CDS
| Accession Number | TCMCG061C60531 |
| gbkey | CDS |
| Protein Id | XP_042024444.1 |
| Location | join(16782414..16782592,16783071..16783383,16783506..16783574,16783671..16783808,16783871..16783988,16784251..16784333,16784541..16784636,16785014..16785182,16785271..16785413,16785480..16785566,16785663..16785848,16785950..16786117,16786273..16786393,16786478..16786547,16786645..16786732,16786813..16787127,16787236..16787344,16787457..16787612,16787717..16787819,16788028..16788201,16788396..16788544,16788684..16788877) |
| Gene | LOC121771674 |
| GeneID | 121771674 |
| Organism | Salvia splendens |
Protein
| Length | 1075aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA737421 |
| db_source | XM_042168510.1 |
| Definition | alpha-glucosidase 2-like isoform X1 [Salvia splendens] |
EGGNOG-MAPPER Annotation
| COG_category | G |
| 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: ATGTCAAATCCGTCCTACTACTCCACTACTTCCTACGGTTATACTTCTACTACTTCAACAATCTCACACGCGTCCCTGATTTATAGTAGAATTGATTCTCCACGTCTCTTCAATTTGGTATCCCATTTCAGTAACAATCCCAAACCTCTTCCTGGATTTTCTCTGATTCCTCCGATCAGTTCATGTAGAAAGGTGAAAGTTAGAAGGGGGTTAATTGACCAGAGATCAGTAGCAATGTCAAAGAAGGTGATTGGGGAAGAAGAAACTGCATTGAGATCAGAGGCACGGACCGGGAAGATGGTTTATGAGCCAATTCTCGAGGAAGGAGTGTTCCGCTTTGATTGTTCTGCAGATGATAGAAATGGTGCATTTCCCAGCATTTCGTTTCAGAATCCGAGAGTCAGGGATACGCCACTCGCGAATGTCAATAAAGTTCCAACTTTCATTCCCAGTTTTGAATGTGTAGAGGGGCAACAACTGGTCAATTTAGAGTTCCCTCTAAACACCTCATTTTATGGAACTGGAGAAGTTAGCGGTCAGCTTGAACGAACGGGAAAGAGGATATTTACTTGGAATACGGATGCGTGGGGCTATGGCACTGGAACTACTTCATTGTACCAATCACACCCTTGGGTTCTGGCGGTGCTTCCAAATGGAGAGGCAATAGGAGTTCTTGCAGATACTACTCGACGCTGTGAGATTGATTTGCGAAAGGAATCAAACATCAAGCTGATTTCTGCAGCGCCCTATCCTGTAATCACATTTGGTCCATTTGCTTCACCAACTGATGTCCTTGCCTCTTTCTCGCGAGCAGTTGGGACTGTTTTTATGCCACCGAAATGGTCCTTAGGATATCACCAATGCCGCTGGAGCTACCATTCTGATGCTCGAGTTCGTGAGATAGCAAAGACATTTCGTGAGAAAGATATACCTTGTGATGTCATATGGATGGACATAGACTACATGGATGGTTTTCGTTGTTTCACTTTTGACAAGGAGCGATTTCCAGATCCGAAGTCTCTAGGAGCTGATCTTCATCAAAATGGGTTCAAGGGAATCTGGATGCTAGATCCAGGGATAAAAAGAGAGACGGGTTATTTTGTCTATGATAGTGGTTTGGAAAGAGACATTTGGGTTCAAACTGCGGATGGACAACCTTTTGTTGGGGATGTGTGGCCTGGGCCTTGTGTATTTCCCGATTTCACACAATCGAGTGCCCGTTCATGGTGGGCTCAGCTAGTAAAAGGTTTTATCTCTAATGGTGTCGATGGTATATGGAATGACATGAATGAGCCAGCTGTCTTCAAGACTTTGACAAAAACAATGCCGGAGAGCAATGTCCACAGGGGAGACAAAGACCTCGGTGGCCATCAGAAGCATTCCCACTATCACAATGTTTATGGTATGCTGATGGCTAGATCTACATATGAAGGGATGAAACTAGCAATTGAACAAAAACGGCCCTTTGTTTTGACCCGAGCTGGGTTCATTGGTAGCCAAAGGTATGCTGCAACATGGACTGGAGATAATCTTTCCACGTGGGAGCACCTTCACATGAGTATCTCTATGGTTGTTCAATTGGGGTTGAGTGGTCAGCCACTATCGGGGCCAGATATCGGTGGCTTTGCTGGTAATGCAACACCAAAGCTGTTTGGAAGGTGGATGGGAGTGGGCGCCATGTTTCCCTTTTGTCGAGGTCACTCTGAGACCGACACTATTGATCACGAACCCTGGTCTTTCGGGCTAGAGTGTGAGGAGGTTTGCCGACTTGCGCTAAAGAGACGATACCGGCTTCTACCCCACATATATACTCTCTTTTACATGGCTCATACAAAGGGCATTCCCGTGGCAACTCCTACATTTTTTGCTGATCCGAAAGATTTGGAGCTAAGGACACAAGAAATTTCATTTCTCTTAGGACCACTTCTCATATATTCAAGCACGGGACAAGATCAGGAGTTATACGAGATGGAACAGAAGTTGCCAAAAGGAATCTGGCATAGTTTTGATTTTGAAGACTCTCATCCAGATTTGCCTGCATTGTATCTCCAAGGCGGATCTATCATTCCTGCGTCCTCACCTTATCAGCATGTTGGGGAAGCTAATCGTACTGATGATTTACAGCTGTTAGTAGCTTTAGACAAGGCTGATAAAGCCATAGGATCGCTCTTTGAAGATGATGGCGATGGGTATGAATACACTAAAGGAGGATATTTATTGACAACTTATGTTGCTGAACGGCAGTCTTCTGTAGTAAATGTGACGGTTTTGAAAACTGAAGGATCTTGGGAGAGGCCCAACCGTCGCTTACATGTAAAACTACTACTCGGGAAAGGTGCAACGATTGATGCGTGGGGTATTGATGGGGAGGCTCTGAAAATTCCTTTCCCATCGGAGAGGGAAGTGTCGGATTTGGTTGCGGCTGGTGAAAAACAACTAAGAACTCGTATAGAAACTGCTAGACGTATTCCAGACGTGGAAACCATGTCTGGACACAAAGGAGCAGAACTATCTAGAACACCTGTCGAAATCAAAAGTGGCGACTGGTCTCTCAAAGTCGTGCCATGGATTGGTGGAAGAATAATTTCCATGGAACACCTTCCATCAAAAACCCAGTGGCTTCATAGTCGAGTTGAAATCAATGGGTACGAGGAATATAGTGGCTTGGAGTATCGTTCTTCTGGATGCTTGGAGGAGTATTCTGTCATCGAACGAGATCTGGAGCAGGCAAGAGAAGTCGAGTCGCTACAACTAGAAGGTGATATAGGAGGCGGTTTAGCCCTTGTGCGCCAGATATGCATACCTAAAGAAAACTTGAAAACAGTCCAAATCGATTCCAGCATCGTAGCTCGCAATGTTGGCGCCGGATCTGGAGGATTTTCGAGGCTCGTGTGCTTGAGAGTGCACCCAACGTTCAATCTGCTGCATCCAACTGAAACATATGTGTCTTTTACTGCAATCGATGGATCTGTCGTCCACGAGGCTTGGCCGGAGTCTGGTGAACAGGTTTTTGAAGGGCATCTTCGCCCAAATGGCGAATGGAGGCTTGTCGACAGATGCCTTGGGCTAGCCCTAGTTAACAGGTTCAGCATCGAACAAGTTCACAAATGTCGAATCCACTGGGGCACGGGGAACGTGAATTTGGAGCTTCGCTCAGAAGACAGGCCGGTGTCCAAGGAATCTCCTCTTCGAGTATCTCACAGATACGAGGTAATACGTTTGCCATAA |
| Protein: MSNPSYYSTTSYGYTSTTSTISHASLIYSRIDSPRLFNLVSHFSNNPKPLPGFSLIPPISSCRKVKVRRGLIDQRSVAMSKKVIGEEETALRSEARTGKMVYEPILEEGVFRFDCSADDRNGAFPSISFQNPRVRDTPLANVNKVPTFIPSFECVEGQQLVNLEFPLNTSFYGTGEVSGQLERTGKRIFTWNTDAWGYGTGTTSLYQSHPWVLAVLPNGEAIGVLADTTRRCEIDLRKESNIKLISAAPYPVITFGPFASPTDVLASFSRAVGTVFMPPKWSLGYHQCRWSYHSDARVREIAKTFREKDIPCDVIWMDIDYMDGFRCFTFDKERFPDPKSLGADLHQNGFKGIWMLDPGIKRETGYFVYDSGLERDIWVQTADGQPFVGDVWPGPCVFPDFTQSSARSWWAQLVKGFISNGVDGIWNDMNEPAVFKTLTKTMPESNVHRGDKDLGGHQKHSHYHNVYGMLMARSTYEGMKLAIEQKRPFVLTRAGFIGSQRYAATWTGDNLSTWEHLHMSISMVVQLGLSGQPLSGPDIGGFAGNATPKLFGRWMGVGAMFPFCRGHSETDTIDHEPWSFGLECEEVCRLALKRRYRLLPHIYTLFYMAHTKGIPVATPTFFADPKDLELRTQEISFLLGPLLIYSSTGQDQELYEMEQKLPKGIWHSFDFEDSHPDLPALYLQGGSIIPASSPYQHVGEANRTDDLQLLVALDKADKAIGSLFEDDGDGYEYTKGGYLLTTYVAERQSSVVNVTVLKTEGSWERPNRRLHVKLLLGKGATIDAWGIDGEALKIPFPSEREVSDLVAAGEKQLRTRIETARRIPDVETMSGHKGAELSRTPVEIKSGDWSLKVVPWIGGRIISMEHLPSKTQWLHSRVEINGYEEYSGLEYRSSGCLEEYSVIERDLEQAREVESLQLEGDIGGGLALVRQICIPKENLKTVQIDSSIVARNVGAGSGGFSRLVCLRVHPTFNLLHPTETYVSFTAIDGSVVHEAWPESGEQVFEGHLRPNGEWRLVDRCLGLALVNRFSIEQVHKCRIHWGTGNVNLELRSEDRPVSKESPLRVSHRYEVIRLP |