CDS
| Accession Number | TCMCG061C01332 |
| gbkey | CDS |
| Protein Id | XP_041989764.1 |
| Location | join(9230475..9230507,9230776..9230845,9231446..9231590,9231682..9231839,9232410..9232675,9232780..9232998,9233084..9233192,9233293..9233408,9233602..9233700,9234980..9235089,9235822..9235896,9236364..9236442,9236552..9236701,9236803..9236883,9236972..9237091,9238137..9238259,9238463..9238540,9238626..9238714,9238860..9238968,9239352..9239420,9239512..9239622,9240397..9240452,9240570..9240747,9240827..9240928,9241045..9241116,9241268..9241333,9242092..9242157,9242383..9242469,9242588..9242704,9242838..9242912,9243061..9243147,9244192..9244233) |
| Gene | LOC121741127 |
| GeneID | 121741127 |
| Organism | Salvia splendens |
Protein
| Length | 1118aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA737421 |
| db_source | XM_042133830.1 |
| Definition | ubiquitin C-terminal hydrolase 13-like isoform X1 [Salvia splendens] |
EGGNOG-MAPPER Annotation
| COG_category | O |
| Description | Belongs to the peptidase C19 family |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction | - |
| KEGG_rclass | - |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] ko01002 [VIEW IN KEGG] ko04121 [VIEW IN KEGG] |
| KEGG_ko |
ko:K11838
[VIEW IN KEGG] |
| EC |
3.4.19.12
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko04068
[VIEW IN KEGG] ko05168 [VIEW IN KEGG] ko05169 [VIEW IN KEGG] ko05203 [VIEW IN KEGG] map04068 [VIEW IN KEGG] map05168 [VIEW IN KEGG] map05169 [VIEW IN KEGG] map05203 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGACTGTCATAGCCTCTCCCGCCCCGAATGAGCAAGAGGATGAGGACATGTTAGTTCCTCGATCAGATTTGGTGGAAGGGGCTCTGCCAATGGGAGCGGAAGCACCAGAAGCAACAGAAAATAATGTGGAAAACCAGCCAACAGAGGATCCCCGCACAGCAAAATTTACTTGGAAGATCGAATTTTTTTCCAAGATAACTACTAAGAAGCTCTATTCTGGAATATTTGATCTCGGTGATTATAAATGGCGGATTCTTATTTTTCCGAAGGGGAACAATGCTGATCAATTATCCATGTATCTGGATGTTGCTGATTCTGCCGGTTTACCTTATGGATGGACTAGATATGCCCATTTCAGTTTGGCTATTGTGAATCAAGTCCATAGCAAGTATTCAGTCCGAAAGGAAACACAACATCAATTCAGTGCCCGAGAAAATGATTGGGGCTTTACAGCTTTTATGCCACTTCGTGATCTTCATGATCCTAGCAGGGGTTATCTTGTCAATGACACCTGTATAGTTGAAGCTGAGGTTGCGGTGTACAAAGCTATGGATCCATGGCTATATGATTCGAAGAAAGAAACTGGTTTCGTAGGACTGAAAAACCAAGGGGCTACCTGCTATATGAACTCTCTTCTCCAAACTCTGTACCATATTCCTTTCTTCAGAAAGGTTGTGTACCATATGCCTACTAATGTTATTGATATGCCATCTGCAAGTATCCCTCTGGCTCTGCAGAGTTTATTTTACAAGCTACAGTACAGCGATAATAGTGTTGCAACAAAGGAGTTGACAAAATCCTTTGGATGGGACACCTATGATGCTTTCTTGCAACATGATGTACAAGAACTCAATAGAGTGCTTTGCGAGAAGCTTGAAGAGAAAATGAAGAGAACCATTGTGGAAGGTGCCATACAACAGTTATTTGAAGGGCACCATATGAACTACATCGAGTGCATAAATGTAGATTACAAATCCAGTAGAAAAGAGTCATTCTATGATCTTCAGCTCGATGTCAAAGGCTGTGATGATGTCTATGCTTCTTTTGACAAATATGTTACGGTTGAACATCTAGATGGAGATAACAAATACCATGCTGAACAGCATGGTTTGCAGGATGCTAAGAAAGGAGTGCTATTCATTGACTTTCCCCCAGTTCTCCAGCTTCACTTAAAGCGGTTTGAATACGACTTTGTGCGTGATGTTATGGTAAAGATAAATGATCACTATGAGTTTCCTCTTCAACTTGATCTTGATAGAGATGATGGAAAGTACTTGTCACCTGATGCTGATAGAAGAGTTCATAACCTATATACACTTCACAGTGTTTTGGTCCATAGTGGTGGTGTGCACGGTGGTCACTATTATGCCTTTATACAGCCTACTCTTTCCAGCCAGTGGTATAAGTTTGATGATGAACGAGTGACAAAAGAAGATATGAAGAAGGCATTAGATGAGCTGTATGGCGGTGAAGAAGAACACCTGATGCAGACAAACCAGGGAATCAATAATACTCCCTTCAAGTTCACCAAACACTCAAATGCTTATATGCTGGTGTATATACGTGAAAGTGACAAGGATAAAATCATGTGTCATGTCGATGAAAAGGATATTGCCGAGCATCTTAGGGAGAGGCTGAAGAGAGAACAAGAAGAAAAAGAACAAAAGAAGAAAGAAAAAGCTGAAGCACATCTTTACACTATTGTAAAGGTAGTATGTGATGAAGACTTTGTTTGGCAGATTGGAAGAAACGTTTTTTTTGATTTAGTGGATCATGATAAAGTTAGGAGCTTCCGTGTCCAGAAGCTGATGCCATTTAATGTTTTTAAGGAAGAGGTTGCAAATAAATTTGGTATACCTGTGCAATTACAACGCTTCTGGCTGTGGGCAAAACGGCAAAATCACACTTATCGTCCTAACCGTCCATTGACACAGTCTGAGGAAGCACAGACTGTTGGGTATCTGAGGGATATGTCTAATAAAGCTCAGAATGCAGAGTTGAGGCTATTCTTAGAGTTAGAACGTGGGCCGGACTCCCGGCCTATCCCTCTCCCTAATAAGGCAAAAGATGACATTCTGTTATTCTTCAAGCTTTATGATCCAGAAAAGGAAGAGCTTAGATATGTTGGTAGACTTTTTGTGAAGAGCTTTGGGAAGCCGGTAGATATCTTGACTAGACTAAATGAGATGGCTGGCTATGCTCCTGAGGAAGATATTGAGCTTTATGAGGAAATAAAATTTGATCCTAATGTGATGTGTGAACATATCCAGAAGATACTCCCTTTTAGGTCTAGCCAGCTTGAGGATGGGGACATAGTTTGCATTCAGAAGTCCCTTCCAAGCGAAGCTCTCCAGCAACTTCGTTGCCCAGATGTTCGGTCATTCTTTGAGTACCGCCATAATCTCCAAGTTATTCATTTTCGGTCCCTAGAAAAGCCTAAAGATGATGAATTTTGTTTACAACTGTCAAAGCTTGACACATATGATGAAGTTGTAGAGAAAGTGGCTCTCCAACTTGGAGTAGATGATCCTTCTAAACTTAGACTTACGTCATGCAATTCATACACTCAACAACCAAAACCTCATCCTATAAAGTATAGAGGAGTAGATAATTTGCTAGATATGTTGCTGCAGCACAATCAGACTTCTGATATATTGTACTATGAAGTCCTGGATATGCCTCTGCCAGAATTGCAAGGCTTAAGAACGCTCAGAGTGGCTTTCCATCACGGGACATATAACGAAGCGGAAATTCACAATGTTAGACTGCCTAAGGATAGCACTGTGGCTGATTTGCTTGATGATCTCAGGATAAAGGTTCAGTTGTCTCGTCCCGATGCAGAACTCAGACTGCTGGAAGTATTCACCCACAAGATCTACAAGATATTTTCTTCAGGGGAAAAGATAGAGAGCATAAATGACAACTATTGGACTTTACGAGCTGAAGAGATACTTGAAGAAGAGAAACATCTTGGTCGTCATGATTGCTTGATTCATGTTTATCACTTTATGAATGAAGAAAATCAGAACCAAGTGAAAATTCAGAATTTTGGTGAGCCCTTTTTATTGGTCATTCATGCAGACGAGATTTTAGCTGATCTCAAGATTCGTGTTCAGAAAAAGTTATGTGTATCAAATGAGGAGTTCTCTAAGTGGAAATTTGCTTTTGTTTCACAAGGTCAAACTGAGTACCTAGAGGATTCAGAAATTTTGTTTACTCGATTCCAGACAAGCAGCATGTATATTGCTTGGGAGCAGTATCTTGGGCTGGAACACATAGATAATGCCCCAAAAAGGCCTCTTGCAGCTAATCAGTACCGCCCACCATTCGAGAAGGCTGTGAAGATATACAATTAA |
| Protein: MTVIASPAPNEQEDEDMLVPRSDLVEGALPMGAEAPEATENNVENQPTEDPRTAKFTWKIEFFSKITTKKLYSGIFDLGDYKWRILIFPKGNNADQLSMYLDVADSAGLPYGWTRYAHFSLAIVNQVHSKYSVRKETQHQFSARENDWGFTAFMPLRDLHDPSRGYLVNDTCIVEAEVAVYKAMDPWLYDSKKETGFVGLKNQGATCYMNSLLQTLYHIPFFRKVVYHMPTNVIDMPSASIPLALQSLFYKLQYSDNSVATKELTKSFGWDTYDAFLQHDVQELNRVLCEKLEEKMKRTIVEGAIQQLFEGHHMNYIECINVDYKSSRKESFYDLQLDVKGCDDVYASFDKYVTVEHLDGDNKYHAEQHGLQDAKKGVLFIDFPPVLQLHLKRFEYDFVRDVMVKINDHYEFPLQLDLDRDDGKYLSPDADRRVHNLYTLHSVLVHSGGVHGGHYYAFIQPTLSSQWYKFDDERVTKEDMKKALDELYGGEEEHLMQTNQGINNTPFKFTKHSNAYMLVYIRESDKDKIMCHVDEKDIAEHLRERLKREQEEKEQKKKEKAEAHLYTIVKVVCDEDFVWQIGRNVFFDLVDHDKVRSFRVQKLMPFNVFKEEVANKFGIPVQLQRFWLWAKRQNHTYRPNRPLTQSEEAQTVGYLRDMSNKAQNAELRLFLELERGPDSRPIPLPNKAKDDILLFFKLYDPEKEELRYVGRLFVKSFGKPVDILTRLNEMAGYAPEEDIELYEEIKFDPNVMCEHIQKILPFRSSQLEDGDIVCIQKSLPSEALQQLRCPDVRSFFEYRHNLQVIHFRSLEKPKDDEFCLQLSKLDTYDEVVEKVALQLGVDDPSKLRLTSCNSYTQQPKPHPIKYRGVDNLLDMLLQHNQTSDILYYEVLDMPLPELQGLRTLRVAFHHGTYNEAEIHNVRLPKDSTVADLLDDLRIKVQLSRPDAELRLLEVFTHKIYKIFSSGEKIESINDNYWTLRAEEILEEEKHLGRHDCLIHVYHFMNEENQNQVKIQNFGEPFLLVIHADEILADLKIRVQKKLCVSNEEFSKWKFAFVSQGQTEYLEDSEILFTRFQTSSMYIAWEQYLGLEHIDNAPKRPLAANQYRPPFEKAVKIYN |