Query: Rmv3_1838
Size: 1392
GI: 317046176
Accession: YP_004072465
Short ID: nadh-plastoquinone oxidoreductase subunit j protein
Eval: 2.28E-88
Mean Similarity: 98
Alignment Length: 474
GO Function: quinone binding; NADH dehydrogenase (ubiquinone) activity;
GO Process: photosynthesis, light reaction; mitochondrial electron transport, NADH to ubiquinone; ubiquinone biosynthetic process; sodium ion transport; proton transport;
GO Component: chloroplast thylakoid membrane;
GO Slim Function: binding; catalytic activity;
GO Slim Process: generation of precursor metabolites and energy; photosynthesis; biosynthetic process; cellular process; transport;
GO Slim Component: membrane; plastid; thylakoid;
Species: Rhizophora mangle
Sequence:
AAGCAGTGGTATCAACGCAGTAGTTGGTCCTATTACGGCCGGGCGATTCG
ACTTTGATCGTTATGGACTAGTCCCAAGATCTAGTCCTAGACAGGCGGAT
CTGATTTTAACAGCCGGCACGGTAACCATGAAAATGGCTCCTTCTTTAGT
AAGATTATATGAACAAATGCCTGAACCAAAATATGTTATTGCTATGGGAG
CATGTACAATTACAGGGGGGATGTTCAGTACCGATTCTTATAGTACTGTT
CGGGGCGTTGATAAGCTAATTCCTGTCGATGTCTATTTGCCGGGCTGTCC
ACCTAAACCGGAGGCGGTTATAGATGCTATAACAAAACTTCGTAAAAAAT
ATCTCGAGAAATTGTTGAAGATCGAATTAGACCTCAACAGAGGAATCGGT
GTTTTACTACCAATCACAAGTTTCATATTGGGTCCACTACTCATACTGGA
AATTATGATCAAGGATTACTCTATCAACCACCATCTACTTCAAAAATATC
TTATGAAACTGAAACATTTTTCAAATATAAAAAATCAGTATCGTCCCACG
AATTAGTAAATTAGCGAAAGGATTCGTTTATTTTATACAAAATAACAAGG
GGTAAGTCAATCTTCATAAATTTCATCGTACATGTGAAAGACTTCTACAA
ATCAAAATTGGGAGAGGGAAAAAAGATGCAGGGTCGTTTATCCGCTTGGC
TGGTCAAACATGGGCTAATTCATAGATCTTTAGGCTTTGATTACCAAGGA
ATAGAGACTTTACAAATAAAACCTGAGGATTGGCATTCCATTGCTGTCAT
TTTATATGTATATGGTTATAATTATTTGCGTTCCCAATGTGCCTATGATG
TAGCACCGGGCGGGCTTTTAGCTAGTGTATATCATCTTACGAGAATAGAG
TATGGTATCGACCAACCAGAAGAAGTATGTATAAAAGTATTTGTCCTAAG
GAGGAATCCTAGAATTCCGTCCGTTTTCTGGGTTTGGAAAAGTTCGGATT
TTCAAGAAAGGGAATCTTATGATATGTTGGGAATCTCTTATGATAATCAT
CCGCGTTTGAAACGTATCTTACTGCCGGAAAGTTGGATAGGGTGGCCCTT
GCGTAAGGATTATATTGCCCCCAATTTTTATGAAATACAAGATGCTCATT
GAATAATAAAAAACGAATCCTCGATGCTACAATTCCCGATATTCAAGGAG
TTCGTTCTCTTATAGATCAATAGAGTTATTTAAGTCTCATTCATATTATT
ATAATTCATATTATTATAAATATGGATATAGATAAACAAAAAAAGAAAAA
AACAAAAACAAACTAGTTCGGTCCGGCCCGTCCGGTCCGTTCCTTACCTT
ACGTAGGAACGAACCGACCGAAACCAAACGGGGGGAAGGGTT