Query: Rmv3_10081
Size: 1496
GI: 19568098
Accession: AAL89456
Short ID: serine threonine-protein kinase
Eval: 5.64E-165
Mean Similarity: 95
Alignment Length: 945
GO Function: ATP binding; protein serine/threonine kinase activity;
GO Process: auxin biosynthetic process; protein amino acid phosphorylation; response to osmotic stress; serine family amino acid metabolic process;
GO Component:
GO Slim Function: nucleotide binding; kinase activity;
GO Slim Process: biosynthetic process; cellular process; protein modification process; response to stress; response to abiotic stimulus; cellular amino acid and derivative metabolic process;
GO Slim Component:
Species: Rhizophora mangle
Sequence:
GGTGCTCCTCCGTACTCGTTACTCAGACATCACGTTAACATTTCTTACAG
TGCGGTTCTTTAACTCAAGACTACTTCTACAAGCACTTGTACATCTGTGA
CTTATAGGGGTGTGTGTGGAGGAAGGGAGAGAAATTCAGATCTTGCATGA
GATACCAGGAAATGAACCTATAAGAGCAGGGAAACAAAAGAAAGAAAGAA
TTGCGTGTAATATTATTGTGCATGTGCAACCTTTAGGATCGTATAGATAG
TGAGCTGAGGAGATGGAGAAATACGAGCTGGTAAAGGATTTGGGAGTTGG
GAACTTTGGGGTGGCCAGGCTTTTGAGGCATAAGGAGACCAAAGAGCTTG
TTGCCATGAAATACATCGAGCGAGGTCACAAGATAGATGAGAATGTGGCA
AGAGAGATTATAAATCACAGATCACTCAGGCATCCCAATATAATCCGTTT
CAAAGAGGTCGCTCTGACTCCCACACATTTGGCAATTGTGATGGAGTATG
CGGCTGGTGGTGAACTCTTTGAGAGAATTTGCAATGCTGGTAGATTTAGT
GAAGATGAGGCCAGATATTTTTTTCAGCAGCTGATCTCTGGTGTGGATTA
TTGTCACTTCATGCAAATCTGCCATAGAGACTTGAAACTGGAAAATACAC
TGTTAGATGGAAGCCCTGCACCCCGCTTGAAAATTTGTGATTTTGGCTAC
TCTAAGTCGTCTTTGTTGCATTCAAGGCCAAAATCAGCAGTAGGAACTCC
TGCATACATAGCACCAGAAGTTCTCTCTCGCCGGGAGTATGATGGCAAGA
TGGCAGATGTATGGTCTTGTGGAGTCACTCTTTATGTGATGCTTGTGGGA
GCATATCCTTTTGAGGATCAAAATGACCCTAAAAATTTTCGTAAAACAAT
TCAGCAAATAATGGCCGTACAGTACAAAATCCCTGACTATGTTCATGTGT
CTCAAGATTGCAGACATCTACTTTCTCGCATATTTGTTGCAAATGCATCC
AGGAGAATTACAGTAAAAGAAATAAAAAGCCATCCATGGTTTTTAAAGAA
TTTGCCGAAGGAGCTCACAGATGCATCTCAATCCATATACTATCAGAGAG
ATAACCTGAGCTTTTCTCTTCAAAGTGTGGAAGAAATTATGAAAATTGTG
TCTGAGGCAAGAAGCAAACCTCCAGCATCTACCCCTGTCGAAGGCTTTGG
CTGGGGAACAGAAGAAGATGAAGTGGAGGAAGATATTGATGCAGAAGTGG
AGGAAGAAGATGAGGAAGATGAGTACGACAAGAGGGTCAAGGAAGTTCAT
GCAAGTGGAGAATATCAAATAATTTAAACCAGTTCAGTATCTGTTTATGT
ACTAGACAATGGATTGCTCAAACTCAGGACTCTGTATAATAATGACAGGT
GATTAGTGCAGCTTGCGCTTGAGAATTAATAGACTCTAAATAGGTAACAG
TAATAAAAATCTGATAATGTGATGTACCCTTTATTTCATTGCCGGA