Browse of TCMCG054C03573 protein

CDS

Accession Number	TCMCG054C03573
gbkey	CDS
Protein Id	XP_016652000.1
Location	join(26690195..26690486,26690670..26691155,26691242..26691494,26691970..26692762,26693635..26693759,26693900..26693984,26694896..26695058,26695160..26695200,26695307..26695574,26695929..26696052,26696525..26696885,26697591..26697947)
Gene	LOC103318834
GeneID	103318834
Organism	Prunus mume

Protein

Length	1115aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA246160
db_source	XM_016796514.1
Definition	PREDICTED: type II inositol polyphosphate 5-phosphatase 15 isoform X2 [Prunus mume]

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:   ATGGACGAAAGCGACGACCTGTTATCGTCTCTGAGCCTCAGCAACCCACAGCCAAGACCAATCCAAGTAAACGAAAACCATGACCTCTTCACTCTGACTCCCAATGAATTGTTCCCGGACTCCTCATCCTCCTCATCGGGAGATGAGAACGACGCCGTTTCCCTCCACTCCTCCTCCAAACGCCTCGACTACATGCTACAATTCCTCGACCGCAAGCTCTCCGACGGCAACAACAAAAACACCAACAATAGTAATACCACTGCTAAGAGCAGCAAAGCCTCCAACAGGCAGGAGGGTCACCTCTCTTCGCTCCCAGAGTTCGTTGCCAAGGGCGGAGGGACTGGAATCTTCAAAGTCCCGGTTCGGGGGCCGGTCCACCCGAGCCGCCCGCCGAGGCTGGAAGTGAGGCCCCACCCACTGAGGGAGACTCAGATAGGGTGCTTCTTGCGGACGATGGCGACCACCGACTCCCAATTGTGGGCGGGGACGGAGTGCGCCGTTAGGGTTTGGAATTTCAAGGATCTGTACTCTGCGGCAGGCCAAGGCGATTCAGGGGATGAGGAAACGGTGCCGTTTAGGGAGTCGGTGTGCACATCGGCCGTGATATGCTTGGTTAAAGATGAGGGGAGTAGGGTGGTGTGGAGCGGGCATAGGGATGGTAGAATCAGGTGTTGGAAGATGGAATCGGCTACTCCTATTCCTGCCAATCCGTTTAAGGAGGGCTTGTCTTGGCAGGCTCACAGAGGCCCCGTTCTTTCACTTGTAATCTCTTGTTATGGGGATCTGTGGTCGGGTTCAGAGGGTGGTGTCATCAAGATATGGCCATGGGAAGCTATTGAAAAAGCTCTCTCCCTAACCACCGAAGAAAGGCACATGTCTTCTTTGTTGGTGGAGAGGTCTTACATTGAACCTTGGACCCAAGTTGCCGTTAATGGTTTCACTAACATATTAACTTCAGATGTTCGCTACTTATTATCTGATCATTCCGGAGCAAAGGTGTGGAGTGCTGGTTATCTCTCATTCGCATTGTGGGATGCTCGTACAAGGGAGTTGCTGAAAGTGTTCAGCACAGATGGTCAGATTGAGAATCGGGTCGACATTCCATCAGCACAGGACCCCTCAGGGGAATATGTTTCTGGATCAAAAAAAGACAAAACACAAAGTTCTTTTGGTTTCTTTCAGCGATCACGTAATGCTATAATGGGAGCAGCAGATGCTGTTCGTCGAGTTGCAGTGAAGGGTGCCTTTGGAGATGATAATCGAAGAACTGAAGCAATGGTAATTGCAGTGGATGGAATGATTTGGACTGGGTGTACAAGTGGCCTACTTGTACAGTGGGATAGAAATGGCAATCGTATACAAGATTACCACTATCATTCTTCTGCTGTTCATTGCTTTTGTACATTTGGGCTACGTATATGGGTGGGTTATGCGAGTGGGACTGTCAACGTATTGGACCTTGAGGGTAATCTGCTCAGAGGATGGGTAGCTCACAGCAGTCCTGTTATAAAAATGGCTGCAGGAGCTGGCTTTATATTTACCTTGGCTAATCATGGCGGTATATGTGGATGGAATATTACATCCCCAGGACCTCTTGACAGTATATTGTGGTCAGAATTAGCTGGCAAAGAATTTCTATATACAAAGATAGAAAGCTTGAAAATATTGACTGGTACATGGAACGTTGGACAAGGAAGAGCATCCCATGACTCACTTATATCCTGGCTGGGCTCTGTGGCTTCTACTGTTGGAGTTATTGTTGTCGGGTTGCAAGAAGTTGAAATGGGCGCTGGTTTTCTTGCTATGTCTGCAGCCAAAGAAACTGTAGGTCTTGAGGGGAGCTCTGTTGGGCAGTGGTGGCTGGATATGATTGGAAAAACGTTGGATGAAGGGTCAACATTTGAACGTGTTGGTTCCAGGCAGTTGGCAGGATTGCTCATTGCTGTGTGGGTGAGAAACAATATTAGGACTCATGTTGGGGATGTCGATGCTGCAGCAGTGCCATGTGGTTTTGGGCGTGCCATTGGTAACAAGGGAGCTGTTGGTTTGAGGATTAGAATGTATGGTCGGATAATGTGCTTTGTTAATTGTCACTTTGCTGCACATTTAGAAGCTGTTAATCGTCGCAATGCAGACTTTGATCATGTATATCGAACAATGAACTTCTGCCGACCTAACTTTCTCAATTGTGCAGCTGCTAGTACTTCATCTGCAGTACAAATTCTTCGTGGCACACATACTATTGGTATCAATTCTGCTGAAGGGATGCCTGAGTTATCTGAAGCAGACCTGGTCATATTTCTTGGCGATTTTAACTATCGGCTTGATGGTATATCTTATGATGAAGTTAGAGATTTTGTTTCACAAAGATGTTTTGATTGGCTCAGAGAAAGGGATCAACTCCGAGTGGAAATGGAAGCTGGAAATGTCTTCCAAGGAATGCGTGAGGCCGATATTACGTTTCCTCCCACGTACAAGTTTGAAAGGCATCAAGCTGGTTTAGCAGGATATGATTCTGGTGAGAAGAAGCGCATTCCAGCTTGGTGCGATAGAATCCTGTACCGTGATAGCCGCTCAGCGTCAGTGTCAGAGTGCAGCTTAGAATGTCCTGTAGTGTCTTCAATATCACAGTATGAGGCCTGCATGGATGTGACTGACAGTGATCACAAGCCTGTCCGCTGCATTTTTACTGTTGATATTGCTCGAGTTGATGAGTCAATAAGAAGACAAGAGCTTGGAGAAATCCTTAAATCAAATGAGAAAATCAAATTTATGGCTGAAGAAATATGCAAGATTCCAGAAACTATTGTCAGTACAAACAACATAATCCTTCAAAACCAGGACACATCCATTTTGCGTATTACAAATAAATGTGGCAAAAAAGATGCTTTTTTTGAAATAATTTGTGAAGGACAGTCTATCATTAAGGAGGGTGGGCATGCATCAGATCATTGTCCTAGAGGTTCCTTTGGCTTTCCACGATGGCTTGAGGTCACTCCTTCAGCTGGCATTATCAGACCAGATCATATAGCTGAGGTATCTCTTCATCATGAGGAACACCAAACCCTAGAAGAGTTCGTTGATGGTGTCCCACAAAACTGGTGGTGTGAAGACACCAAAGACAAGGAAGTGATATTGGTGGTTAAGGTGCATGGCAGTTATTCTACTGACACAAGACATCATCGTGTCTCTGTGCGCCACTGCTGTTCAGCCAAGACAAACCAAATGGACCCCCCCGAGCACAGGGCTAGACAAACCCAAGGGACTGTTCTTCACCGGTCTGACTTTCAACACCTTAGCAGTTCCTGTGATGTGGTTGACGACCTGTGGAGTTTATGTAGTCCTTAG

Protein:   MDESDDLLSSLSLSNPQPRPIQVNENHDLFTLTPNELFPDSSSSSSGDENDAVSLHSSSKRLDYMLQFLDRKLSDGNNKNTNNSNTTAKSSKASNRQEGHLSSLPEFVAKGGGTGIFKVPVRGPVHPSRPPRLEVRPHPLRETQIGCFLRTMATTDSQLWAGTECAVRVWNFKDLYSAAGQGDSGDEETVPFRESVCTSAVICLVKDEGSRVVWSGHRDGRIRCWKMESATPIPANPFKEGLSWQAHRGPVLSLVISCYGDLWSGSEGGVIKIWPWEAIEKALSLTTEERHMSSLLVERSYIEPWTQVAVNGFTNILTSDVRYLLSDHSGAKVWSAGYLSFALWDARTRELLKVFSTDGQIENRVDIPSAQDPSGEYVSGSKKDKTQSSFGFFQRSRNAIMGAADAVRRVAVKGAFGDDNRRTEAMVIAVDGMIWTGCTSGLLVQWDRNGNRIQDYHYHSSAVHCFCTFGLRIWVGYASGTVNVLDLEGNLLRGWVAHSSPVIKMAAGAGFIFTLANHGGICGWNITSPGPLDSILWSELAGKEFLYTKIESLKILTGTWNVGQGRASHDSLISWLGSVASTVGVIVVGLQEVEMGAGFLAMSAAKETVGLEGSSVGQWWLDMIGKTLDEGSTFERVGSRQLAGLLIAVWVRNNIRTHVGDVDAAAVPCGFGRAIGNKGAVGLRIRMYGRIMCFVNCHFAAHLEAVNRRNADFDHVYRTMNFCRPNFLNCAAASTSSAVQILRGTHTIGINSAEGMPELSEADLVIFLGDFNYRLDGISYDEVRDFVSQRCFDWLRERDQLRVEMEAGNVFQGMREADITFPPTYKFERHQAGLAGYDSGEKKRIPAWCDRILYRDSRSASVSECSLECPVVSSISQYEACMDVTDSDHKPVRCIFTVDIARVDESIRRQELGEILKSNEKIKFMAEEICKIPETIVSTNNIILQNQDTSILRITNKCGKKDAFFEIICEGQSIIKEGGHASDHCPRGSFGFPRWLEVTPSAGIIRPDHIAEVSLHHEEHQTLEEFVDGVPQNWWCEDTKDKEVILVVKVHGSYSTDTRHHRVSVRHCCSAKTNQMDPPEHRARQTQGTVLHRSDFQHLSSSCDVVDDLWSLCSP