Query: Rmv3_4927
Size: 1549
GI: 91984047
Accession: YP_567132
Short ID: nadh dehydrogenase subunit i
Eval: 1.54E-88
Mean Similarity: 96
Alignment Length: 489
GO Function: quinone binding; electron carrier activity; NADH dehydrogenase (ubiquinone) activity; iron ion binding; 4 iron, 4 sulfur cluster binding;
GO Process: photosynthesis, light reaction; electron transport; mitochondrial electron transport, NADH to ubiquinone; ubiquinone biosynthetic process; sodium ion transport; proton transport;
GO Component: chloroplast thylakoid membrane;
GO Slim Function: binding; molecular_function; catalytic activity;
GO Slim Process: generation of precursor metabolites and energy; photosynthesis; biosynthetic process; cellular process; transport;
GO Slim Component: membrane; thylakoid; plastid;
Species: Rhizophora mangle
Sequence:
TTCTCTCTTCTTTAATACAAAACGGAATTCTAGTTAGTAATTTTAGTAAA
TTAAAAATTGTTCTTTAATCAATTCTGAAGTCGCGGGAGGTTTATCCATT
TTTTTTGAGGCAAATTCAAAATTGTCCGAATTGTATAATCGTTAATTACT
GACATTGGTAAACGACCTAACGTAATTTGATTATAATTTAATTCGTGCCG
ATCATAAGTAGAAAGTTCATATTCTTCAGTCATTGATAAACAATTTGTTG
GACAATACTCAACACAGTTTCCACAAAATATACAGATTCCGAAATCAATA
CTGTAATTAAGCAGCTGTTTCTTTCGAATATCGGTTTCCAATTTCCAATC
AACAACAGGTAGATCTATAGGACATACACGAACACATACTTCACAAGCAA
TGCATTTATCAAATTCAAAATGGATTCGGCCGCGGAAACGTTCGGATGCG
ATTAATTTTTCATAAGGATATTGAATCGTTACAGGTAAACGATTCGCGTG
GGATAAGGTGATCATGAAACTTTGACCAATGTACCTTGCAGCTCGTATAG
TTTGTTGACCATAATTCATGAGGCCAGTTACCATAGGGAGCATATCGTAA
ATATTTATGAAGTAATTTTATGTTTGTTTCTTTCTCTTGTTTGAGATAAG
TTATAGATAAAAAAAAGTAAAAAAAACAAAAACATAGTGAAAAGAGTTGG
GAAGAGGTTGTTAATAATAAATTACCGAGAGAAATAGGTAAAAGAAATTT
CCATCCGAGATTTAAGAGTTGGTCCATTCTTAGTCTAGGTAAAGTCCATC
TTGTTGTAATAGAAATGAACAAGAATAAATAAGTTTTAACCAATGTAATA
AAGATACCAATTATTGCTTCAAAGATTCCATTTATTTCAAATAGCTCAGG
AACGAATATGTACGGAATAGAGAAATTCCAACCGCCCAAGTAAAGAACTG
TTACAAATAATGAAGAAACTAATAAGTTTAAATAGGAAGCAACATAAAAT
AACCCAAATTTGATACCTGAGTATTCGGTTTGATAACCCGCTACTAATTC
TTCTTCTGCTTCTGGTAAATCAAAAGGCAATCTCTCACATTCTGCTAAGG
AAGAAATTAAAAAAATAATAAACCCTATAGGTTGACGCCACAAATTCCAC
CCCCAAACCCCATATTTGGATTGTGCCTCAACTATATCAACTGTACTTAA
ACTATTAGACAATCATAGTCGGTAATAACATCACTGCTGCCATCGCTATT
ACAGAACTGTACATGAGATTTTTACCTCATACGGCTCCTTGAAGGTCATA
AAAAATCTAAGGACCGAATTGTATTATTTATCTTGATATATTTGTATCAT
AGATAAGATCAAAGTTTATCGGACGTTCCTAAATTCAACCAACGGAATTC
TGTCTGTTATAATATTCTAAAAAAAGCACTTCTGAATTAATCTCATCCTT
TAATTAAGAATTTCAATTTTTCTTTCTTGAGTAATAACTTAAATCCTTCA
ATAAAATACTCCTTGTAACCATACCAATAAATATTTTTTTTATTAATCT