CDS

Accession Number TCMCG066C12629
gbkey CDS
Protein Id XP_034586348.1
Location join(23713842..23713898,23714003..23714170,23714255..23714428,23715475..23715714,23715798..23715914,23717074..23717213,23717305..23717454,23717524..23717680,23717755..23718282,23719268..23719378,23719602..23719748,23719813..23720010,23720182..23720283,23720506..23720637,23721827..23721892,23722136..23722197,23722276..23722525)
Gene LOC117848876
GeneID 117848876
Organism Setaria viridis

Protein

Length 932aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA633601
db_source XM_034730457.1
Definition phospholipase D zeta 1-like isoform X2 [Setaria viridis]

EGGNOG-MAPPER Annotation

COG_category I
Description Phospholipase D. Active site motifs.
KEGG_TC -
KEGG_Module -
KEGG_Reaction R01310        [VIEW IN KEGG]
R02051        [VIEW IN KEGG]
R07385        [VIEW IN KEGG]
KEGG_rclass RC00017        [VIEW IN KEGG]
RC00425        [VIEW IN KEGG]
BRITE ko00000        [VIEW IN KEGG]
ko00001        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
ko04131        [VIEW IN KEGG]
KEGG_ko ko:K01115        [VIEW IN KEGG]
EC 3.1.4.4        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway ko00564        [VIEW IN KEGG]
ko00565        [VIEW IN KEGG]
ko01100        [VIEW IN KEGG]
ko01110        [VIEW IN KEGG]
ko04014        [VIEW IN KEGG]
ko04024        [VIEW IN KEGG]
ko04071        [VIEW IN KEGG]
ko04072        [VIEW IN KEGG]
ko04144        [VIEW IN KEGG]
ko04666        [VIEW IN KEGG]
ko04724        [VIEW IN KEGG]
ko04912        [VIEW IN KEGG]
ko05231        [VIEW IN KEGG]
map00564        [VIEW IN KEGG]
map00565        [VIEW IN KEGG]
map01100        [VIEW IN KEGG]
map01110        [VIEW IN KEGG]
map04014        [VIEW IN KEGG]
map04024        [VIEW IN KEGG]
map04071        [VIEW IN KEGG]
map04072        [VIEW IN KEGG]
map04144        [VIEW IN KEGG]
map04666        [VIEW IN KEGG]
map04724        [VIEW IN KEGG]
map04912        [VIEW IN KEGG]
map05231        [VIEW IN KEGG]
GOs -

Sequence

CDS:  
ATGCAAGAATATCTGAACCATTTCTTGGGGAACTTGGATATTGTCAATTCACAGGAGGTTTGCAAATTTTTGGAGGTGTCATGTTTGTCATTTTTACCTGAGTATGGGCCTAAGCTAAAAGAAGACTATGTTTCAGTTGGACATCTACCAAAGATTCAGAAGGACCGTAAAAAGCAATGTTGTTCATGCGGATTGTTTAACTGTTGCAAGAGCAATTGGCAAAAGGTTTGGGTTGTCCTGAAGCCAGGATTCTTGGCTTTGCTTGAAGATCCTTTTGATCCAAAGCTTTTAGATGTCATTATTTTTGATGCGTTGCCGCATATGGATATAAATGGAGAAGGCCAAATTTCTTTAGCAAAAGAGATCAAAGAACGTAACCCACTGCATTTTGGATTCCAGGTGTCTTCTGGTGGCCGGACAATAAAGCTGCGCACAAGAAGCTCTTCTAAGGTCAAGGATTGGGTTACTGCAATAAATGCTGCTCGACAACCTCCAGAGGGCTGGTGTTATCCTCATCGTTTTGGCTCATTTGCACCACCAAGGGGTTTGTTGGAAGATGGGAGTATGGTACAATGGTTTATAGATGGCCAAGCTGCATTCGAAGCCATTGCGTCCTCCATTGAGGAAGCTAAATCAGAGATATTCATTACTGGCTGGTGGCTCTGCCCAGAGTTGTATCTTCGACGCCCATTCCAAAATCATGGGTCATCCAGGCTTGACGCTCTACTGGAAGCAAGAGCTAAGCAGGGTGTACAGATTTACATTCTATTGTACAAGGAAGTTGCTCTTGCATTGAAAATTAATAGCTTATACAGTAAGCAAAGGCTACTTAACATTCATGAAAATGTCAAAGTTCTGCGTTACCCTGATCATTTCTCAAGTGGTGTATACTTGTGGTCACACCATGAGAAGGTTGTAATTGTTGATAATCAAGTATGTTATATTGGAGGTCTTGATCTATGCTTTGGTCGCTACGATAGTCCTGAGCACAAAGTCACAGATACTCCTCCTGTGATATGGCCAGGAAAGGACTACTACAATCCCAGGGAATCTGAGCCCAATTCTTGGGAGGACACCATGAAAGATGAACTGGACCGTGCTAAATATCCCCGCATGCCTTGGCATGATGTTCAGTGTGCTCTCTATGGTCCACCTTGCCGTGATGTAGCGAGGCATTTTGTTCAGCGCTGGAATTATGCAAAGAGGAACAAAGCTCTAAATGAGCAAGCAATTCCATTACTGATGCCTCATCACCACATGGTAATTCCACACTACAAGGGTAGAAGCAAAGAAACAAATGATGAGGCTGATGGTAAACAGTATCATGATAGGGATGTTGATAAAAATCCAGTCTTGACATCGCGCACATCATGTCAGGATGTTCCATTGCTTTTACCTCAAGAACTTGAACCTCAGGAATTGTCAAGTGCAGATTTAAGATTGACTGATTTAGATATTAACAATTCAGATCGCATAAACAAAAAGAGCTTTAGTCAGCCTTTGCTCAACCGAAAGGCAAAGTTGGATTTTTCTCATCAGGATTTACCTATGAGAAGTTTTGTGGACAATCACAGTTCCCTTGAGGCATCATCTATTAGGCGTTTTGATTCACTGAAAGATGAGAGGAATCACAAGGACAAGAAATGGTGGGAAAAGCAGGAGTGTGGTGACCAAGTTGCTTCAGTACTTGACATTGGGCAAGTTGGTCCAAGGGCAACTTGTCGTTGTCAGGTTGTTAGGAGTGTTGGTCAATGGTCAGCTGGAACCACTCAAATTGAAGGAAGCATCCACAATGCCTACTTTTCTCTGATTGAAAAGGCAGAACACTTTGTATACATTGAGAATCAATTTTTCATATCGGGCCTGTCAGGAGATGATACGATTAAAAACCGTGTATTAGAAGCATTGTATCGGCGTATACTTCGAGCTGAGAGAGAGAAAAAGCGCTTTAAGGCCATCATCATCATTCCTCTTCTACCTGGTTTCCAGGGAGGCATTGATGATGGTGGAGCTGCATCAGTGAGGGCAATCATGCACTGGCAATATCGTACTATCTGCAGAGGCCCTAATTCAATTCTCCAGAATCTATTTGATGTTATTGGACCTAAAGCACATGATTACATCTCCTTTTATGGTCTTAGAGCACATGGTAAACTGAATGATGGGGGTCCCTTGGTCACTAGTCAGATTTATGTACATAGCAAGTTAATGATAATTGATGACCGCATTACATTGATTGGCTCAGCTAACATAAATGATAGAAGCTTGCTTGGATCAAGGGATTCTGAGATTGCTGTGGTCATTGAAGATAAAGAAGTTGTTAATTCTAAAATGGATGGAAGACCTTGGGAAGCTGGAAAATTCTCTCTAAGCCTACGTCTTTCTCTGTGGGCGGAGCACCTTGGCCTTCATCCAGGAGAGGTTAGCCACATCATGGATCCTATAGATGATTCCACATTTAAAAATATCTGGATGGCCACTGCTAAGACGAATACCATGATATACCAAGATGTCTTCTCTTGTGTACCCAACGATCTCATCGACTCAAGGGCCCAATTTCGGCAAAGCTTTGCTCACTTGAGGGACAAAATTGGCCACACCACAATTGATTTGGGCGTTGCCCAAGAGAAACTAGAAGCTTACCAAGATGGCGATCTCAAAGGTACTGATCCTATGGACAGATTGCAGTTAGTAAGGGGCCACCTTGTTTCTTTTCCTTTGGATTTCATGTGCCAAGAGGACTTGAGACCATATTTCAGTGAAAGTGAGTATTACACATCGCCACAGGTTTTCCATTAA
Protein:  
MQEYLNHFLGNLDIVNSQEVCKFLEVSCLSFLPEYGPKLKEDYVSVGHLPKIQKDRKKQCCSCGLFNCCKSNWQKVWVVLKPGFLALLEDPFDPKLLDVIIFDALPHMDINGEGQISLAKEIKERNPLHFGFQVSSGGRTIKLRTRSSSKVKDWVTAINAARQPPEGWCYPHRFGSFAPPRGLLEDGSMVQWFIDGQAAFEAIASSIEEAKSEIFITGWWLCPELYLRRPFQNHGSSRLDALLEARAKQGVQIYILLYKEVALALKINSLYSKQRLLNIHENVKVLRYPDHFSSGVYLWSHHEKVVIVDNQVCYIGGLDLCFGRYDSPEHKVTDTPPVIWPGKDYYNPRESEPNSWEDTMKDELDRAKYPRMPWHDVQCALYGPPCRDVARHFVQRWNYAKRNKALNEQAIPLLMPHHHMVIPHYKGRSKETNDEADGKQYHDRDVDKNPVLTSRTSCQDVPLLLPQELEPQELSSADLRLTDLDINNSDRINKKSFSQPLLNRKAKLDFSHQDLPMRSFVDNHSSLEASSIRRFDSLKDERNHKDKKWWEKQECGDQVASVLDIGQVGPRATCRCQVVRSVGQWSAGTTQIEGSIHNAYFSLIEKAEHFVYIENQFFISGLSGDDTIKNRVLEALYRRILRAEREKKRFKAIIIIPLLPGFQGGIDDGGAASVRAIMHWQYRTICRGPNSILQNLFDVIGPKAHDYISFYGLRAHGKLNDGGPLVTSQIYVHSKLMIIDDRITLIGSANINDRSLLGSRDSEIAVVIEDKEVVNSKMDGRPWEAGKFSLSLRLSLWAEHLGLHPGEVSHIMDPIDDSTFKNIWMATAKTNTMIYQDVFSCVPNDLIDSRAQFRQSFAHLRDKIGHTTIDLGVAQEKLEAYQDGDLKGTDPMDRLQLVRGHLVSFPLDFMCQEDLRPYFSESEYYTSPQVFH