Browse of TCMCG073C02971 protein

CDS

Accession Number	TCMCG073C02971
gbkey	CDS
Protein Id	XP_010551673.1
Location	join(10075038..10075824,10076675..10076927,10077178..10077988,10078370..10078494,10078917..10079001,10079323..10079628,10079726..10079993,10080530..10080653,10080897..10081257,10081767..10082123)
Gene	LOC104822227
GeneID	104822227
Organism	Tarenaya hassleriana

Protein

Length	1158aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA268022
db_source	XM_010553371.2
Definition	PREDICTED: type II inositol polyphosphate 5-phosphatase 15 isoform X1 [Tarenaya hassleriana]

EGGNOG-MAPPER Annotation

COG_category	U
Description	Inositol polyphosphate phosphatase, catalytic domain homologues
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:   ATGGAAGATCGTCGGAGCGATCAAGATGACGACGTCTTCTCCTTCTTCACGACTCCCTACGATTCCACCTCCTCTCCGGCGGAGCCGGCGACTGCAGTCGCTACTCCGTCCAGTATTTTCAACCGTCGCTCGTATTCCTCCTCCTCGTCTTCTTCCGGCGACGAATCTCAGCCTTTTCATCCTTCCATCGACGATACCAACAAGCGCATCGACTACATGATCCAGTTTCTCGACCGGAGGCTCAGCGACCAGGTCAATTTCGACGAGATCGGACCGGTGAGCGGCGGCGTCGGCAGCGATGGAAACGGTTTCGACCGATCCGGTTCGTTACCGGAATTTGTCGGGAAAGGAGGCGGAACCGGGATCTTCAAGGCGCCGGTTAGGTCGGCTGTTCATCCGAACCGGCCGCCGAGTCTGGAGGTGAGGCCGCATCCGTTGAGAGAAAGTCAAATTGACCGGTTCTTGAGGACGATGACGAGCACTGAGAACCAATTGTGGGCTGGAGGTGAAGACGGTGGCGTAAAGGTATGGGAGTTTACTGAATTGTACGGTACCGGCGGTGGTGGGGAGGAAGAGGATTCGGTGCCGTACAAGGAGTCTGCGGCGGCGGGAGCTGGGTCTGCAGTGCTCTGTATGATCGGAGACGCCGGGAGCAGAGTTGTTTGGAGCGGGCACAGAGACGGAAAGATCAGGTGTTGGAAAATGGGGGCTGAGCATGGTTTTGAGGAAGCTTTGTCATGGCAGGCTCACCGTGGTCCTGTTCTCTCCATTGTTATGTCATCTTACGGAGATATATGGTCAGGGTCAGAAGGAGGCGCTATCAGAATTTGGCCATGGGAAGCCCTTGGAAAGTCTCTTTCTCTGACAATGGAAGAAAGGCACATGGCTTCATTATCGGTAGAGAGATCGTATATTGACCCGAGGAACCAGGTTGCGGTCAATGGATATACGAATTCATTGACATCAGACGTTAAGCACCTGCTATCTGATCATACAAGGGCAAAAATATGGAGTGCCAGTCCTATGTCATTTACTTTATGGGATGCTCGCACAAAGGATTTGCTTAAAGTATTCAATATAGACGGGCAGCTTGAGAATCGAGTTGACACTTCACTTTTTCCTGATTTTGGAGCTGAAGAAGAGGTGAAGATGAAGATTGTAACTGTCACAAAAAAAGAGAAAACACAATCTTCTCTTGGTTTCTTTCAGCGCTCTCGCAATGCACTTATGGGAGCTGCTGATGCTGTTCGTCGTGCGGCAGCTAAAGGGGGGCTTTGTGATGATAATAGGAGAACTGAGGCAATTGTCATATCAGTTGATGGAATGATTTGGACTGGAAGTGCAAATGGTACGCTTGTACGATGGGACGGAAATGGTGGCCGTTTGCAAGAGTTCTCGTACCAGTCTTCTGGTGTTCTCTGTTTGTGCACGTTTTGTTCTCGACTGTGGGTTGGTTATTCCAATGGTACTGTTCAGGTATTGGACCTCGAGGGAAACCTGCTTGGAGGATGGGTAGCACATAGTGGTCCTGTAACAAAAATAGCAGTTGGGGCTGGTTATGTATTCACCCTTGCAAATCATGGGGGTATACGAGGATGGAATGTTACATCTCCTGGTCCCCTTGACAATGTCTTGCGAGCAGAGTTGGCTGGAAAAGAGTTTCTATACACAAGGATAGAGAATTTGAAAATATTAACGGGTACATGGAATGTTGGACAAGGGCGAGCATCAACCGACTCACTTGTGTCCTGGTTAGGCTCTGCTGCATCTGGAGTTGAGGTCGTAGTAGTTGGGTTGCAAGAAGTTGAAATGGGAGCAGGGGTTCTTGCAATGTCGGCGGCAAAAGAAACTGTGGGGCTTGAAGGTAGTTCGCTTGGGCAGTGGTGGCTGGATATGATCAGCAGAACTTTGGATGAGGGTTCAACGTTTGGACGCGTTGGCTCTAGACAGCTGGCAGGGTTGCTCATTGCTGTCTGGGTTAGAAACAATCTCAAACCTCATGTTGGAGATATTGACGCTGCTGCAGTTGCATGTGGTTTTGGGCGAGCAATTGGTAACAAGGGAGCTGTAGGCTTGCGACTCAGAGTTTATGATCGAGTAATGTGCTTTGTCAATTGTCATTTTGCTGCACATCTCGAAGCCGTTAACCGTCGGAACGCTGACTTTGATCATGTTTATCGGACAATGGCCTTTTCACGGCAATCTAATGGGAATTCCGGGGCTGGTATGCTGCCATATCTATTTCTGTCATGCTGTGTTGCCTACTCCGTTTATCAATTTTGGCCTATTCATTGGTCTCTCTTGTTATTGGTCTCCTCCATTGCAGCTGGTGCTTCATTTGGAGTTTCAGTGCCTCGTGGGGGAAATGCTGTGGGTGTTGGCACAGTTGAACCAATGCCAGAGTTATCTGAGGCAGACATGGTCATATTTCTTGGAGATCTTAATTATCGTTTGGATGATATAACTTATGACGAAGCAAGGGATTTTATTTCTCAAAGATGCTTTGATTGGCTAAGAGAAAAGGATCAGCTACATGCTGAAATGCAAGCTGGGAATGTATTTCAAGGGATGCGTGAAGCAGATATCAGGTTCCCTCCCACGTACAAGTTCGAAAGACACCAAGCTGGTCTAGCAGGATATGATTCCGGGGAAAAGAAGCGTATTCCTGCATGGTGTGACAGGATTCTATATCGAGATAGCAGGAAAAATTCGGGATCTGATTGCAGTTTGGAGTGTCCCATTGTCTCTTCTGTATCACAGTATGATGCCTGCATGGATGTGACAGACAGTGATCACAAGCCAGTTCGCTGTGTCTCTAGCATCAAGATAGCTCGTGTCGACGAATCGATCAGGAGACAAGAATTCGGGGAAATCATGCGCTCGAACAAGAAAATCAAAGTAATGCTTGGAGAGTTAAGCAAGGTTCCAGAAACAATCGTTAGTACCAACAATATAATCCTCCAAAACCACGACACTACTCTTTTGCGTATTACGAATAAAAGCGAGAAGAATAGTGCTTTCTTCGAAATAATCTGCGATGGTCAGTCTCATATCAAGGAGGATGGTCACGCATATGATCACCATCCAAGAGGCTCCTTCGGGTTTCCCCAATGGCTTGAGGTTTATCCGGGAACAGGTATAATCAAGCCAAACCATATAGCGGAAGTTTCGATACATCTCGAGGACTTCCCGACAGTGGAAGAGTTTGTGGACGGCGTTCCTCAAAACTCGTGGTGTGAGGATGTCCGAGACGAGGAAATCATATTAGTGGTCAAGGTCCGGGGCCGCTTCTCTACCGAAACACGAAACCACAGAATCCGCGTGCGTCACTGCCTGTCCGCAGCAAGAAAATCAGGCCAACGATCCGAAAACCCCATGGGAAAAGCCCCGGTTAACGTCCTACCGAGATCGGACTACCAACGGTTTAGCAACACACACGACATGGTCGAGCAGTTAAGGAACTTGCATAGTCCGTAG

Protein:   MEDRRSDQDDDVFSFFTTPYDSTSSPAEPATAVATPSSIFNRRSYSSSSSSSGDESQPFHPSIDDTNKRIDYMIQFLDRRLSDQVNFDEIGPVSGGVGSDGNGFDRSGSLPEFVGKGGGTGIFKAPVRSAVHPNRPPSLEVRPHPLRESQIDRFLRTMTSTENQLWAGGEDGGVKVWEFTELYGTGGGGEEEDSVPYKESAAAGAGSAVLCMIGDAGSRVVWSGHRDGKIRCWKMGAEHGFEEALSWQAHRGPVLSIVMSSYGDIWSGSEGGAIRIWPWEALGKSLSLTMEERHMASLSVERSYIDPRNQVAVNGYTNSLTSDVKHLLSDHTRAKIWSASPMSFTLWDARTKDLLKVFNIDGQLENRVDTSLFPDFGAEEEVKMKIVTVTKKEKTQSSLGFFQRSRNALMGAADAVRRAAAKGGLCDDNRRTEAIVISVDGMIWTGSANGTLVRWDGNGGRLQEFSYQSSGVLCLCTFCSRLWVGYSNGTVQVLDLEGNLLGGWVAHSGPVTKIAVGAGYVFTLANHGGIRGWNVTSPGPLDNVLRAELAGKEFLYTRIENLKILTGTWNVGQGRASTDSLVSWLGSAASGVEVVVVGLQEVEMGAGVLAMSAAKETVGLEGSSLGQWWLDMISRTLDEGSTFGRVGSRQLAGLLIAVWVRNNLKPHVGDIDAAAVACGFGRAIGNKGAVGLRLRVYDRVMCFVNCHFAAHLEAVNRRNADFDHVYRTMAFSRQSNGNSGAGMLPYLFLSCCVAYSVYQFWPIHWSLLLLVSSIAAGASFGVSVPRGGNAVGVGTVEPMPELSEADMVIFLGDLNYRLDDITYDEARDFISQRCFDWLREKDQLHAEMQAGNVFQGMREADIRFPPTYKFERHQAGLAGYDSGEKKRIPAWCDRILYRDSRKNSGSDCSLECPIVSSVSQYDACMDVTDSDHKPVRCVSSIKIARVDESIRRQEFGEIMRSNKKIKVMLGELSKVPETIVSTNNIILQNHDTTLLRITNKSEKNSAFFEIICDGQSHIKEDGHAYDHHPRGSFGFPQWLEVYPGTGIIKPNHIAEVSIHLEDFPTVEEFVDGVPQNSWCEDVRDEEIILVVKVRGRFSTETRNHRIRVRHCLSAARKSGQRSENPMGKAPVNVLPRSDYQRFSNTHDMVEQLRNLHSP