTCCTTCAACTCCTCCTGCTCTAAAGAACGTCGAGCAATATCAGCAGCCAACCATGGGTTCTCATTTGTTTACTGGTTCTGGTAACACTGCTCCCCCAGGTCCTGGTCCACATGGATCGGCTGCTTCACAAGTTGGTCATTTTCCTACCCCAAAGATGCACCAAGTAGTTGCTCCAACGACAACACCTATGGGGTTTATGCCAATGGCAACTCCAGGAGTCGCTCCAAGAACTGGAGTGGGTTCGGTGCAGCTAGTAAGTGGTTCTTCACAGCAAGCAGATGCACAACCAGCTCCACCGCCAACTGTTCAGACTGCAGATACTTCCAACGTGCCAGCCCACCAGAAACCCATAATAGCAACACTGACAAGGCTTTTCAGCGAGACATCAGAAGCATTAGGAGGAACACGTGCTAATCCAGTGAAAAAACGTGAAATAGAAGACAACTCGAGGAAATTAGGGGCTCTGTTTGTGAAACTCAACAGTGGAGACATCTCAAAGAATGTGGCAGACAAACTGGCGCAGCTCTGTCAAGCTCTGGACAAGCATGATTTCAGCGGAGCACTACAGATACAGGTGTTGCTAACGACCAGCGAATGGGATGAATGCAACTTCTGGCTGGCCACACTGAAGCGGATGATCAAGACCAGGCAAAATGTGCGGTGA |
| Protein: MACIKEVSRSASVALSPDAPYMAAGTMAGAVDLSFSSSANLDIFKVDFQSDDRELILVGECPSSERFNRLAWGRNGSGSDELSLGLIAGGLVDGNIDIWNPFSLIRSQSGESMLVGHLQIHKGPVRGLEFNAITPNLLASGADDGEICIWDLAKPSEPSQFPVLKGSSSAAQGEISFLSWNRKVQQILASTSYNGTTVVWDLRKQKPVISFADSVRRRCSVLQWNPDIATQIIVASDDDSSSTLKLWDMRNTMSPMKEFVGHTRGVIAMEWCPSDSSYLLTCAKDNRTICWDTNTAEIVAELPAGNNWNFDVHWYLNIPGVISASSFDGKIGIYNIEGCSRCGAGENYFGAAPLRAPKWYKRPVGASFGFGGKLVSFNQKLPQKGASNNASEVFLHTLVMEQSLVNHSSEFEDALEKGDKFSLRVLCEKKSHESESSEEKETWGLLKTMFEDEGTTRTKLLNHLGFSLLSEEKDKAVDGLSSDLNGTQLDDTVEQDAMEPEYNKEAAVFGMDNGEDFFNNLPSPKTDTPVSTSAADFTPPATGYGANIEEIQQIPEDEEEISDPVFDDTLQRALVVGDYKEAVAQCISANKFADALVIAHVGGAALWESTRNRYLKMSCAPYMKVVSAMVNNDLMTLVHTRPPKFWKETLALLCSFAQGDEWTSLCDALASKLMAAGNTLAATLCYICANNVDKTVEIWSSSLVNERDGKSYAEVLQDFMEKTLVLALATGNKRFSTSLCKLFESYSEILACQGRLMTAMKCLKVLESGGLSPELSILRDRIALSAEPGAVVDTQNASSIDPHPESPLPYHQKATQMTPSVPGSPYDNQYQQQYNDSYAGGIVPSSSHPPMQQPSMFMPNQAQPDPQPSFVPAPVSNAQQSMRTTFVPSTPPALKNVEQYQQPTMGSHLFTGSGNTAPPGPGPHGSAASQVGHFPTPKMHQVVAPTTTPMGFMPMATPGVAPRTGVGSVQLVSGSSQQADAQPAPPPTVQTADTSNVPAHQKPIIATLTRLFSETSEALGGTRANPVKKREIEDNSRKLGALFVKLNSGDISKNVADKLAQLCQALDKHDFSGALQIQVLLTTSEWDECNFWLATLKRMIKTRQNVR |