CDS

Accession Number TCMCG017C26738
gbkey CDS
Protein Id OMO69087.1
Location join(29547..30018,31343..31588,31797..32068,32533..32723,32805..32976,33108..33245,33426..33612,33811..33956,34266..34442,34731..34841,35350..35469,35573..35726,35967..36127,36238..36324,37072..37388,37658..37739,38048..38187,38477..38708,38895..39001,39082..39148)
GeneID InterPro:IPR012908
Organism Corchorus olitorius
locus_tag COLO4_29272

Protein

Length 1192aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA215141, BioSample:SAMN03160584
db_source AWUE01020282.1
Definition GPI inositol-deacylase PGAP1-like protein [Corchorus olitorius]
Locus_tag COLO4_29272

EGGNOG-MAPPER Annotation

COG_category U
Description isoform X1
KEGG_TC -
KEGG_Module -
KEGG_Reaction -
KEGG_rclass -
BRITE ko00000        [VIEW IN KEGG]
ko00001        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
ko03012        [VIEW IN KEGG]
KEGG_ko ko:K03263        [VIEW IN KEGG]
ko:K05294        [VIEW IN KEGG]
EC -
KEGG_Pathway ko00563        [VIEW IN KEGG]
ko01100        [VIEW IN KEGG]
map00563        [VIEW IN KEGG]
map01100        [VIEW IN KEGG]
GOs -

Sequence

CDS:  
ATGGAAGGAAAAGCCATGAGAGTTGTTGTGAAAACAATAATGCCATTCCTTCTGATTGCATTGGTATCAGGCCAAGCTACAATCCCCGGTGGTGGCCTCCCTCTCCCAGCCCCTGCAATCCCCGGGACTGGCGGCGGCGGTCAGGTTCCCCCAGAGGATGCGGGGTTTCTTCCTCCTGGCGGTGTTGTGCCGTTTCCGCCTACATTGCCAGGGGAAGGCATGTTTCCACCTGTACTTCCGTTTCCGTTTCCGATCGACGGCGGGCTTCCAGGGTTTGGCAACCTGGATAAGCCAAAGCGTACATGTATTGAACCATGTGTTCGGAAGTGCAGATTGAAGAGAAGTCGAAGTCGTCTCCTCGTATCACTTTGCTCTAAGGCTTGCTACTTACGTTGTGGGATTCGAATCTCGGACGAGGTTTTAAGTTGCACTTCTCACTGTGCAAATTCTGTTTCCCCTGCTTCAATCTCTGGTGAGAGAAGGAATAGCAGTAGTAATAATAGTAATGAGGATTCAAGAATGCGAGGGTTTAGGCCTGGTTTGAGAGCAATGGTGCTTGTTATTGGGGTGATATGGCTTGGTGTAGCTGCTATGTATGGTTTATTGAAGCCTATAGCTAATAATTGTATCATGACTTATATGTATCCGACTTATATCCCGATTTCCACCACTGAGGGCGTCTCGTCTGCAAAGTATGGGCTGTATTTGTACCATGAAGTTCACAAGTTTTTGTATATCTTACAGGTGCGGTCCTTGGCAGCTGAATCCGATAGAGCTTATCAAGGAGGTCCGCTTGAACGTACATTCTATAGAGAAGCTTATCTAGCTACTGAGGAAGGAGGGAGTGGAGATACGGCTGACTTTCGATTACCTAACCAATACACTAATAAGCTAGATTGGTTTGCTGTGGATCTGGAGGGTGAACATTCTGCTATGGATGGTCGGATACTTGAAGAGCACACTGAATATGTAGTATATGCTATTCATAGGATTTTGGATCAATACAAAGAATCCCGTGATGCTCGGCAACGAGAGGGTGCCGCAACCACTGGTGGTTTGCCAAGAAGTGTCATATTGGTTGGCCACTCTATGGGTGGTTTTGTTGCTAGAGCTGCAACTATCCACCCACATCTAAGGAAATCGGCTGTTGAGACTATTCTCACTCTTTCAAGCCCCCACCAATTACCTCCTTTGCCATTGCAACCATCGCTGGGTCATTACTATGAAAGTATAAATCATGAATGGAGAAAGGGGTATGAGGTTCAAACCGCTCGCACGGGGCATTATGTTTCTGGTCCAAAACTATCTCATGTGGTTGTTGTTTCCATTTGTGGTGGTTATAATGATTATCAGGTACGCTCAAAATTAGAATCACTTGATGGTATTGTGCCTCCTACTCATGGATTTATGATAAGCAGTACAAGCATGAAAAATGTATGGCTATCTATGGAGCATCAAGCTATTTTGTGGTGTAATCAGCTGGTTGTGCAAGTGTCACATACTCTCCTTAGTTTGATAGACCCCAGAACTGGTCAGCCTTTTTCTGATCCTCGACAAAGACTTGCAACATTCACAAGGATGCTTCATAGTGGAATACCACAAAGCTTCAATTGGAAGATGCAATCACAGTCACCCTGGTCCACTATTGGTGCTGTTAAGGATGTAAAAGATACTGCTGGTTCACAAGTGCAGACCTCATCTGACTGTCCTAGCAGTTTCCATTGGAGTGATGATGTGCTTGAGAGGGATTTGTATATTCAGGCAACAACTGTCACTGTTTTGGCCATGGACGGGAGAAGGCGTTGGTTGGACATAGAGAAATTGGGGTCAAATGGAAAAAGCCACTTCATATTTGTGACAAACCTTGCTCCTTGTTCTGGAGTCCGAATTCATCTATGGCCCCATAAAGGGAAATTAGCTTCTGACTTGCCTGCTGGTAAAAGGGTTGTTGAAGTGACATCAAAGATGGTGCAAATTCCTGCTGGACCAGCACCAAGGCAGATTGAGCCTGGCAGTCAGACTGAGCAAGCGCCTCCATCTGCTGTGCTTTATTTGGGTCCTGAAGAAATGCATGGTTTCAGATTCCTGACCGTCTCAGTGGCACCTAGTCCGACTATTTCAGGCAGGCCTCCACCAGCTACTTCCATGGCAGTTGGGCAATTCTTTAATCCAGATGAAGGAGAGATAGAACTCTCTCCTATATCAATGCTTCTTTCAATTCGTTCTCATAAGGATGTCATTTTGAAGGAGGATCACCCTCTTGCTTTGAATCTGTCATTTGCAATAAGTTTAGGCCTTTTGCCTTCCACCTTCTCTTTGAAAACCACAGGTTGTGGAATAAAAGATTCTGGGCTTCTTGATGGCGCTGGAGATGCGGAAAACACCAAGCTTTGCAAGCTACGCTGTTTCCCACCTGTAGCACTTGCTTGGGACCCCACGTCAGGTCTTCATGTATTTCCTAACTTATACAGTGAGACTCTTGTTGTTGATTCCTCCCCAGCACTTTGGACTTCTACTGGGGCAGAGAAAACCACTGTTCTCTTACTGCTTGACCCACATTGTTCATATAAGGCAAGCTCAGCTGTTTCTGTAACTACAGCAGCCAGCAGATTTTTGCTTTTATATAATTCACAGATAATTGGCTTCTCTGTTGCTGTTATATTTTTTGCTCTGATGCGACAAGCACATGCTAGGCCAGTTCCTTCTATACTTCAAGCTGTGGACTCCAACTTAAGAATGCCATTTCCATTTTTGCTTTTTTCCGTAGTACCCATTTCGATTTCCTTGTTCTTTTCCTTCTTAACATCTCATCCTTTTCCTCCACTCCCTAGCTTCACCATTGTGTCAATGATCTGCTACCTATTTGCAAATGGGTTCATAATATTACTGATATTAGTTTCCCAGTTGCTCTTCTACGTGGCTGCCTATTTACATGTTCTTATAAAGAGGAGATGGAAGCTATGGGAAGGAAATTCTTGCTTTTTGTTTCTGCAACGGATTATAAATCTTTCTTCTAGCTTCTTTTCATTAAAGGTGGTAAGGGTCCTAAGAGCCAACCCATTATTGCTTCCAATATCAGCGGCAATTGTTTTGTCTACATTTGTACATCCAGCACTTGGCCTATCCATACTGCTCTTGTTTCATGCTTACTGTTGTCATAGTTCTCTGTGCAATGCTATGACAGCCTCATTTCGCAGCCATGCACAGGAAAAGGATTCTGGTTACAAAAGTGCAGGCGATTATTTGTCTCACCAATCTTCATCCAAACCCGGTTCCCCTTCAAAAGAAAACAGCTCCAGTTATAGTCAGACACAAGAAGATACCTTCCACCACCGGCATGGCTTACTGACCCTGCATCTTCTCGCTACACTAATGTTTGGGCCCTCTCTGGTATCTTGGTTGCAGTTCGGAATCATTGTTAAATCCCTCACTGCCCTTTCCACGCATTCTGGGGCAGGAACTGAGACTGGATTTCATCTACCTAATCGCCGGGATATATTCCTATCTCTGCGGTATGGACCCGAGCGCCACGCTTTGGAAGAAGACGGCATTGGCATAGACACTAAGAACTTCATTTGA
Protein:  
MEGKAMRVVVKTIMPFLLIALVSGQATIPGGGLPLPAPAIPGTGGGGQVPPEDAGFLPPGGVVPFPPTLPGEGMFPPVLPFPFPIDGGLPGFGNLDKPKRTCIEPCVRKCRLKRSRSRLLVSLCSKACYLRCGIRISDEVLSCTSHCANSVSPASISGERRNSSSNNSNEDSRMRGFRPGLRAMVLVIGVIWLGVAAMYGLLKPIANNCIMTYMYPTYIPISTTEGVSSAKYGLYLYHEVHKFLYILQVRSLAAESDRAYQGGPLERTFYREAYLATEEGGSGDTADFRLPNQYTNKLDWFAVDLEGEHSAMDGRILEEHTEYVVYAIHRILDQYKESRDARQREGAATTGGLPRSVILVGHSMGGFVARAATIHPHLRKSAVETILTLSSPHQLPPLPLQPSLGHYYESINHEWRKGYEVQTARTGHYVSGPKLSHVVVVSICGGYNDYQVRSKLESLDGIVPPTHGFMISSTSMKNVWLSMEHQAILWCNQLVVQVSHTLLSLIDPRTGQPFSDPRQRLATFTRMLHSGIPQSFNWKMQSQSPWSTIGAVKDVKDTAGSQVQTSSDCPSSFHWSDDVLERDLYIQATTVTVLAMDGRRRWLDIEKLGSNGKSHFIFVTNLAPCSGVRIHLWPHKGKLASDLPAGKRVVEVTSKMVQIPAGPAPRQIEPGSQTEQAPPSAVLYLGPEEMHGFRFLTVSVAPSPTISGRPPPATSMAVGQFFNPDEGEIELSPISMLLSIRSHKDVILKEDHPLALNLSFAISLGLLPSTFSLKTTGCGIKDSGLLDGAGDAENTKLCKLRCFPPVALAWDPTSGLHVFPNLYSETLVVDSSPALWTSTGAEKTTVLLLLDPHCSYKASSAVSVTTAASRFLLLYNSQIIGFSVAVIFFALMRQAHARPVPSILQAVDSNLRMPFPFLLFSVVPISISLFFSFLTSHPFPPLPSFTIVSMICYLFANGFIILLILVSQLLFYVAAYLHVLIKRRWKLWEGNSCFLFLQRIINLSSSFFSLKVVRVLRANPLLLPISAAIVLSTFVHPALGLSILLLFHAYCCHSSLCNAMTASFRSHAQEKDSGYKSAGDYLSHQSSSKPGSPSKENSSSYSQTQEDTFHHRHGLLTLHLLATLMFGPSLVSWLQFGIIVKSLTALSTHSGAGTETGFHLPNRRDIFLSLRYGPERHALEEDGIGIDTKNFI