CDS
| Accession Number | TCMCG079C17542 |
| gbkey | CDS |
| Protein Id | XP_017426964.1 |
| Location | complement(join(7582100..7582293,7583296..7583441,7584086..7584241,7584416..7584518,7584664..7584819,7586274..7586382,7586507..7586700,7586938..7587058,7587156..7587243,7587915..7587984,7588076..7588196,7589015..7589182,7593113..7593298,7593500..7593586,7593708..7593850,7594007..7594175,7594460..7594555,7595151..7595233,7596604..7596721,7596823..7596960,7597043..7597111,7597285..7597585,7598072..7598220)) |
| Gene | LOC108335454 |
| GeneID | 108335454 |
| Organism | Vigna angularis |
Protein
| Length | 1054aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA328963 |
| db_source | XM_017571475.1 |
| Definition | PREDICTED: alpha-glucosidase 2 isoform X1 [Vigna angularis] |
EGGNOG-MAPPER Annotation
| COG_category | GMO |
| Description | Belongs to the glycosyl hydrolase 31 family |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction |
R00028
[VIEW IN KEGG] R00801 [VIEW IN KEGG] R00802 [VIEW IN KEGG] R06087 [VIEW IN KEGG] R06088 [VIEW IN KEGG] |
| KEGG_rclass |
RC00028
[VIEW IN KEGG] RC00049 [VIEW IN KEGG] RC00077 [VIEW IN KEGG] |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] |
| KEGG_ko |
ko:K01187
[VIEW IN KEGG] |
| EC |
3.2.1.20
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko00052
[VIEW IN KEGG] ko00500 [VIEW IN KEGG] ko01100 [VIEW IN KEGG] map00052 [VIEW IN KEGG] map00500 [VIEW IN KEGG] map01100 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGATCGAGGAAGCACTAGTACGGTGTAACTGTTCCAAAGTTAGTTCTCTTCCATCTCCGTCGGTCTCACTGTCTCCATTTCGCTATCGCAATCATCTTCACCGTCTTCTTCGGAATGCGCCATTTTCATCTTCTGTAACTGCTCACAGTGCATTTTTGTTGAGCAGAAGAAAGAGGTTTTGTGAGAAGCTTGTGTCCAACATGGCTAACTATGAAGGACAGACGGTTACTAGTGGCAGCGATGTTAGATCAGGGAGTATGATTTTTGTGCCTATTTTGGAAGATGGAGTGTTCCGGTTTGATTGTTCCGTGAATGATCGAGGTGCAGCGTATCCCAGTATTTCTTTTGCGAATAGCAGGAATAGAGACACACCTATCTCGACTCAGAAGGTTCCTTTGTATATCCCTACGTTTGAGTGTCTTCTAGAGCAGCAGGTTGTCAAACTTGAGCTGCCTGTAGGTTCCTCTCTTTATGGAACTGGAGAAGCTAGTGGAGATCTAGAGAGGACGGGCAAAAGAGTTTTCACGTGGAACACAGATGCATGGGGTTATGGACCTGGAACTACATCCTTGTATCAATCCCATCCATGGGTGTTAGCGGTTCTTCCCAATGGTGAGGCACTTGGAATTCTTGCTGACACTACAAGGCGCTGTGAGATTGATCTGAGGAGAGAATCAACGATACAGTTTGTTGCTTCATCCTCATTTCCTGTCATTACATTCGGCCCATTTTCTTCACCCACTGAAGTGTTGATATCCCTATCAAAAGCAATTGGAACTGTATTTATGCCCCCAAAATGGTCATTAGGCTATCATCAATGCCGTTGGAGCTATTTATCTGACCAGAGAGTTCTGGAGGTTGCAAAAACATTCCGGAAAAAGTGTATACCTTGTGATGTGATATGGATGGATATTGATTACATGGATGGTTTTCGTTGTTTCACCTTTGACAAGGAGCGTTTTCGAGATCCTACATCTTTAGTGAAAGATCTCCATTATAGTGGTTTTAAAGCTATTTGGATGCTTGATCCTGGAATCAAGCATGAGGATGGTTATTTTGTATATGATAGTGGTTCTAAAAATGAAGTTTGGGTCCAAAAGGCAGATGGAACTCCTTATGTAGGGGAGGTGTGGCCTGGACCATGTGTCTTCCCTGACTATACACAGTCAAAAGTTCGTACATGGTGGGCAAATTTAGTTAAAGATTTCATTTCCAATGGTGTTGATGGTATATGGAATGATATGAATGAACCAGCTATCTTTAAGGTTGTTACAAAAACAATGCCTGAGAGCAATGTTCATAGAGGAGATGGTGAACTAGGGGGTTGTCAGAATCATTCGTTCTATCATAATGTGTATGGTCTACTGATGGCAAGATCAACTTATGAAGGCATGAAACTAGCCAATGAAAATAAGAGGCCTTTTGTTCTTACTAGAGCTGGATTTCTTGGCAGCCAAAGGTATGCTTCAACATGGACTGGAGATAATCTTTCTACCTGGGAGCATCTTCATATGAGTATCTCAATGGTACTTCAGCTGGGACTTAGTGGTCAGCCACTTTCAGGTCCTGATATTGGTGGATTTGCTGGAAATGCAACACCTAAGCTTTTCGGAAGGTGGATGGGTGTAGGTTCCATGTTTCCCTTTTGCCGAGGTCATTCTGAAGCTGCCACAGCTGACCATGAACCGTGGTCCTTTGGGGAAGAGTGTGAAGAAGTTTGCCGATTGGCACTGAAGAGGCGCTACCGTCTAATCCCTCTTATCTACACTCTTTTCTATTTTGCTCACACCAGGGGCACTCCAGTGGCAACCCCTATTTTCTTTGCCGATCCAAAAGATCCTAGCCTGAGAAAACTTGAAAATTCTTTTTTGCTGGGTCCAGTCTTAGTGTATGCAAGCACCTTACAAGGACAGGGGTTGGATAAGATGGAGATTACTTTGCCTAAGGGAATATGGTTGAGTTTTCATTTCAATGATGCACATCCGGATTTGCCAGCTTTATACTTAAAAGGTGGCTCAATTATTCCTGTGGGCCTCCCTCTTCAGCATGTTGGAGAAGCTAATCCCTCAGATGACTTGACCCTTCTTGTGGCTTTAGATGAATATGGGAAAGCTGAAGGTGTTCTGTTTGAGGATGACGGTGATGGATATGAATTCACAAAAGGGAATTATTTATTAACACACTATGTGGCTGAACTTAAATCATCGATAGTTACTCTGAGGGTACACAAAACTGAAGGATCATGGGAAAGACCCAAACGCCGCCTGCATATTCAGTTATTGCTGGGTGGGGGTGCAATGCTTGAAACATGGGGAAGTGATGGAGAAGTTCTGCAACTAATCTTGCCTTCAGAAGAGGAGGTGTTGAAGCTAGTATCTATTAGTGAGAAACAATACAAGGACCGTTTGGAAAATGCAACTGCAATTCCTGATGTAGAAGAGGTTTCTGGACCCAAAGGAACAGAGCTTTTAAAAACTCCCATTGAACTGAAAAATGGGGAGTGGGATCTTAAAGTTGTTCCCTGGATTGGGGGTAGAATCATCTCCATGACACACATTCCTTCTGGAACACAATGGCTCCATAGTAGGATTGAGATCAATGGTTATGAGGAGTACAGTGGTACGGAGTATCGTTCTGCTGGGTGTTCTGAGGAGTATTCTGTCCTTGATCGAGAACCTGGGCTGGTGGTGTTAGAGGGTGATATTGGTGGAGGATTGGTTCTTCAACGTCATATCTATGTTCCAAAGAATGTTGCCAACATCATCCAGATAGACTCTAGTATAATAGCCCGAAGTGTTGGAGCTGGTTCTGGAGGGTTCTCAAGGTTGGTGTGCTTACGAGTTCACCCAACGTTCATTCTTTTGCATCCGTCTGAATCTTTTGTTTCATTTACTTCAATGGATGGATCGGTGCATGAAGTCTTTCCTGATAGCGGGGAGCAATTCTTTGAAGGAAACCTCATTCCTAATGGTGAGTGGAAGCTCATTGATAAATGTCTTGGCTTGGCACTGGTCAACCGATTTAGTGTAACTGAGGTATTCAAGTGTCTCGTTCACTGGGATTGTGGCACTGTCAACCTGGAGCTTTGGTCTGAGAGTAGACCTGTTTCAAAGCAATCTCCTCTTCGAATTTCACATAAATACGAGGTTATAAGAATCCCATAA |
| Protein: MIEEALVRCNCSKVSSLPSPSVSLSPFRYRNHLHRLLRNAPFSSSVTAHSAFLLSRRKRFCEKLVSNMANYEGQTVTSGSDVRSGSMIFVPILEDGVFRFDCSVNDRGAAYPSISFANSRNRDTPISTQKVPLYIPTFECLLEQQVVKLELPVGSSLYGTGEASGDLERTGKRVFTWNTDAWGYGPGTTSLYQSHPWVLAVLPNGEALGILADTTRRCEIDLRRESTIQFVASSSFPVITFGPFSSPTEVLISLSKAIGTVFMPPKWSLGYHQCRWSYLSDQRVLEVAKTFRKKCIPCDVIWMDIDYMDGFRCFTFDKERFRDPTSLVKDLHYSGFKAIWMLDPGIKHEDGYFVYDSGSKNEVWVQKADGTPYVGEVWPGPCVFPDYTQSKVRTWWANLVKDFISNGVDGIWNDMNEPAIFKVVTKTMPESNVHRGDGELGGCQNHSFYHNVYGLLMARSTYEGMKLANENKRPFVLTRAGFLGSQRYASTWTGDNLSTWEHLHMSISMVLQLGLSGQPLSGPDIGGFAGNATPKLFGRWMGVGSMFPFCRGHSEAATADHEPWSFGEECEEVCRLALKRRYRLIPLIYTLFYFAHTRGTPVATPIFFADPKDPSLRKLENSFLLGPVLVYASTLQGQGLDKMEITLPKGIWLSFHFNDAHPDLPALYLKGGSIIPVGLPLQHVGEANPSDDLTLLVALDEYGKAEGVLFEDDGDGYEFTKGNYLLTHYVAELKSSIVTLRVHKTEGSWERPKRRLHIQLLLGGGAMLETWGSDGEVLQLILPSEEEVLKLVSISEKQYKDRLENATAIPDVEEVSGPKGTELLKTPIELKNGEWDLKVVPWIGGRIISMTHIPSGTQWLHSRIEINGYEEYSGTEYRSAGCSEEYSVLDREPGLVVLEGDIGGGLVLQRHIYVPKNVANIIQIDSSIIARSVGAGSGGFSRLVCLRVHPTFILLHPSESFVSFTSMDGSVHEVFPDSGEQFFEGNLIPNGEWKLIDKCLGLALVNRFSVTEVFKCLVHWDCGTVNLELWSESRPVSKQSPLRISHKYEVIRIP |