CDS
| Accession Number | TCMCG081C28391 |
| gbkey | CDS |
| Protein Id | XP_010661008.1 |
| Location | join(28706782..28706865,28707043..28707102,28707392..28707438,28708608..28708691,28710034..28710097,28712759..28712912,28713859..28713929,28715465..28715569,28716328..28716420,28716844..28716918,28725458..28725543,28727227..28727433,28727517..28727616,28727727..28727797,28729195..28729276,28730310..28730468,28730707..28730749,28731987..28732069,28732475..28732537,28732614..28732688,28733560..28733682,28734062..28734303,28734636..28734680,28736415..28736481,28736970..28737041,28738311..28738564,28738649..28738706,28738856..28739023,28739302..28739376,28739914..28740177) |
| Gene | LOC100262888 |
| GeneID | 100262888 |
| Organism | Vitis vinifera |
Protein
| Length | 1057aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA33471 |
| db_source | XM_010662706.2 |
| Definition | PREDICTED: inositol hexakisphosphate and diphosphoinositol-pentakisphosphate kinase 1 isoform X1 [Vitis vinifera] |
EGGNOG-MAPPER Annotation
| COG_category | Z |
| Description | Belongs to the histidine acid phosphatase family |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction |
R05799
[VIEW IN KEGG] R08964 [VIEW IN KEGG] |
| KEGG_rclass |
RC00002
[VIEW IN KEGG] |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] |
| KEGG_ko |
ko:K13024
[VIEW IN KEGG] |
| EC |
2.7.4.24
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko04070
[VIEW IN KEGG] map04070 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGGTGGTGTTAGGGGGAGGTGTTGGTAAAAAGATAGCGGTTGGTGTATGTGTAATGGAAAAGAAGGTGAAATGTGGATCCGAGGTGTTTTCGGCTCCCATGGGGCAGATTCTTGAGAGACTCCAAGCATTTGGTGAATTTGAGATCATAATTTTCGGCGACAAGGTTATTCTTGAAGATCCTGTAGAGAGCTGGCCAATATGTGATTGCTTGGTTGCCTTCTATTCATCTGGCTACCCTCTTGAAAAGGCTGAAGCTTATGCTGCTTTGAGAAAGCCTTTTCTTGTCAATGAATTGGAACAGCAACACCTTCTTCATGATCGAAGGAAAGTATATGAGTGTCTTGAAATGTATGGTATTCCCATTCCAAGATACGCCCTTGTCAATAGGGAAGTACCATGTCAAGAGCTGGATTATTTTGTTGAGGAAGAAGATTTTGTTGAGGTTCATGGAAACCGTTTCTGGAAGCCATTTGTGGAGAAGCCTGTTGATGGGGATGATCATAGTATAATGATATATTACCCTAGCTCAGCAGGTGGGGGTATGAAGGAATTGTTTAGGAAGGTTGGTAACCGCTCAAGTGAGTTCCATCCAGAGGTTAGAAGAGTGAGGCGTGAAGGCTCTTATATATATGAGGAATTTATGCCAACTGGAGGAACAGATGTCAAGGTGTATACAGTTGGCCCTGAATATGCACATGCTGAGGCAAGGAAGTCTCCTGTTGTTGATGGCGTTGTTATGAGAAACCCCGATGGGAAAGAAGTAAGGTATCCTGTATTGCTGACTCCTACTGAGAAGCAAATGGCAAGGGATGTTTGCCTTGCCTTTAGGCAAGCGGTTTGTGGGTTTGATCTCTTGCGTTGTGAGGGACGCTCATATGTCTGTGATGTGAATGGATGGAGTTTTGTGAAGAACTCTCACAAGTATTATGATGATGCTGCTTGTGTGTTGAGGAAGATGTTTATAGACGCGAAGGCCCCTCATCTTTCTTCAACAATTCCACCAACTTTACCTTGGAAGGTCAATGAACCCCTCCAGCCTTCGGAAGGATTAACACGTCAGGGGAGTGGGATCATTGGCACATTTGGACAGTCTGAGGAGCTAAGATGCGTTATTACTATTATTCGTCATGGTGATAGGACTCCCAAACAGAAGGTGAAATTGAAAGTCACAGAGGAGAAGCTATTGAATTTGATGTTAAAATACAATGGGGGGAGGCCTAGATCTGAGACAAAACTCAAGAGTGCTATCCAGTTGCAAGATTTGTTGGATGCCACACGGATGCTTGTACCACGCACAAGACCTGGTCGAGAAAGTGACAGTGAAGCAGAAGATCTTGAGCATGCTGAAAAACTTCGTCAAGTTAAAGCAGTCCTTGAAGAGGGGGGACATTTCTCTGGTATTTATCGGAAGGTTCAACTAAAGCCACTAAAGTGGGTTAAAGTTCCAAAAAGTAATGGTGAAGGTGAAGAAGAACGGCCTGTTGAAGCTCTTATGGTTCTTAAATATGGTGGTGTTCTTACACATGCTGGCAGAAAGCAGGCAGAAGAACTAGGTAGATATTTTCGAAACAATATGTACCCAGGTGAAGGCACTGGCCTGCTTCGCCTTCATAGTACTTATCGTCATGATCTAAAAATTTACAGCTCAGATGAGGGTCGTGTACAGATGTCAGCGGCAGCATTTGCTAAAGGCCTTCTTGATTTGGAAGGGCAATTAACGCCAATCCTGGTTTCCCTTGTTAGCAAGGACTCATCTATGTTGGATGGACTTGACAATGCCAGTATTGAGATGGAAGAAGCTAAGGCTCGGTTGAATGAGATTATAACATCTGGTGCAAAGAATCATACCAATGGATCATCTGATGTTCCTTGGATGACTGATGGTGGTGGACTGCCTTCTAATGCTTCAGAACTTCTACCAAAATTGGTAAAATTGACTAAGAAGGTCACTGAACAAGTAAGACTACTAGCTAAGGATGAAGATGAGAATCTTTCAGTGACAAGTTCGTATGATGTGATTCCTCCATATGACGAAGCAAAGGCACTTGGTAAGACCAATATTGATGTAGACCGTATTGCTGCTGGATTACCATGTGGTAGTGAGGGATTCCTTTTGATGTTTGCTCGCTGGAGAAAACTTGAGAGAGACTTATACAATGAACGCAAAGATCGATTTGATATAACACAAATTCCAGATGTTTATGACTCTTGCAAATATGATCTCTTGCACAATGCACATCTTAATCTAGAAGATCTGGATGAGCTTTTCAAAGTTGCTCAGTTACTTGCAGATGGTGTCATCCCAAATGAGTACGGCATTAACCCAAAGCAGAAGTTGAAGATTGGATCAAAGATTGCACGTCGTTTGTTGGGTAAAATTTTAATTGATCTGAGGAACACTCGTGAAGAAGCTATCAGTGTTGCTGAATTAAAGAGTAATCAAGACCAAGATTCAGTGTCTGCTAAATCTGGAAAGGAAGATGCAGATTACCATTCAAAGCCTCACAATAAGAATGAAGACACAAGAAGATCTAGTACCACAAGTGAAAAGTCAATGGATCAAGATGACGATGATGACAAAGAGCCCCAATACCGTTTGGATCCCAAGTATGCAAATGTGAAGACACCAGAACGCCATGTGCGCACACGCCTCTATTTTACATCAGAATCACACATCCATTCCCTAATGAATGTTCTCCGCTACTGTAACTTGGATGATTCTCTTCTTGGTGAGGATAGCCTTGTTTGCGATAATGCTTTGGAGCGATTGTATAGAACTAAGGAGCTTGACTATATGAGTTATCTCGTGTTGAGGATGTTTGAGAACACAGAGGTAGCTCTGGAAGACCCGAAAAGATTCCGCATAGAGATGACTTTTAGTCGTGGTGCAGATCTATCCCCCTTAGAGAAGAACGATAGTGAGGCTAACTCATTGCATCAGGAACACACGCTGCCAATCAATGGCCCAGAAAGGCTGCAAGAAGTTGGATCATATCTCACGTTAGAGAAGATGGAGAAGATGGTTCGCCCATTTGCCATGCCAGCTGAAGATTTTCCTCCACCATCAACACCCCAAGGGTTCTCAGGCTACTTCTCCAAAAGTGCATCAGTGCTGGAGCGCCTGGTAAATCTTTGGCCTTTTCACAAGCATGCAAATGCTAATGGGAAGTAG |
| Protein: MVVLGGGVGKKIAVGVCVMEKKVKCGSEVFSAPMGQILERLQAFGEFEIIIFGDKVILEDPVESWPICDCLVAFYSSGYPLEKAEAYAALRKPFLVNELEQQHLLHDRRKVYECLEMYGIPIPRYALVNREVPCQELDYFVEEEDFVEVHGNRFWKPFVEKPVDGDDHSIMIYYPSSAGGGMKELFRKVGNRSSEFHPEVRRVRREGSYIYEEFMPTGGTDVKVYTVGPEYAHAEARKSPVVDGVVMRNPDGKEVRYPVLLTPTEKQMARDVCLAFRQAVCGFDLLRCEGRSYVCDVNGWSFVKNSHKYYDDAACVLRKMFIDAKAPHLSSTIPPTLPWKVNEPLQPSEGLTRQGSGIIGTFGQSEELRCVITIIRHGDRTPKQKVKLKVTEEKLLNLMLKYNGGRPRSETKLKSAIQLQDLLDATRMLVPRTRPGRESDSEAEDLEHAEKLRQVKAVLEEGGHFSGIYRKVQLKPLKWVKVPKSNGEGEEERPVEALMVLKYGGVLTHAGRKQAEELGRYFRNNMYPGEGTGLLRLHSTYRHDLKIYSSDEGRVQMSAAAFAKGLLDLEGQLTPILVSLVSKDSSMLDGLDNASIEMEEAKARLNEIITSGAKNHTNGSSDVPWMTDGGGLPSNASELLPKLVKLTKKVTEQVRLLAKDEDENLSVTSSYDVIPPYDEAKALGKTNIDVDRIAAGLPCGSEGFLLMFARWRKLERDLYNERKDRFDITQIPDVYDSCKYDLLHNAHLNLEDLDELFKVAQLLADGVIPNEYGINPKQKLKIGSKIARRLLGKILIDLRNTREEAISVAELKSNQDQDSVSAKSGKEDADYHSKPHNKNEDTRRSSTTSEKSMDQDDDDDKEPQYRLDPKYANVKTPERHVRTRLYFTSESHIHSLMNVLRYCNLDDSLLGEDSLVCDNALERLYRTKELDYMSYLVLRMFENTEVALEDPKRFRIEMTFSRGADLSPLEKNDSEANSLHQEHTLPINGPERLQEVGSYLTLEKMEKMVRPFAMPAEDFPPPSTPQGFSGYFSKSASVLERLVNLWPFHKHANANGK |