CDS

Accession Number TCMCG005C27275
gbkey CDS
Protein Id XP_020242531.1
Location complement(join(5340281..5340654,5340737..5341210,5341257..5341314,5341364..5342245,5342299..5343432))
Gene LOC109820746
GeneID 109820746
Organism Asparagus officinalis

Protein

Length 973aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA376608;
db_source XM_020386942.1
Definition probable LRR receptor-like serine/threonine-protein kinase At3g47570

EGGNOG-MAPPER Annotation

COG_category T
Description Belongs to the protein kinase superfamily. Ser Thr protein kinase family
KEGG_TC -
KEGG_Module M00686        [VIEW IN KEGG]
KEGG_Reaction -
KEGG_rclass -
BRITE ko00000        [VIEW IN KEGG]
ko00001        [VIEW IN KEGG]
ko00002        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
ko01001        [VIEW IN KEGG]
KEGG_ko ko:K04730        [VIEW IN KEGG]
ko:K04733        [VIEW IN KEGG]
ko:K13420        [VIEW IN KEGG]
EC 2.7.11.1        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway ko04010        [VIEW IN KEGG]
ko04016        [VIEW IN KEGG]
ko04064        [VIEW IN KEGG]
ko04620        [VIEW IN KEGG]
ko04621        [VIEW IN KEGG]
ko04624        [VIEW IN KEGG]
ko04626        [VIEW IN KEGG]
ko04722        [VIEW IN KEGG]
ko05133        [VIEW IN KEGG]
ko05140        [VIEW IN KEGG]
ko05142        [VIEW IN KEGG]
ko05145        [VIEW IN KEGG]
ko05152        [VIEW IN KEGG]
ko05162        [VIEW IN KEGG]
ko05164        [VIEW IN KEGG]
ko05169        [VIEW IN KEGG]
map04010        [VIEW IN KEGG]
map04016        [VIEW IN KEGG]
map04064        [VIEW IN KEGG]
map04620        [VIEW IN KEGG]
map04621        [VIEW IN KEGG]
map04624        [VIEW IN KEGG]
map04626        [VIEW IN KEGG]
map04722        [VIEW IN KEGG]
map05133        [VIEW IN KEGG]
map05140        [VIEW IN KEGG]
map05142        [VIEW IN KEGG]
map05145        [VIEW IN KEGG]
map05152        [VIEW IN KEGG]
map05162        [VIEW IN KEGG]
map05164        [VIEW IN KEGG]
map05169        [VIEW IN KEGG]
GOs -

Sequence

CDS:  
ATGGAAACCTTCCAGTCTGTCCTCTTAGTTATGCATCTGATGCTATTATTGTTTTCCTCATCATCGGGGGCGAAGCATAACAACATTACCGACCTCTCGGCCCTCTTGGCCATCAGAGCCCAGGTCATCGAACGTGATCCAGGCAGCATTCTATCCGCCAACTGGACCACTGATGCCTCCTTTTGCACCTGGATGGGCGTCTCCTGCAGCCGTCGAAGGCAAAGAGTCACTGGTCTCAACGTTAGCAACATGCCGCTCCACGGCACCATCCCTCCTCACATCGGCAACCTCTCATTTCTGTCTCTGCTCTGGCTTTCCAATGATGGCTTAGCCGGAACCATCCCTGAATCTCTGGCTCAGCTGCCTCGACTGAAAGTGCTCAGACTTGATGGTAATCAGCTTTCAGGTTCAATACCTCCTTCCTTTTTCAACATGTCATCGCTTATTGAATTGCAACTCGGGTCCAACAGTATTTCAGGGACCCTGCCCTCTAATGATAGCAACTTCCATCCGTTGTTCCCTCATATTATGTCCATACATGACAACCAACTCACTGGCAGCATCCCGTCTAGCCTTTGCAGTAGTCGTACTCTTCAAATCCTGAGCTTGGCTTTTAACCAGCTAACCGGGAGCATACCGCCAGAGATTGGAAATATGAAGCAGCTTAATATATTAGCTCTTGGAAGTAACAATCTAACGGGTAACATACCATCCTCTTTAGGTAACCTGACTAATTTGTCTGAATTAAGCCTTGGCAACAGCAGCTTCCATGGGAACATTCCCGAGGACTTGGGTCGTCTCACGAACCTTGAGCTATTGCAGATTGTTTTCTGTGGTGGTATTACTGGTCCCATACCAATTTCTCTTTCCAATTTGTCATCACTCACATTCATTGCACTGAACGATAATAGTCTCACCGGGCCCGTGCGTTTGCAGTTTGGGAACATGGCTAACCTTTACTACTTGGATCTATCAGGAAACAAACTAACAGGAGGAGTTGATTTCCTTGCATCGCTTTCAAACTGCAGAGGTTTAGAGTTTGTGTCTGTTCGTGGGAATGAGCTGGATGGCATTCTTCCATATACCGTAGGTAATCTTTCAAGGACTCTAACATACCTTGATGTTGAGGATAATAATGAGCTAGCTGGAACGATACCGTTAGAAATCATAACCCTACACGGCCTGCAATACCTAAGTTTGTATAGTAACAGGATATACGGTTCGATCCCACAAGAGCTAGGCCGATTGACAAAGTTGGACACACTCTACCTCGACAGCAACAGTCTTTCTGGATCCATACCTGACTCGCTGGGTAACATCACTGGACTAGAGAAATTAACACTTTTCGCTAACAGGTTATCCTCAACAATTCCTGAAACTATTTGGAGTTTGACTTTTCTATATGAATTGGGTCTGTCACAAAACCTTCTCACTGGATCGCTGCCATTAGCTTTGTGGAACATGCAGGGCTTATATGTATTCGATGTATCACTAAATCAGCTGTCGGGTAACCTTCCAAGTCCTCCGAAGTATCTCGAAATCAATGTTTTAGATCTATCAAATAACTCATTTGAGGGGCACATTCCCCAATCATTTGGTGATCTCATTAATCTTGATGTCTTGAACCTTTCTTGCAATAAGCTCTCAGGAGTTATACCCGAGTCCTTGGTCAATCTTCGACATCTCAGCATCCTTAACTTATCATTCAACATGTTGGAAGGAAATGTCCCAAGTGTTGGTGCCTTTATGAATGTCAGCATCGTGTCTTTGGAAGGAAATGTGGCATTATGTGGAGCACCCAGATTTGGCTTTCCATCTTGCAATGTAACTGATTCTAGAGTTCCTAATCCGGGGAGGCATTTGTTGAGATATATCCTCCCTGCTATTGCTTCTACGGGAATACTTGTTCTCTGTTTTTGCATCTTATTAAGATTACGTAGAAGGAGAGCCAAGAATCCGACCCCAAGTAGCACGCTCTCTCTTACTAAGCATAGATTGATCCCCTACTACGAGCTTCTTGTTCGTGCCACTGACAACTTCAGCGAGATAAACTTACTCGGAAGGGGTGCATTTGGTTCTGTGTACAGAGGGCTTTTAGATGACGGCCTTCTTGTTGCCATCAAGGTATTGAATTTGGAAATCGAAGGAGCTTCAAGGAGTTTTGATGCTGAATGTCGTGCTTTGAGGATGGTTCGACACAGAAATCTTGTTAGAATCATCAGCGCTTGTTCCAACTTGGATTTCAAGGCACTCGTCCTCCAATTCATGCCCAATGGAAGTCTAGAAAGATGGCTATACTCGCATAATTACTGCTTGAGCCTACTCCAAAGGATTAATATAGTAATCGATGTAGCGTCAGCTCTAGACTATCTTCACCACCACCATCCTGAGGTTATACTGCATTGTGATCTAAAACCGAGCAACATCCTTCTGGATGAAGAAATGAGTGGGCACGTGAGTGACTTTGGCATTGCAAAACTACTGAGTGGTGTCAGCCTGAGCGGAACCTCAGCAAGCACGGCAGGAACAATCGGCTATATTGCTCCAGAGTTTGCATCAACAGGAAGGGTCTCCACAAAGGGAGATGTCTATAGCTTTGGAATATTGTTGCTAGAAATCTTTACGAGAAAGAAGCCTACTGATCCTATGTTTACTGGGGAATCAAGCTTGCGACGATGGGTAAATGACGCAAATCCTACGGGCCTGTTGGATATTGTGGACTGCAATCTCCTGAAAGATGAAAATGGAAATGAAAGGCCAAAGAACTACTTAATTTCAACACAGGCCTGTCTATCTTCCATCATGGAGTTGGGGATTATCTGTTCAAGTGACTTTCCTAACGAAAGGCTTGCTATGAAAGACGTTGTCCCACAATTGCAAAAGATCAAGATGAAGTATATGTCTGACCCTTTTGTTGCTTGA
Protein:  
METFQSVLLVMHLMLLLFSSSSGAKHNNITDLSALLAIRAQVIERDPGSILSANWTTDASFCTWMGVSCSRRRQRVTGLNVSNMPLHGTIPPHIGNLSFLSLLWLSNDGLAGTIPESLAQLPRLKVLRLDGNQLSGSIPPSFFNMSSLIELQLGSNSISGTLPSNDSNFHPLFPHIMSIHDNQLTGSIPSSLCSSRTLQILSLAFNQLTGSIPPEIGNMKQLNILALGSNNLTGNIPSSLGNLTNLSELSLGNSSFHGNIPEDLGRLTNLELLQIVFCGGITGPIPISLSNLSSLTFIALNDNSLTGPVRLQFGNMANLYYLDLSGNKLTGGVDFLASLSNCRGLEFVSVRGNELDGILPYTVGNLSRTLTYLDVEDNNELAGTIPLEIITLHGLQYLSLYSNRIYGSIPQELGRLTKLDTLYLDSNSLSGSIPDSLGNITGLEKLTLFANRLSSTIPETIWSLTFLYELGLSQNLLTGSLPLALWNMQGLYVFDVSLNQLSGNLPSPPKYLEINVLDLSNNSFEGHIPQSFGDLINLDVLNLSCNKLSGVIPESLVNLRHLSILNLSFNMLEGNVPSVGAFMNVSIVSLEGNVALCGAPRFGFPSCNVTDSRVPNPGRHLLRYILPAIASTGILVLCFCILLRLRRRRAKNPTPSSTLSLTKHRLIPYYELLVRATDNFSEINLLGRGAFGSVYRGLLDDGLLVAIKVLNLEIEGASRSFDAECRALRMVRHRNLVRIISACSNLDFKALVLQFMPNGSLERWLYSHNYCLSLLQRINIVIDVASALDYLHHHHPEVILHCDLKPSNILLDEEMSGHVSDFGIAKLLSGVSLSGTSASTAGTIGYIAPEFASTGRVSTKGDVYSFGILLLEIFTRKKPTDPMFTGESSLRRWVNDANPTGLLDIVDCNLLKDENGNERPKNYLISTQACLSSIMELGIICSSDFPNERLAMKDVVPQLQKIKMKYMSDPFVA