Browse of TCMCG018C23187 protein

CDS

Accession Number	TCMCG018C23187
gbkey	CDS
Protein Id	XP_031738439.1
Location	join(30335451..30335531,30336138..30336335,30336547..30336669,30336894..30336931,30337019..30337187,30337514..30337688,30337774..30340448,30340539..30340628,30340741..30340877,30341173..30341413)
Gene	LOC101220815
GeneID	101220815
Organism	Cucumis sativus

Protein

Length	1308aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA182750
db_source	XM_031882579.1
Definition	intracellular protein transport protein USO1 isoform X3 [Cucumis sativus]

EGGNOG-MAPPER Annotation

COG_category	-
Description	-
KEGG_TC	-
KEGG_Module	-
KEGG_Reaction	-
KEGG_rclass	-
BRITE	ko00000        [VIEW IN KEGG] ko04131        [VIEW IN KEGG]
KEGG_ko	ko:K20283        [VIEW IN KEGG]
EC	-
KEGG_Pathway	-
GOs	-

Sequence

CDS:   ATGTTCAGGTTGCACAGGAACCGGCATGCGAAATCAGGGGAGAAATTTGATTTCAAATTCTCCAATTTCAAGGCCACCCAGGTGCCTAAAGGTTGGGACAAGCTATTTGTATCTGTAATTTCTGAGCAAACTGGGAAGGCAATTGTCAGGTCAAGCAAAGCACCAGTTCGTAATGGAAGTTGCCAGTGGACTGAGTCTTTATCAGATTCCATTTGGGTTTCACAAGATGAAGTTTCTAAGGAGTTTGAGGATTGTAATTTCAAGCTTGTTGTGGCCATGGGGTCAGCAAGATCTAATATTCTTGGAGAGACTATGGTCAACATGACAAATTACATAGATTCCAAATCTTCTTCTGCAGTCTCACTTCCACTGAAAAAGTGCAACCATGGAACTATTTTACAAGTGAAAATCCAGTGCTTAGCTCCAATATCAAAAGTAAGGAGTGGAGAATTTAAACATACAGATTCTCCAAAACAAGACTTCAAAAAGGAAGGTCATGACTCAGATAGCTGCTCTGATATAACAGATAGCCAATTGTCGAGAAGTATTGGATCTTCCTCTGGTGCAGATTTATACTCTAGTTTACATTCTGGAGAAGCTAGCAGCAAGGAAGCAAGTTTCTCTGCTTCCTATTCACAGCTCAGCAATTCGTCATCTGAGGTTTACGAATCCGTAGAGAATGACGCTGCAAAAAACAATTATAGTGATATTCAAAGACAAGATTCGGTGAGCTCACAGAATAGTGCTCCTTGTTTATCTCCTAATTCTGTAATTACTGGTTCAGCAGAAGCAACGACTATTGAGGAACTTCGTGCTGAAGCTAGGATGTGGGAGAGAAATTCCCACAAACTGATGGCTGATCTTGATCAGTTGAAGAAAGAGTTTTCAGATCAATCTGAAAACCAGGAAAGTTTACATGCTGCACTTTCAGCAGCGACTGCAGAATGTGATGGTTTGAGAAAAGAACTTGAGCAACTGAAATTGGTGACTGAGAAGTCAAAACAGAGACGGACAAGCATTGAGGATTTATCATATCAGGATGGGGAACCACACATCCTAAATGAATTGAAGGATGAACTGAACTTCCAAAAAGAAACCAATGCTGATTTAGCTCTGCAGCTAAAGAGAAGTCAAGAATCAAATATTGAGCTTGTGTCCGTTCTTCAGGAGCTAGAAGCAACTACAGAAAAGCAGAAACTTGAGATAGAGGAACTTTTGGCACGGCACCAAAAAGATGATGATATCGAAAATATTAATAAAGAAAACAAGAAATTGGTGCTTCAGTTAGAGCATGTGAAGGAATCAGAGAAGAATCTTCAATTGAAGGTTGGGGTTCTGGAGAGAAACTTGGAGGAAGCAAAACTTGATTTACAGAAATCTGAGGCCTCAAATCAAAGATTCCCTCAGGATACTGAAAGGCAATACGATAGTCTGCAAAATTCTGAGGAAAATGTGGGGTCCTTACATCATGTAAACATAAATCTAGTGAAAGAAATTGAAATGTTGAAAGAAAAAGTTCTGGAGTTAGAGAAGGATTGTAATGAATTGACAGATGAAAACATAGATCTCTTGTACAAGCTTAAGCAAGCAAATGGCGACTCTAAGGGGGGAAGTTTGGCTCTTAACTCCACAGGTGATGAGCTTCTATCTAAATCTTTTGTTAATTTTGGATTTGAATCTATGAAACACAGACATTCTGAACAAATTTCAGAAGAAAAAATTGAGAAAAGTCCTAATGTGATTGAGAATAACGATTTCAATAAAAAACCAGAGAGTATGAAATTTGAGCTGGAAATCATAGTCGAAGAGCTCAGTAAAGAATTAACTTTGAAAAAGCTGGAGATTGAAAAACTTGAGTCTAGCATTTTATCCAAAGATGACGAGATTAAGATCCTCGAAGGTTTGCATAACAAATTGCAAGCTAAGTATTCTGATCTCCAGGAAGAAAAAAATCAGATCGATGAAAAGATGATGGAAGTCATGCTTGGAGAAAGTGATGGCAGTTCTAAAGGCTTAAATGGTCTGCGAAATGAAGTAAAGGCGCTTAGCAACAGTGTGGATTTGCATGTTTCTGCAAACAAGCTTCTTGAAAGTAAATATTCAGAGCTTCAATTTAAAAAACAAGAACTTGATCTCCACGTATCTCAGATTGAACAGGAACGCATACGGTTGTCAGAAAGCATATCTGTTTTGGAATCTCAACTAAAATACATGATGGGCGAGAAGCAGTCAATTCGCCTTGAGTTAGAAGACTCTAAGTCTCATGCTGTGAGTCTCCAAGATGAGTTTGATAAACTGAGACTCGAGATAGAGACAGAAAATGTTGATTTGAAACAAATGTTGAATGACTTGCAAAACCAGTGTGCAAAGGCTCAAGATCAATGTGAGTACCTGCAGAGAGAAAAAACGAAGTTGGAGGCTGCAGCTGAGCATCTCGTTGAAGAACGAAATTTGCTTAAAAAATCAAATGGAGAGCTGAAGAACAAGAATTTCGAGTTGCATGAGGGTTATTTTCGCTTGGAATCGAAAGTGAAGGAACCGCTTGAAAGGTCTGCACAGTATTTCAGAAGAATTGAGGATTTCGAAGATTATCTCTCTCTTGGGTTGGAGGATTTCGCCTCAAAAGAAAGATTCCTATCTTCGGAATTAGATTCAATCGTTGAAGAGAACATAAAATACAAAGAGAAACTTGCTATGTTCGAAAGCTTGTCTAATGAAACATATTGGGAGAAGGCAACTGAAGCTCAAGAACTTCATGGAGCCGTTGTGCATCTGACCAAGCAACTTTCAGCAGCCAAGAAGGATTTCAACATCATGCGAATGGAATCTGATGAAAATTTAACGGCTCTGATTAGTGAACTTTCCGTGTCAAAACAAAACCAAGAGACACTGATAGCTGACAATGAAAAGTTACTGAAGCAGTTGGAAAATTACAAATCACTTGAAGTTGAACTTAAGAACTCTGTCAATGACCTTGAACAAAAGCTATATGTTTCTGAAAAAGAAAGACGGCAGAATGAGGAAAACTTAACTAACTTTAAAGTTCAGTTGCAAAAAACAGCCCATTTTCAGGATGAGGTTTTTGCATCGAGCAATAAGCTTGAACAGAAAACTGTTGCTGAATTAGAAGACAGTAAACAGAGCCGAATTGACCTGGAAGAAAAGCTTCTGAGAATAGGGAGTGGGTCAGTAGTGGAAGAGACATCATTTCCAGGGATTGATGATTTAAGAAATGAGCTCTGCGAGATTAAGAGAATGAACAGTAAGTACCAACAGAAACTGAAAATACTTGAGGAGGAGAAAGATGGGTGCCTAAAAAGATCTCAATCCCTTGAAGCTGAACTGGAACATTTAAAAGAAGAAAAACAGATCCAACGGGAGTCTAGCAGTGTAAGGATTCATAGTCTTTCCAAAACCAACGACAAAAACATGACCAGTAAAGACATGAAGCTTCTTAAAAATGGTGCGGTAAAGACAGTTGGTCAAAATCACAGTGGGAAGAAGAAGCCTAAGGACCCTAACAGCAATCAATCTCAATCTCAAATTAAGGATGATAGTGGATGTGATATTGATGATGAAGGGCCTCACGTTCCTGAAGCTAAATCAATTTCAAGAATTCAGATGCTCGAAAAAGAACTTGCTGAGGCTTTGGAAGCAAACAAGAAATATGAAGATCAGCTGAGCAGGCTTGTTTCAGACACTCAAAACAACAAAGAAAATTCTCCCATATCAACAATTGAAGGCGATGTTGTAAAGACAAAGGAAGGATACGAAAGCCTTAACTCGGATCTAGAGGCGGAGTTAAAAGACATTCGTGAGCGGTACTTCCACATCAGCCTTAAGTATGCAGAAGTCGAGCATCAGCGAGAGGAACTTGTTATGAAGCTCAAAGCAGCCAAGAACAGCGGAAGAAGGTGGTTCTCATGA

Protein:   MFRLHRNRHAKSGEKFDFKFSNFKATQVPKGWDKLFVSVISEQTGKAIVRSSKAPVRNGSCQWTESLSDSIWVSQDEVSKEFEDCNFKLVVAMGSARSNILGETMVNMTNYIDSKSSSAVSLPLKKCNHGTILQVKIQCLAPISKVRSGEFKHTDSPKQDFKKEGHDSDSCSDITDSQLSRSIGSSSGADLYSSLHSGEASSKEASFSASYSQLSNSSSEVYESVENDAAKNNYSDIQRQDSVSSQNSAPCLSPNSVITGSAEATTIEELRAEARMWERNSHKLMADLDQLKKEFSDQSENQESLHAALSAATAECDGLRKELEQLKLVTEKSKQRRTSIEDLSYQDGEPHILNELKDELNFQKETNADLALQLKRSQESNIELVSVLQELEATTEKQKLEIEELLARHQKDDDIENINKENKKLVLQLEHVKESEKNLQLKVGVLERNLEEAKLDLQKSEASNQRFPQDTERQYDSLQNSEENVGSLHHVNINLVKEIEMLKEKVLELEKDCNELTDENIDLLYKLKQANGDSKGGSLALNSTGDELLSKSFVNFGFESMKHRHSEQISEEKIEKSPNVIENNDFNKKPESMKFELEIIVEELSKELTLKKLEIEKLESSILSKDDEIKILEGLHNKLQAKYSDLQEEKNQIDEKMMEVMLGESDGSSKGLNGLRNEVKALSNSVDLHVSANKLLESKYSELQFKKQELDLHVSQIEQERIRLSESISVLESQLKYMMGEKQSIRLELEDSKSHAVSLQDEFDKLRLEIETENVDLKQMLNDLQNQCAKAQDQCEYLQREKTKLEAAAEHLVEERNLLKKSNGELKNKNFELHEGYFRLESKVKEPLERSAQYFRRIEDFEDYLSLGLEDFASKERFLSSELDSIVEENIKYKEKLAMFESLSNETYWEKATEAQELHGAVVHLTKQLSAAKKDFNIMRMESDENLTALISELSVSKQNQETLIADNEKLLKQLENYKSLEVELKNSVNDLEQKLYVSEKERRQNEENLTNFKVQLQKTAHFQDEVFASSNKLEQKTVAELEDSKQSRIDLEEKLLRIGSGSVVEETSFPGIDDLRNELCEIKRMNSKYQQKLKILEEEKDGCLKRSQSLEAELEHLKEEKQIQRESSSVRIHSLSKTNDKNMTSKDMKLLKNGAVKTVGQNHSGKKKPKDPNSNQSQSQIKDDSGCDIDDEGPHVPEAKSISRIQMLEKELAEALEANKKYEDQLSRLVSDTQNNKENSPISTIEGDVVKTKEGYESLNSDLEAELKDIRERYFHISLKYAEVEHQREELVMKLKAAKNSGRRWFS