CDS
| Accession Number | TCMCG039C26780 |
| gbkey | CDS |
| Protein Id | XP_024032276.1 |
| Location | join(73162..73340,74076..74367,74511..74579,74665..74802,74900..75017,75655..75737,75992..76087,76496..76664,76838..76980,77064..77150,77274..77459,78430..78597,84321..84441,84533..84602,85068..85155,85267..85387,86094..86287,86382..86490,86741..86896,94150..94252,94596..94769,96042..96187,97150..97343) |
| Gene | LOC21405522 |
| GeneID | 21405522 |
| Organism | Morus notabilis |
Protein
| Length | 1067aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA263939 |
| db_source | XM_024176508.1 |
| Definition | uncharacterized protein LOC21405522 isoform X1 [Morus notabilis] |
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: ATGTTAATAACAACTGTACCACTACCACCAGTAGTTCCCAGTGGCAGTGGACGATCATCGTTTTCCGGGCCCACGCCTTCTCAGATTCCGATTCCACCTCGTGCTTCTTTCTCAGCTTCTGCCATTTTCGGTCCTGCGAGCTTCTGTCAATATCGCCTTCCTCTTTTCGGTTCGTCAAGAAAGAAGAGGCTTACTAAGAAGTTCTTCACCGGAAGATTAGTATCTAAAATGACTGATCACAAAACTGCAAAAGAGATCACTGCAGATGCCTCAGGAGATATGATTTTTGAGCCTATCTTGGAGGATGGTGTGTTCCGATTCGATTGTTCTGAGAGTGCTAGAGCTGAAGCTTTTCCAAGTTTTTCTTTTGTGAATAGCAGTGTCAGGGACACACCAATCAAGAGTCACAACTCTCCTTCATACGTTCCTACTTTTAAGAGCCTTTTGGGGCAACAGACTGTTAAATTAGAGCTTCCTGCTGGTACCTCCCTCTATGGAACTGGAGAGGTTAGTGGTCAACTTGAGCGTACAGGAAAAAGGGTTTTTACCTGGAATACGGATGCGTGGGGCTATGGTTCTGGAACAACATCGTTGTATCAGTCACATCCCTGGGTACTAGCTATTCTTCCAACAGGAGAAGCCCTCGGGATTCTTGCTGACACATCACGACGCTGTGAGATTGATTTGAGAAATGAATCAGTAATACAGTTTATTGCTCCATCCCCCTATCCTCTTATTACATTTGGTCCATTTGGCTCACCAACTGCTGTTTTGGTATCTTTGTCACATGCAATTGGAACTATATTTATGCCCCCGAAGTGGTCATTAGGCTATCACCAATGCCGCTGGAGTTATGAGAATGAGACAAGAGTTCGTGAGATAGCCAGAAAGTTTCGGGAGAAGGGTATACCTTGTGATGTCATATGGATGGACATAGATTACATGGATGGATATCGTTGTTTCACTATTAATCAGGAGCGCTTTCCGGATCCCAAATCTTTGGTGAAAGATCTTCACAATGATGGTTTCAAAGCAATTTGGATGCTTGATTCGGGAATCAAGCAGGACAAGGGTTATTTTGTGTATGATAGTGGTTCCAAAGAAGATGTCTGGGTTCAAAAATCAGATGGAACTCCTTTTGTAGGCGAGGTATGGCCAGGACCTTGTGTTTTCCCAGACTTTACGCAGGCAAAAGTTAGGTCGTGGTGGGCGAATTTAGTTAAAGATTTCATTTCTAATGGTGTTGACGGTATTTGGAATGATATGAATGAACCAGCTGTCTTCAAGGTCGTAACAAAAACAATGCCTGACAGCAATATTCATAGAGGGGATGATGAACTTGGGGGTTGTCAGAATCATGCATATTATCACAATGTGTATGGCATGTTAATGACGAAGTCAACTTATGAAGGTATGAAGTTGGCTAATAAAGACAAGCGTCCTTTTGTTCTCACAAGAGCTGGATTTATTGGTAGTCAAAGATATGCTGCAACATGGACGGGAGACAATCTGTCAACTTGGGAGCACCTCCATATGAGTCTTTCAATGGTTCTTCAGTTGGGTCTTAGTGGTCAGCCTCTATCTGGGCCTGATATTGGTGGCTATGCTGGCAATGCAACTCCCAAGCTTTTCGCAAGGTGGATGGCCATGGGGGCTTTGTTTCCTTTTGCCCGTTGCCACTCTGAAGCTGCAACCACCGATCATGAACCTTGGTCTTTTGGTGAAGAGTGTGAAGAAGTATGCCGACTTGCACTGAAAAGGCGCTACCGCCTTCTCCCACATATGTACACTCTCTTGTATATGGCACATACCATTGGTACTCTGGTGGTAACTCCGACCTTTTTTGCTGATACCAAAGATCTCAGCTTAAGGAAAAATGAGAATTCTTTTCTGCTGGGTCCAGTTCTAGTTTATACAAGTACGGTATGGGATCAGGACACTGACTATTCTCAGTCTGCACTTCCTAAAGGAATCTGGTTGAGTTTTGATTTTGATGATTCACATCCAGATATACCAGCTTTGTATTTGCAAGGTGGAGCAATTATTCCTTTGGGTCCTCCACATCAGCATGTTGGTGAAGCTAGACCATCAGATGACTTGTCACTCATTGTGGCTTTAGATGAACACGGGAAAGCAAAAGGCGTTCTATATGAAGATGATGGGGATGGATATGGATTCACTGAAGGTCATTTTTTGTTGACGCATTATGTTGCTGAGCTTCAATCCTCAGTTGTTACAGTTGGAGTTTCCAAAACTGAAGGGTCTTGGAAGAGGCCAAATCGTCGTCTTCATGTTCAGTTATTGCTTGGTGGGGGTGCAATGGTTGATGCATGGGGGACAGATGGAGAGGCTCTTCAAATAAAATTGCCATCAGAGCAGGAAGTTTCTGAGCTGGTTTCTGCCAGTATGAAGCAATGCCAAACTCGACTAGAAAATGCAAAGCGTGTCCCAAATCTGGAAGATGCTTCTGAACACAAAGGAACAAAACTATCGAGGACTCCCATTGAACTGAAAGGTGGTGATTGGGTTACAAAAGTAGTTCCTTGGATTGGAGGCAGAATAATATCCATGATGCACATTCCTTCAGGGACACAGTGGCTTCATAGCAGGGTTGAGGTTCATGGTTATGAAGAATATAGTGGTACAGAATACCGCTCTGCTGGATGGTCAGAGGAATATAATGTCATTGAACGAAATCTTGAGGATGCAGGAGAGGAGGAATTGCTTTCTTTAGAAGGTGACATTGGGGGCGGATTAGTCATACAGCGTCAGATACTTATTCCAAAGGATGATCCTGAAGCGTTGCAAATCGATTCTAGCATTGTGGCACAAAAAGTTGGTGCTGGTTCTGGTGGATTTTCAAGATTGGTTTGCCTAAGAGTCCATCCGATGTTCACCCTCGTGCACCCTACAGAATCTTATGTCTCATTTACCTCCGTTGATGGGTCAAAGCATGAAATTTGGCCAGAGGCTGAGGAGCAATTTTATGAAGGGGATCTTCGTCCTAACGGTGAATGGATGCTCGTCGATAAATGTCAAGGTCTGGCACTAGTCAATCAATTCGACGTCCAACAGGTGTGCAAGTGCCTGATCCACTGGGGAACTGGTACAGTAAATTTAGAGTTGTGGTCCGAGGAGAGGCCCGTTTCAAAAGATTCACCTCTCAGAATCTCCCATCGTTACAGGGTGATTAAAATTACCTAG |
| Protein: MLITTVPLPPVVPSGSGRSSFSGPTPSQIPIPPRASFSASAIFGPASFCQYRLPLFGSSRKKRLTKKFFTGRLVSKMTDHKTAKEITADASGDMIFEPILEDGVFRFDCSESARAEAFPSFSFVNSSVRDTPIKSHNSPSYVPTFKSLLGQQTVKLELPAGTSLYGTGEVSGQLERTGKRVFTWNTDAWGYGSGTTSLYQSHPWVLAILPTGEALGILADTSRRCEIDLRNESVIQFIAPSPYPLITFGPFGSPTAVLVSLSHAIGTIFMPPKWSLGYHQCRWSYENETRVREIARKFREKGIPCDVIWMDIDYMDGYRCFTINQERFPDPKSLVKDLHNDGFKAIWMLDSGIKQDKGYFVYDSGSKEDVWVQKSDGTPFVGEVWPGPCVFPDFTQAKVRSWWANLVKDFISNGVDGIWNDMNEPAVFKVVTKTMPDSNIHRGDDELGGCQNHAYYHNVYGMLMTKSTYEGMKLANKDKRPFVLTRAGFIGSQRYAATWTGDNLSTWEHLHMSLSMVLQLGLSGQPLSGPDIGGYAGNATPKLFARWMAMGALFPFARCHSEAATTDHEPWSFGEECEEVCRLALKRRYRLLPHMYTLLYMAHTIGTLVVTPTFFADTKDLSLRKNENSFLLGPVLVYTSTVWDQDTDYSQSALPKGIWLSFDFDDSHPDIPALYLQGGAIIPLGPPHQHVGEARPSDDLSLIVALDEHGKAKGVLYEDDGDGYGFTEGHFLLTHYVAELQSSVVTVGVSKTEGSWKRPNRRLHVQLLLGGGAMVDAWGTDGEALQIKLPSEQEVSELVSASMKQCQTRLENAKRVPNLEDASEHKGTKLSRTPIELKGGDWVTKVVPWIGGRIISMMHIPSGTQWLHSRVEVHGYEEYSGTEYRSAGWSEEYNVIERNLEDAGEEELLSLEGDIGGGLVIQRQILIPKDDPEALQIDSSIVAQKVGAGSGGFSRLVCLRVHPMFTLVHPTESYVSFTSVDGSKHEIWPEAEEQFYEGDLRPNGEWMLVDKCQGLALVNQFDVQQVCKCLIHWGTGTVNLELWSEERPVSKDSPLRISHRYRVIKIT |