CDS
| Accession Number | TCMCG042C54931 |
| gbkey | CDS |
| Protein Id | XP_016487067.1 |
| Location | join(78079..78964,80395..80650,81068..81869,83274..83404,83942..84026,84654..84962,85090..85354,85825..85948,86246..86606,87279..87635) |
| Gene | LOC107807236 |
| GeneID | 107807236 |
| Organism | Nicotiana tabacum |
Protein
| Length | 1191aa |
| Molecule type | protein |
| Topology | linear |
| Data_file_division | PLN |
| dblink | BioProject:PRJNA319578 |
| db_source | XM_016631581.1 |
| Definition | PREDICTED: type II inositol polyphosphate 5-phosphatase 15-like isoform X1 [Nicotiana tabacum] |
EGGNOG-MAPPER Annotation
| COG_category | U |
| Description | Type II inositol |
| KEGG_TC | - |
| KEGG_Module | - |
| KEGG_Reaction |
R04404
[VIEW IN KEGG] R09827 [VIEW IN KEGG] |
| KEGG_rclass |
RC00078
[VIEW IN KEGG] |
| BRITE |
ko00000
[VIEW IN KEGG] ko00001 [VIEW IN KEGG] ko01000 [VIEW IN KEGG] ko04131 [VIEW IN KEGG] |
| KEGG_ko |
ko:K01099
[VIEW IN KEGG] |
| EC |
3.1.3.36
[VIEW IN KEGG]
[VIEW IN INGREDIENT] |
| KEGG_Pathway |
ko00562
[VIEW IN KEGG] ko01100 [VIEW IN KEGG] ko04070 [VIEW IN KEGG] map00562 [VIEW IN KEGG] map01100 [VIEW IN KEGG] map04070 [VIEW IN KEGG] |
| GOs | - |
Sequence
| CDS: ATGGAATCTTCTCGAATCGACGATGAAGACGGCGACCTTTTAGCTTCTACTTCCAATACCTCCAGTCGTCGGAATTTCCACTGTTACAGTGAAAAATTCGCTTTCAACTCTGATTCCGATTCGGACGACGGCGAAAATGTCAGTACACTCGGCGGTTCCGGCCGGAAATTTAGCTTAGACGAGACGGAGCGAACTCCGAAATTATTCGACCGGTTCTACGGCACTTCATCTTCCGATGACGAAGAGTTCAGCTCTGGTTCAGGTCAAAACGGCGCCGCCGTTCGCAAACGACTTGATTATATGATTCAATTCCTCGACCGTAAGCTTTCTTCTGAAACAGCTGCGACTTCTGACGGTAATACTAACGGCAAGAGCCAGTCACAGGGTTTACCTGAGTTTGTAGGTAAAGGTGGCGGTACCGGCATTTTCAAGTTGCCGGTGCGTGCCGCAGTGCATCCTGATCGGCCGCCGTCATTGGAATTACGGCCGCATCCGTTGAGAGAAAGGCAAATCGGGCGATTTTTGAGGACTGTACTGTGTAATGGATCTCAGCTATGGGCTGGGTCGGAGTGTGGAGTTCGGGTATGGAATTTTTCAGATATATATGATGCTGCTTCTGAAGAAGAAGATGAAAATGAGGACTTTGAGGATGCTGCACCTTTTGTGGAGTCTGTTAGCGTTTCACCAACGTTTTGCCTTGTTAAAGATGCTGGGAATAGGTTGATGTGGAGTGGACATAAAGATGGTAAAATCAGGTGTTGGAAAATGGACAGTGAAATTAGCAGTAGAGAGAAAGGTGCTGCTTGTGGAAGAGCTACTTTGAAAGAAGTGCTGACGTGGCAGGCTCATCGCGGTCCAGTTCTTTCCATGATCATGACTTCCTATGGCGATCTATGGTCTGGATCTGAGGGTGGTTCCATCAAGATCTGGCCGTGGGAAGGAATTGAGAAATCGCTTCCACTGATAGAGGAGGAAAGGCACATGGCTGCTTTGTCTATAGAGAGGTCATACGTGGATCTGAAGAGCCAATTTATACAAAATGGCACATGCAATAGCATATTTTCTGTCGATGTCAAATATATGATCTCTGATCGCTCTGGAGCAAAAGTTTGGACTGCTGGTTATGTGTCATTTGCACTTTGGGATGCGCGGACGAGAGATTTATTGAAAACTTTCAACACAGATGGTCAGGTTGAAAATACACTAGCAGCACAAGATCCTGTTATTGAAGATGAAATGAGGATGAAAATAGTGTCCAGTTCGAAAAAGGACAAGTCTCAAAGTTCTATCAGCTTCTTTCAGCGTTCACGCAATGCTATCTTGGGAGCAGCTGATGCTGTTCGTAGGGCTGCGACTAAAGGAGGATTTGGAGAAGAGAATCGGAGAACTGAAGCATTGATCATTACGGCTGATGGAATGATTTGGAGTGGCTGTGCAAATGGATTACTTGTCCAATGGGATATAAACGGCAATCGGTTGCAAGAAATCCAGTATCACGCATTCTCTGTTCAATGCTTGTGCACATATGGGTTACGGATTTGGGTGGGTTATGCTAGTGGTTATATTCAGGTGTTGGATCTTAATGGTAATCTACTTGGAGGATGGATGGCTCATAGTAGTCCTGTAATAGATTTGTCAGTGGGTGGAGGTTATGTTTTCACTTTGGCTAATCATGGAGGTATACGAGGTTGGAGTGTGATATCTCCTGCACCAGTGGATGGTATTTTGCGCTCAGAGTTAGCTAGCAAGGAATTTTTGTATACTAGGCTAGAGAATTTAAAAATATTGGCTGGTACATGGAATGTTGGTCAAGGAAGAGCTTCTCCTGATTCACTTATATCATGGCTAGTTTCTGCAGCAGCAGATGTTGGCATCATTGTTGTTGGCTTGCAGGAGGTAGATATGGGCGCTGGTTTTCTTGCTATGGCTGCTGCTAAAGAAACAATGCAGGTAGGTCTTGAAGGAAGTACTGCTGGTCAATGGTGGTTGGAAATGATTGGAAAAACCTTGGATGAAGGATTGACTTTTATCCGTGTTGGCTTCAGGCAGTTGGCAGGCTTGGTTATTTCTGTCTGGGTCAGAAGTAGTATTAGTCGTTGTGTTGGCGATGTTGATGTTGCAGCAGTACCTTGTGGTTTCGGGCGTGCAATTGGGAACAAGGGAGCAGTAGGATTGAGGATGAGAGTCTATGATCGTACTATGTGCTTTGTGAACTGTCACTTTGCTGCACATTTAGAAGCTGTCAGTCGTCGGAATGCTGATTTTGACCATGTTTATCGAACTATGGTCTTTAGTCGGCCATCAAACTTTCTCAATGCTGCTGCTGGTATGGTGCCATACCTTTTCACAGCTTGCTTGCTTGCCTGCTCTATGTATTTAATCTGGGTTGTTTATGGTTCTCGGTTGCCATTGGTCCTTTCTGTTGCAGCTGGCGTCTCATCTGCGATTCAAATGCTCCGCAGTGCAAATGGTGCGTTTAACTCTGCAGAAGCAATGCCAGAGCTATCTGACTCAGATATGGTTGTGTTTCTTGGTGACTTGAACTATCGGCTTGATGGCATTTCTTATGATGAAGCAAGAGATTTTATTTCTCAAAGGTGCTTTGATTGGCTTAGAGAGAGGGATCAGTTGCACACAGAGATGGCAGCTGGGAATGTCTTCCAAGGAATGCGTGAAGCAGTAATCAGATTTCCTCCAACATACAAATTTGAGAGGCACCAAATTGGCTTAGCAGGGTATGATTCTGGTGAAAATAAGCGGATTCCTGCTTGGTGTGACAGAATTTTGTATCGTGATAGCCGTTCCGCCTCAGCTTCCGCGTGCAGCTTAGATTGTCCTATCGTCTCATCAGTTTTGCAGTATGAAGCTTGCATGGACGTGACAGATAGTGACCACAAGCCTGTAAGGTGCATATTCAATGTGGAGATTGCTCGAGTGGATGAATCAGTGAAAAGGCAAGAATATGGGGAAATCATTAGATCAAATGAGAAAGTTGTGCTTATGCTTGGAGAACTGAATAAAATTCCAGAAACAATAGTCAGCACAAATAACATAATCCTCCAGAACATGGACTCATCCATCTTGCGCATTACAAATAAGAGCGGCAAAAACAAAGCTATTTTTGAAATAACTTGTGAAGGTGAGTCCACTGTTAAAGATGATGGGCAAGTGGTTGATCATCCTCCAAGAGGTTCTTTTGGTTTCCCTCGTTGGCTTGAGGTCAATCCTGCAGCTGGCATCATTGAACCAGACCATATTGTTGAAATTTTAGTTCACCATGAAGACCACCAGACACTTGAGGAGTTTGTTGATGGGATTCCTCAAAACTTTTGGTGTGAAGATGCCAAGGATAAGGAAGTCACGTTGGCAATCAACGTTCGCGGTTGCTTCTCAACGGAGACAAAATGTCACCGTATTCGTGTACGCCACTGCTTTTCAGGCAAGCCTTTGCCAGCAGAGATCAGGCCCAACAACTCTAATCATCTGCGGACAAATGTCCTCCACCGATCTGACTTTCAGCCTCTTGGTTTTGCGCCTGATGTTGTCGACGACCTAATAAATCTAAATAGTCCTTGA |
| Protein: MESSRIDDEDGDLLASTSNTSSRRNFHCYSEKFAFNSDSDSDDGENVSTLGGSGRKFSLDETERTPKLFDRFYGTSSSDDEEFSSGSGQNGAAVRKRLDYMIQFLDRKLSSETAATSDGNTNGKSQSQGLPEFVGKGGGTGIFKLPVRAAVHPDRPPSLELRPHPLRERQIGRFLRTVLCNGSQLWAGSECGVRVWNFSDIYDAASEEEDENEDFEDAAPFVESVSVSPTFCLVKDAGNRLMWSGHKDGKIRCWKMDSEISSREKGAACGRATLKEVLTWQAHRGPVLSMIMTSYGDLWSGSEGGSIKIWPWEGIEKSLPLIEEERHMAALSIERSYVDLKSQFIQNGTCNSIFSVDVKYMISDRSGAKVWTAGYVSFALWDARTRDLLKTFNTDGQVENTLAAQDPVIEDEMRMKIVSSSKKDKSQSSISFFQRSRNAILGAADAVRRAATKGGFGEENRRTEALIITADGMIWSGCANGLLVQWDINGNRLQEIQYHAFSVQCLCTYGLRIWVGYASGYIQVLDLNGNLLGGWMAHSSPVIDLSVGGGYVFTLANHGGIRGWSVISPAPVDGILRSELASKEFLYTRLENLKILAGTWNVGQGRASPDSLISWLVSAAADVGIIVVGLQEVDMGAGFLAMAAAKETMQVGLEGSTAGQWWLEMIGKTLDEGLTFIRVGFRQLAGLVISVWVRSSISRCVGDVDVAAVPCGFGRAIGNKGAVGLRMRVYDRTMCFVNCHFAAHLEAVSRRNADFDHVYRTMVFSRPSNFLNAAAGMVPYLFTACLLACSMYLIWVVYGSRLPLVLSVAAGVSSAIQMLRSANGAFNSAEAMPELSDSDMVVFLGDLNYRLDGISYDEARDFISQRCFDWLRERDQLHTEMAAGNVFQGMREAVIRFPPTYKFERHQIGLAGYDSGENKRIPAWCDRILYRDSRSASASACSLDCPIVSSVLQYEACMDVTDSDHKPVRCIFNVEIARVDESVKRQEYGEIIRSNEKVVLMLGELNKIPETIVSTNNIILQNMDSSILRITNKSGKNKAIFEITCEGESTVKDDGQVVDHPPRGSFGFPRWLEVNPAAGIIEPDHIVEILVHHEDHQTLEEFVDGIPQNFWCEDAKDKEVTLAINVRGCFSTETKCHRIRVRHCFSGKPLPAEIRPNNSNHLRTNVLHRSDFQPLGFAPDVVDDLINLNSP |