Browse of TCMCG079C36437 protein

CDS

Accession Number	TCMCG079C36437
gbkey	CDS
Protein Id	XP_017410532.1
Location	join(248518..249241,250768..251020,251698..252484,259652..259776,260132..260216,260788..260953,261056..261096,261192..261444,262079..262202,265438..265798,267294..267653)
Gene	LOC108322797
GeneID	108322797
Organism	Vigna angularis

Protein

Length	1092aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA328963
db_source	XM_017555043.1
Definition	PREDICTED: type II inositol polyphosphate 5-phosphatase 15-like [Vigna angularis]

EGGNOG-MAPPER Annotation

COG_category	U
Description	Type II inositol 1,4,5-trisphosphate 5-phosphatase
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:   ATGGATTCATCATCAACGCTACGCCAAAACGTCGTCGATTCCTTCGACCGTGAAACTTCATCAGGATATTTGCACTCTTCGTCTTCCGACGACGACGCTTCGCCTTCTAACTCCATCCAATCCACCAACCGTCGCCTTGACTACATGCTTCAGTTTCTTGACCGCAAGCTCTCGGCCGAACAGCGTCGCTCCTCCGGCTCACGCGCCGCTTCGTTACCGGAGTTCGTTGCCAGGGGAGGCGGCGTGGGTATATTCCGCCTCCCTCCGCGCGGGGCGGTGCATCCGGCGAGGCCGCCGAGCCTCGAATTGCGGCCGCACCCGCTGCGGGAGACGCAGATTGGGCGGTTCCTGAGGAGCATTGTTTCCACTGAGTCGCAGCTGTGGGCGGCTTCCGAATGCGGCGTGAGGTTTTGGAACTTCAAGGATCTGTACGCGTCGTGGTGCGGCGTTGGAGAAGAAGACCAGGTTGTGAGGATAGGAGACGAGGAGAGTGCACCGTTTCGGGAATCGATGTGGTGTTCGCCGACGCTGTGTTTGGTTGCGGATGAGGGGAACAGGTTGGTGTGGAGCGGACACAGGGATGGGAAGATTAGGTGCTGGAAGATGGATGATGAGAGTTTGGAGGATAACAATAACTGCTGCGATTGGAGCAATCGGTTTAAGGAAAATTTGTCTTGGCAGGCTCACCGTGGCCCTGTTCTTTCCCTCACCTTCACCTCTTATGGGGATCTGTGGTCGGGTTCAGAAGGAGGAGGTGTAAAAATATGGCCTTGGGAGGCTGTTGAAAAATCTATTCATCTAACGAAGGAGGAAAGGCACAGCGCTGTTATATTTGTGGAGAGGTCCTATATTGACTTAAGGAGCCAACTATCTACAAATGGCTTCAGTAACATGCTGACTTCAGATGTAAAGTACTTAGTATCTGATAATTCGAGAGCAAAGGTGTGGAGTGCTGGTTATTTTTCATTTGCTTTGTGGGATGCTCGCACAAGGGAGCTACTGAAAGTTTTCAATTCAGATGGACAAATTGAAAATCGGTTGGATTTGTCCTCAATTCAAGATTTTTCGGTGGAGCTTGTTTCAAGGAAAGACAAAACACAAAGTTCCATGGGGTTCTTTCAGCGTTCACGTAATGCCATAATGGGGGCAGCTGATGCTGTTCGTCGAGTTGCAGCAAAGGGCGGCTTTGGGGATGATAATAGGAGAACTGAAGCACTAGTCATAACAATAGATGGAATGATTTGGACAGGGTGTACAAGTGGCTTACTGGTGCAATGGGACGGAAATGGCAATCGTATACAAGATTTTCTTTACCATTCATCTGCCGTTCAGTGTTTTTCTACCTTTGGCATGCAAATTTGGGTAGGTTATGTATCTGGAACTATCCAGGTATTGGATCTCAAGGGTAATCTGATTGGGGGATGGGTGGCTCATGGCAGCCCAATCGTAAAAATGACATTTGGTGCTGGTTATATATTTGCATTGGCTAACCATGGTGGTGTACGAGGATGGAACATCACCTCCCCTGGGCCTGTTGATAGTGTATTGCGTTCAGAATTAAGTGGCAAAGAATTTTTATACACTAAAATAGAAAATATAAAAATATTGAGTGGCACTTGGAATGTGGGACAAGGAAAAGCATCTCAAGATTCCCTTACTTCATGGCTGGGTTCTGTGGCCTCAGATGTTAGTCTTGTTGTTGTTGGGTTGCAAGAGGTTGAAATGGGTGCAGGATTTCTTGCAATGTCTGCTGCTAAAGAAACTGTAGGATTGGAGGGAAGTTCTGTTGGGCAGTGGTGGCTGGACATGATAGACAAAACATTAGATGAAGGTTCAACATTTGAACGTATTGGATCCAGACAACTTGCAGGCTTGGTCATTGCTGTGTGGGTTAAAACCAACATTCGATTTTATGTTGGGGATGTTGATGTGGCAGCAGTTCCATGTGGATTCGGACGTGCTATTGGCAATAAGGGAGCTGTTGGTTTGAGGATCAGAGTGTATGATCGGATAATGTGCTTCGTTAATTGTCACTTCGCAGCACATTTAGATGCAGTTGGTCGTCGAAATGCAGATTTTGATCATGTATACCGAACAATGTCCTTCAGTCGGCCAACAAACGTCTTAAATACTACAGCTGCTGGCACGTCATCTTCTGTTCCGATGTTTCGTGGTGCAAATTCCACAGAAGGGGTGCCCGAGTTATCTGAGGCAGACATGGTTGTATTTCTTGGAGATTTTAATTATAGACTTGATGACATTTCATATGATGAAGCGAGAGATTTTGTTTCTCAAAGATGTTTTGACTGGCTTAGAGAAAGGGATCAACTTCGAGCTGAAATGGAAGCTGGGAATGTCTTCCAAGGAATGCGTGAAGCAATTATAACATTTCCTCCTACATACAAGTTTGAACGGCACCAAGCTGGCTTGGCAGGGTATGATTCTGGTGAAAAGAAACGCATCCCTGCCTGGTGTGACAGAATTTTGTATCGTGACAGCTGCACATCTTTGGTGGCTGAATGCAGTTTAGAGTGCCCCGTTGTCACTTCAGTATTACAGTATGAAGCTTGCATGGATGTCACCGATAGTGACCACAAGCCTGTCCGCTGCATATTTTCTACTGATATTGCTCGAGTAGATGAATCAATCCGCAGACAGGAGTTTGGAGAGATTCTTGAATCAAATGAGAAAATTAAATTTCTTCTTAAAGAATTATGCAAGATTCCTGAAACCATCATTAGTACAAACAACATAATTCTTCAAAACCAGGACACATTAATTTTGCGAATTACAAATAAATGTGGAGAAGGCAATGCTTTGTTTGAAATAATTTGTGAAGGTCAGTCTACTGTTACAGAGGATCAGAAGGCTACTGACCATCAGTTGAGGGGTTCATTTGGCTTCCCAAGGTGGCTTGAGGTGAGTCCTGCAACTGGTATAATAAAACCAGATCAAATTGTTGAAGTATCAGTGCACCATGAGGAATTTCAGACTCTGGAGGAGTTTGTTGATGGTGTTGTACAAAATTCATGGTGTGAAGACTCCAGAGACAAAGAAGCTATTTTGGTTGTTAAGATGTATGGCAATTACACTATACAGCCAAGAAGACACCGAGTCCGTGTTCACCACTGTTATTCATCCAAGAAAAAAGCTATGATTGGCTCTCAACCAGACGGCTCCAGGAATATCCAAGGAACTGTATTGCGCCGATCTGATTTCCAACCATTCAGCAGTTCCTATGATGTGGTTGACCAGCTACAGAAATTGCATGGCCCTTAA

Protein:   MDSSSTLRQNVVDSFDRETSSGYLHSSSSDDDASPSNSIQSTNRRLDYMLQFLDRKLSAEQRRSSGSRAASLPEFVARGGGVGIFRLPPRGAVHPARPPSLELRPHPLRETQIGRFLRSIVSTESQLWAASECGVRFWNFKDLYASWCGVGEEDQVVRIGDEESAPFRESMWCSPTLCLVADEGNRLVWSGHRDGKIRCWKMDDESLEDNNNCCDWSNRFKENLSWQAHRGPVLSLTFTSYGDLWSGSEGGGVKIWPWEAVEKSIHLTKEERHSAVIFVERSYIDLRSQLSTNGFSNMLTSDVKYLVSDNSRAKVWSAGYFSFALWDARTRELLKVFNSDGQIENRLDLSSIQDFSVELVSRKDKTQSSMGFFQRSRNAIMGAADAVRRVAAKGGFGDDNRRTEALVITIDGMIWTGCTSGLLVQWDGNGNRIQDFLYHSSAVQCFSTFGMQIWVGYVSGTIQVLDLKGNLIGGWVAHGSPIVKMTFGAGYIFALANHGGVRGWNITSPGPVDSVLRSELSGKEFLYTKIENIKILSGTWNVGQGKASQDSLTSWLGSVASDVSLVVVGLQEVEMGAGFLAMSAAKETVGLEGSSVGQWWLDMIDKTLDEGSTFERIGSRQLAGLVIAVWVKTNIRFYVGDVDVAAVPCGFGRAIGNKGAVGLRIRVYDRIMCFVNCHFAAHLDAVGRRNADFDHVYRTMSFSRPTNVLNTTAAGTSSSVPMFRGANSTEGVPELSEADMVVFLGDFNYRLDDISYDEARDFVSQRCFDWLRERDQLRAEMEAGNVFQGMREAIITFPPTYKFERHQAGLAGYDSGEKKRIPAWCDRILYRDSCTSLVAECSLECPVVTSVLQYEACMDVTDSDHKPVRCIFSTDIARVDESIRRQEFGEILESNEKIKFLLKELCKIPETIISTNNIILQNQDTLILRITNKCGEGNALFEIICEGQSTVTEDQKATDHQLRGSFGFPRWLEVSPATGIIKPDQIVEVSVHHEEFQTLEEFVDGVVQNSWCEDSRDKEAILVVKMYGNYTIQPRRHRVRVHHCYSSKKKAMIGSQPDGSRNIQGTVLRRSDFQPFSSSYDVVDQLQKLHGP