Browse of TCMCG053C00509 protein

CDS

Accession Number	TCMCG053C00509
gbkey	CDS
Protein Id	XP_034201405.1
Location	join(3315236..3315409,3318781..3318998,3319375..3319480,3319587..3319688,3319983..3320042,3320133..3320211,3320422..3320572,3320908..3321031,3321237..3321417,3321546..3321574,3321834..3321982,3322233..3322335,3322461..3322556,3322645..3322700,3322800..3322923,3323045..3323107,3323209..3323268,3323354..3323515,3323640..3323710,3323789..3323882,3324028..3324164,3324257..3324337,3324554..3324659,3324754..3324831)
Gene	LOC117616230
GeneID	117616230
Organism	Prunus dulcis

Protein

Length	867aa
Molecule type	protein
Topology	linear
Data_file_division	PLN
dblink	BioProject:PRJNA631757
db_source	XM_034345514.1
Definition	uncharacterized protein LOC117616230 isoform X1 [Prunus dulcis]

EGGNOG-MAPPER Annotation

COG_category	M
Description	Encoded by
KEGG_TC	-
KEGG_Module	-
KEGG_Reaction	-
KEGG_rclass	-
BRITE	ko00000        [VIEW IN KEGG] ko01000        [VIEW IN KEGG]
KEGG_ko	ko:K00574        [VIEW IN KEGG]
EC	2.1.1.79        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway	-
GOs	GO:0003674        [VIEW IN EMBL-EBI] GO:0003824        [VIEW IN EMBL-EBI] GO:0005575        [VIEW IN EMBL-EBI] GO:0005622        [VIEW IN EMBL-EBI] GO:0005623        [VIEW IN EMBL-EBI] GO:0005737        [VIEW IN EMBL-EBI] GO:0005829        [VIEW IN EMBL-EBI] GO:0006629        [VIEW IN EMBL-EBI] GO:0008150        [VIEW IN EMBL-EBI] GO:0008152        [VIEW IN EMBL-EBI] GO:0008168        [VIEW IN EMBL-EBI] GO:0008757        [VIEW IN EMBL-EBI] GO:0008825        [VIEW IN EMBL-EBI] GO:0009987        [VIEW IN EMBL-EBI] GO:0016740        [VIEW IN EMBL-EBI] GO:0016741        [VIEW IN EMBL-EBI] GO:0030258        [VIEW IN EMBL-EBI] GO:0032259        [VIEW IN EMBL-EBI] GO:0044237        [VIEW IN EMBL-EBI] GO:0044238        [VIEW IN EMBL-EBI] GO:0044255        [VIEW IN EMBL-EBI] GO:0044424        [VIEW IN EMBL-EBI] GO:0044444        [VIEW IN EMBL-EBI] GO:0044464        [VIEW IN EMBL-EBI] GO:0071704        [VIEW IN EMBL-EBI]

Sequence

CDS:   ATGAGAGTGGCAGTGATTGGTGCTGGGATTAGTGGTTTGGTTTCGGCTTATGTTCTTGCAAAAGAAGGGGCGGAGGTGGTGTTGTTTGAGAAGGATGACTACTTGGGCGGCCATGCCAGGACTGTCACATTTGATGGCGTTGATTTGGACCTTGGCTTTATGGTCTTCAATCGTGTAACCTATCCAAATATGATGGAGTTGTTTGAGAGACTTGGAGTTGATATGGAGACATCTGATATGTCCTTCTCAGCGAGCTTAGACAAAGGGCAAGGCTGTGAATGGGGCAGTCGAAATGGCTTGGCAAGCTTGTTTGCACAAAAGAGGAACTTGTTCAATCCATACTTTTGGCAAATGCTTCGAGAAATCACCAAGTTTAAACACGATGCAATCAATTACCTTGAGGAGCTCGAGAACAACCCGGACATTGATCGCAATGAAACCTTGGGGCAGTTTATCAAGTCACGAGGCTACTCTGAATTATTTCAGAAGGCTTATCTTGTTCCAGTATGTGGTTCAATCTGGTCTTGCCCTTCAGAAGGGGTTATGAGCTTCTCAGCCTTCTCTGTTCTCTCATTTTGTCGAAACCATCATCTACTTCAGCTATTTGGCCGCCCACAGTGGCTTACTGTCAGATGGCGTTCACATTGTTATGTCAAGAAGGTCAGACAAGTGCTGGAAAGTAAAGGGTGTCAGATAAGAACTAGCTCTGAGGTACATAGGGTTTCCACAACCGATGAGGCAGGTTGCAGTGTACTCTCTGGTGATGGTTTGGAGGAAATATATGATGGCTGCGTAATGGCTGTCCACGCCCCAGACGCTGTGAGAATACTAGGAGACCAGGCAACATCAGATGAGTTGAGAGTACTCGGTGCTTTCCAATATGTATACAGTGATATTTTCCTGCATCGTGACAAAACTTTAATGCCCCAAAACCCAGCAGCATGGAGTGCATGGAATTTTCTCGGAAGTAATGGCAACAAAGTATGCTTGACATACTGGCTCAATGTGCTTCAGAACATTGATGGAAAAGGTCTACCATTTCTTGTGACTCTCAACCCAGATCATACACCAGAACATACCTTGCTTAAGTGGTCAACAAGCCATCCAGTCCCATCTGTTGCTGCGTCAAAAGCTTCAGTGGAGCTTCATCGCATTCAAGGAAAGAGAGGAATTTGGTTTTGTGGAGCATACCAGGGTTATGGCTTCCATGAGGATGGACTAAAGGCTGGAATGGCTGCGGCACACGGTATGCTTGGAAAAGGATGTTCCCTCTTGAGCAACCCAAAACACATGGTTCCATCACTGACAGAAACAGGGGCACGCCTTTTTGTTACTAGGTTTCTTAGACATTATATATCTACTGGATGTTTAATTTTATTAGAGGAAGGAGGTACAATTTTCAACTTTGAGGGAACCAGAAAAGGGTGTTCTCTAAAATGTGTTCTTAGAGTTCATACTCCTCAGTTTTACTGGAAGGTAATGACACAGGCTGATTTAGGCCTTGCAGATGCATATATCAACGGGGATTTTTCTTTCATTGATAAAGACAAGGGCCTTCTAAATCTTTTTATGATTCTCATTGCCAACAGAGATTCAAATTCTTCTGACTCAAAATTGAGCAAGAAAAGGGGATGGTGGACGCCATTGTTATTCACAGCTAGTATAGCCTCAGCAAAGTACTTCTTTCAGCATGTTTCAAGGCAAAATACTCTCACACAGGCACGCAGGAACATCTCTCGTCATTATGACCTGAGTAATGATCTATTTTCGCTGTTCTTGGATGAAACAATGACATATTCCAGTGCTGTATTTAAGACTGAAGATGAAGATTTAAAGACTGCACAGCTAAGGAAAATCTCTCTTTTCATTGAAAAGTCTAGAATTGAGAAGAACCATGAAGTTCTAGAGATCGGATGCGGTTGGGGAAGCTTAGCTATTGAAGTTGTCAAACAAACTGGTTGTAAATACACTGGCATCACTCTGTCCGAGGAACAACTCAAATATGCACAAAAGAAAGTGAAAGATGCTGGCCTTCAGGACCGCATCAGATTTCTTCTGTGCGACTATAGGCAACTTCCTAACTACAAATACGACAGAATTATATCTTGCGAGATGCTCGAAAGTGTGGGGCATGAATTTATGGACGAATTTTTTGCTTGCTGTGAATCTGTGCTTGCAGATAATGGCCTTCTTGTTTTACAGTTCATATCAATACCGGATGAACGTTACGATGAGTACAGACGAAGTTCAGATTTCATAAAGGAATATATTTTTCCTGGTGGATGTCTACCTTCGTTAAGTAGGGTAACATCAGCAATGGCTGCTTCTTCCAGACTCTGTGTGGAGCACTTGGAAAACATTGGAATCCATTACTACCAGACATTGAGATGTTGGAGAAAAAATTTCTTGGAGAGACATAGTGAAATACTGGCTCTTGGGTTCAATGAGAATTTCATCCGGACATGGGAATATTATTTTGATTACTGTGCTGCTGGTTTTAAGACATATACGCTTGGAAATTACCAGATTGTGTTTTCGCGTCCTGGCAACACTCCGGCCTTCACTGATCCATACAAAGGCTTCCCTTCAGCTTCAGCATGTTGA

Protein:   MRVAVIGAGISGLVSAYVLAKEGAEVVLFEKDDYLGGHARTVTFDGVDLDLGFMVFNRVTYPNMMELFERLGVDMETSDMSFSASLDKGQGCEWGSRNGLASLFAQKRNLFNPYFWQMLREITKFKHDAINYLEELENNPDIDRNETLGQFIKSRGYSELFQKAYLVPVCGSIWSCPSEGVMSFSAFSVLSFCRNHHLLQLFGRPQWLTVRWRSHCYVKKVRQVLESKGCQIRTSSEVHRVSTTDEAGCSVLSGDGLEEIYDGCVMAVHAPDAVRILGDQATSDELRVLGAFQYVYSDIFLHRDKTLMPQNPAAWSAWNFLGSNGNKVCLTYWLNVLQNIDGKGLPFLVTLNPDHTPEHTLLKWSTSHPVPSVAASKASVELHRIQGKRGIWFCGAYQGYGFHEDGLKAGMAAAHGMLGKGCSLLSNPKHMVPSLTETGARLFVTRFLRHYISTGCLILLEEGGTIFNFEGTRKGCSLKCVLRVHTPQFYWKVMTQADLGLADAYINGDFSFIDKDKGLLNLFMILIANRDSNSSDSKLSKKRGWWTPLLFTASIASAKYFFQHVSRQNTLTQARRNISRHYDLSNDLFSLFLDETMTYSSAVFKTEDEDLKTAQLRKISLFIEKSRIEKNHEVLEIGCGWGSLAIEVVKQTGCKYTGITLSEEQLKYAQKKVKDAGLQDRIRFLLCDYRQLPNYKYDRIISCEMLESVGHEFMDEFFACCESVLADNGLLVLQFISIPDERYDEYRRSSDFIKEYIFPGGCLPSLSRVTSAMAASSRLCVEHLENIGIHYYQTLRCWRKNFLERHSEILALGFNENFIRTWEYYFDYCAAGFKTYTLGNYQIVFSRPGNTPAFTDPYKGFPSASAC