CDS

Accession Number TCMCG072C04018
gbkey CDS
Protein Id XP_021838820.1
Location complement(join(27953..28024,28109..28351,28445..28543,28643..29122,29250..29348,30273..30394,30989..31107,31204..31271,32160..32345,32495..32570,32640..32719,32809..32865,32977..33119,33217..33361,33885..34046,34769..34954,35254..35346,35445..35605,35710..35814,36404..36725))
Gene LOC110778582
GeneID 110778582
Organism Spinacia oleracea

Protein

Length 1005aa
Molecule type protein
Topology linear
Data_file_division PLN
dblink BioProject:PRJNA396054
db_source XM_021983128.1
Definition putative aconitate hydratase, cytoplasmic [Spinacia oleracea]

EGGNOG-MAPPER Annotation

COG_category AJ
Description Catalyzes the isomerization of citrate to isocitrate via cis-aconitate
KEGG_TC -
KEGG_Module M00009        [VIEW IN KEGG]
M00010        [VIEW IN KEGG]
M00012        [VIEW IN KEGG]
M00173        [VIEW IN KEGG]
M00740        [VIEW IN KEGG]
KEGG_Reaction R01324        [VIEW IN KEGG]
R01325        [VIEW IN KEGG]
R01900        [VIEW IN KEGG]
KEGG_rclass RC00497        [VIEW IN KEGG]
RC00498        [VIEW IN KEGG]
RC00618        [VIEW IN KEGG]
BRITE br01601        [VIEW IN KEGG]
ko00000        [VIEW IN KEGG]
ko00001        [VIEW IN KEGG]
ko00002        [VIEW IN KEGG]
ko01000        [VIEW IN KEGG]
KEGG_ko ko:K01681        [VIEW IN KEGG]
EC 4.2.1.3        [VIEW IN KEGG]        [VIEW IN INGREDIENT]
KEGG_Pathway ko00020        [VIEW IN KEGG]
ko00630        [VIEW IN KEGG]
ko00720        [VIEW IN KEGG]
ko01100        [VIEW IN KEGG]
ko01110        [VIEW IN KEGG]
ko01120        [VIEW IN KEGG]
ko01130        [VIEW IN KEGG]
ko01200        [VIEW IN KEGG]
ko01210        [VIEW IN KEGG]
ko01230        [VIEW IN KEGG]
map00020        [VIEW IN KEGG]
map00630        [VIEW IN KEGG]
map00720        [VIEW IN KEGG]
map01100        [VIEW IN KEGG]
map01110        [VIEW IN KEGG]
map01120        [VIEW IN KEGG]
map01130        [VIEW IN KEGG]
map01200        [VIEW IN KEGG]
map01210        [VIEW IN KEGG]
map01230        [VIEW IN KEGG]
GOs -

Sequence

CDS:  
ATGATAACAGGTGCAGCGACGTCTTCTCTCTCATCCTCCTCCATTTCATCACTGAGAGCGGTACGACATCGTTTCGCCTCCACACTTTCTCTCTCCCCCTCTACAAACTCATCCTATTCTCCCACCTCTAGAATCTTTTCCGCCGCCCGATCTCAGCCGATTTCCGGCTACCGATTCTCTCCAGGTTTCCGATCGATTTGTTCTTCGTCTTCGCGGTGGAGTCACGGTGTTGACTGGCGATCTCCGGTTAGTCTTCGGGCTCAGATTGCTACAGCTACTCCTACTCCTCTTGAACGATTTCAACGCAGGATCGCAACTATGGCTTCCGAGCATCCTTACAAGGGAATCTTCACCAGTCTACCCAAGCCTGGTGGCGGTGAATTCGGAAAGTTTTACAGTCTACCAGCTCTGAATGATCCAAGGGTTGAGAAGTTGCCTTATTCCATTCGGATCCTCTTGGAGTCGGCCATTCGGAACTGTGATGGCTTCCAAGTCACAAAGAACGATGTCGAGAAAATCATTGACTGGGAAAACTCAGCACCTAAGCTAGTTGAAATCCCCTTTAAGCCCGCTCGTGTCCTTTTACAGGATTTCACTGGAGTGCCAGCTGTTGTTGATTTGGCTGCAATGAGGGATGCCATGAAAAACCTCAACAGTGACCCTAACAAGATTAATCCATTGGTTCCTGTGGACCTTGTCATTGATCATTCAGTTCAAGTTGATGTAGCAAGGTCTGAGAACGCAGTTCAGGCAAACATGGAACTTGAGTTTAAGCGGAATGGAGAGAGATTCGGTTTCCTTAAATGGGGATCAACTGCTTTCCGTAACATGCTTGTTGTTCCACCTGGTTCTGGTATTGTGCACCAGGTTAATTTGGAGTATCTTGGACGGGTAGTTTTCAACAACGAGGGACTTCTTTATCCAGATAGTGTAGTTGGTACTGATTCACACACAACCATGATTGACGGGCTAGGTGTTGCTGGTTGGGGAGTTGGTGGAATTGAAGCTGAGGCAACTATGCTTGGTCAGCCCATGAGCATGGTTTTACCTGGTGTCGTTGGATTCAAAATGACTGGTAAACTACGCGATGGTGTCACAGCCACAGATCTGGTATTGACAGCAACACAAATGTTGAGGAAACATGGTGTTGTTGGCAAGTTCGTCGAGTTCCATGGTCAGGGAGTTGGTCAATTGTCACTTGCTGACAGGGCTACTATTGCCAACATGTCTCCTGAATATGGAGCAACCATGGGTTTCTTCCCTGTGGATCACGTTACTTTGGAATATCTAAAATTGACTGGAAGAAGTGATGAGACTGTTACTATGATTGAGCAATATTTACGGGCTAACAAAATGTTTGTTGACTACAGTGAGCCACAACAAGAAAGAGTTTATTCATCATATCTTCAGTTGGATTTATCAGAAGTTGAGCCATGCATATCAGGACCTAAACGGCCACATGACCGCGTTCCCCTGAAGGAAATGAAGGCTGATTGGAATGCATGTCTAAACAACAAAGTTGGTTTTAAGGGATTTGCTATTTCCAAAGACGAGCAGGAAAAAGCTGTTAAGTTTTCATTTAATGGCCAGCCTGCTGAATTGAAACATGGTAGTGTTGTCATAGCAGCTATAACTAGCTGCACAAACACATCAAACCCAAGTGTTATGCTTGGCGCTGCTTTGGTCGCAAAGAAAGCTACTGAACTGGGTTTGGAGGTCAAGCCCTGGGTGAAAACCAGTCTGGCTCCTGGATCTGGAGTAGTTACAAAATATCTTCTAAAGAGTGGGCTGCAGAAGTACTTGGATCAACAGGGCTTCAGCATTGTTGGTTATGGTTGCACAACATGTATTGGAAACTCCGGTGATCTACATGAATCTGTTTCTGCAGCTATTTCTGAGAATGACATAGTCGCAGCAGCTGTGCTTTCCGGTAACCGTAATTTTGAAGGGCGTGTTCACCCTCTGACACGAGCCAACTATCTTGCTTCTCCTCCATTGGTTGTTGCTTATGCATTGGCTGGAACTGTTAACATCGACTTCGATAAAGAGCCTATTGGTACTGGGAAGGATGGAAAGAGTGTCTACTTCAGAGACATTTGGCCCAGCAATGATGAGATAGCTCAGGTTGTGCAATCAAGTGTATTGCCGGACATGTTTAAAAGTACCTATGAAGCTATCACGAAGGGGAACCCCATGTGGAACTCTCTTGAAGTTCCTACTGGCACCCTTTACCAGTGGGATCCAAACTCGACGTACATTCATGAACCCCCGTATTTCAAGAACATGAGCTTGAATCCACCTGGACCTTTTTCAGTCAAGGATGCCTACTGCCTTCTCAACTTTGGTGACAGTATCACCACTGACCACATATCTCCAGCAGGAAGTATCCACAAGGACAGTCCTGCTGCCAAGTTTCTCATGGAACGTGGGGTTGATCGCAAGGACTTCAATTCATATGGTAGCAGGAGAGGTAATGATGAAGTGATGGCCAGGGGTACTTTTGCCAATATTCGTATTGTGAACAAGCATTTGAAGGGAGAAGTTGGCCCAAAGACTGTTCATGTTCCAAGTGGGGAGAAGTTATATGTGTTTGATGCTGCAATGAAATACAAGGAAGCTGGTCATGACACCATTGTATTGGCTGGTGCTGAATATGGAAGTGGCAGTTCTAGGGATTGGGCTGCTAAGGGCCCAATGCTACAGGGTGTTAAAGCTGTGATTGCCAAAAGTTTTGAGAGAATCCACAGAAGCAATCTGGTTGGGATGGGAGTGATCCCTCTATGCTTCAAGGCTGGTGAGGATGCCGAGACATTAGGGTTGACTGGTCATGAGCGATTCAGCATTGAACTCCCTTCCAAGGTTAGCGAGATCAAACCAGGACAAGATATAACTGTAACAACCGACAGTGGAAAGTCCTTTGTTTGCACCCTTCGCTTCGACACTGAGGTGGAGCTTGCTTACTTCGATCATGGTGGTATCCTTCCATACGTCATCCGCCAATTGATGAAGCAACAATGA
Protein:  
MITGAATSSLSSSSISSLRAVRHRFASTLSLSPSTNSSYSPTSRIFSAARSQPISGYRFSPGFRSICSSSSRWSHGVDWRSPVSLRAQIATATPTPLERFQRRIATMASEHPYKGIFTSLPKPGGGEFGKFYSLPALNDPRVEKLPYSIRILLESAIRNCDGFQVTKNDVEKIIDWENSAPKLVEIPFKPARVLLQDFTGVPAVVDLAAMRDAMKNLNSDPNKINPLVPVDLVIDHSVQVDVARSENAVQANMELEFKRNGERFGFLKWGSTAFRNMLVVPPGSGIVHQVNLEYLGRVVFNNEGLLYPDSVVGTDSHTTMIDGLGVAGWGVGGIEAEATMLGQPMSMVLPGVVGFKMTGKLRDGVTATDLVLTATQMLRKHGVVGKFVEFHGQGVGQLSLADRATIANMSPEYGATMGFFPVDHVTLEYLKLTGRSDETVTMIEQYLRANKMFVDYSEPQQERVYSSYLQLDLSEVEPCISGPKRPHDRVPLKEMKADWNACLNNKVGFKGFAISKDEQEKAVKFSFNGQPAELKHGSVVIAAITSCTNTSNPSVMLGAALVAKKATELGLEVKPWVKTSLAPGSGVVTKYLLKSGLQKYLDQQGFSIVGYGCTTCIGNSGDLHESVSAAISENDIVAAAVLSGNRNFEGRVHPLTRANYLASPPLVVAYALAGTVNIDFDKEPIGTGKDGKSVYFRDIWPSNDEIAQVVQSSVLPDMFKSTYEAITKGNPMWNSLEVPTGTLYQWDPNSTYIHEPPYFKNMSLNPPGPFSVKDAYCLLNFGDSITTDHISPAGSIHKDSPAAKFLMERGVDRKDFNSYGSRRGNDEVMARGTFANIRIVNKHLKGEVGPKTVHVPSGEKLYVFDAAMKYKEAGHDTIVLAGAEYGSGSSRDWAAKGPMLQGVKAVIAKSFERIHRSNLVGMGVIPLCFKAGEDAETLGLTGHERFSIELPSKVSEIKPGQDITVTTDSGKSFVCTLRFDTEVELAYFDHGGILPYVIRQLMKQQ