Query: Rmv3_67
Size: 1409
GI: 255554146
Accession: XP_002518113
Short ID: sty-l protein
Eval: 8.71E-128
Mean Similarity: 90
Alignment Length: 891
GO Function: myosin heavy chain kinase activity; protein binding; structural molecule activity;
GO Process: vesicle-mediated transport; intracellular protein transport; serine family amino acid metabolic process; phosphorylation;
GO Component: membrane coat; myosin complex;
GO Slim Function: kinase activity; protein binding; structural molecule activity;
GO Slim Process: transport; cellular process; cellular amino acid and derivative metabolic process; metabolic process;
GO Slim Component: membrane; cytoplasm; cytoskeleton;
Species: Rhizophora mangle
Sequence:
ATTGAAAAGAAACCCTTCTGAACATGTTCCAGAGGCTTCAAAGAGTTTTT
CCTTCAGTGAATTTGCCTCAATTCGTGAAAGTAATGGAAAAGTTGTCTGC
TGCCATTTCTCAACAGATGGAAAGTTGTTGGCCAGTGCTGGGCATGACAA
GAAGTAGGTTGTCCTTACAAACACGGAAACTTTGCAAACTGAGTGCACTC
CAGAAGAACACACCCAGCTAATAACTGATGTTCGTTTCAGACCAAACTCA
ACTCAGCTAGCAACTTCTTCATTTGATGCTACTGTGCGACTCTGGGATGC
TGCAGAACCTAGGTATGCTCTACGAGCATATACAGGGCATACTTCGCATG
TCATGTCTCTTGATTTCCACTCCAAGAAAAATGACCTTTTCTGCTCATGT
GATGGTAACAATGAAATTCGCTTGTGGAGTATCACACAGTTTCCCTGTAT
CCGCATCTTAAAGGGCGGTAGTACTCGAGTTAGATTTCAGCCAAGAATTG
GACACCTATTGGCTGCAGCAGCAGAGAATGTGGTGTCTATTTTTGATGTT
GAGAAAGACAGTCCGATGTACACCTTAAAGGGTCACTCCACCGAGGTACA
TTCCATATGTTGGGATGTAAATGGAGATTACTTGGCATCTGTCAGCCAAG
AGTCTGTCAGGGCGTGGTCAGTGGCATCAGGAGATTGTATTCATGAACTC
AATTCCAGTGGGAACAAGTTCCATTCCTGTGTTTCCCATCCAAACTACTC
CACTCTCTTGGTCCTCGGAGGCTACCTGTCATTGGAACTGTGGAACATGG
CCGAGAACAAATGTATGACCATGGCTGCTCACGAGTGCGTTATATCAGCT
TTGGCCCAATCACCAGTTGCAGGGATGATTGCTTCTGCAAGTTCTATTGT
ACTAAATTCTTGTTGTAAGTATTATTGGTAAATTAAGTCCGCACCATCTG
GTTATTTTCAATACCAAGTGTAGGAAGCTTCTCCATCTTCTAGGGAATAA
TAATAATGGATAAAACTCTTAAATAGGGATTTCCTTCTCCATTTCATTCT
TTAGCTTTTCTTTATAAGAGGGGACTTACGAGGGTTTCCCTTGGTTGTGC
AGTTTGGCTGCTTTGCATTTGTTTGGTTGTCATCAGAGAGTAGATTATAG
AATGTGGGGAGTTTGGACATATGCTTTGCTTTGAGAAGTTTCGGTGCAGT
GATGACTGTCATAAAGTTTCATTTGAGTGAAGTGATGATTGTCATAAAAG
TTCATTTTGGAGTTCAAACCTGTAATTTGGTGCAGCACCGTTTATTGCTC
TGTAACTGCTCCAAGTACACGGGAGACAGTTTCTGGAAAAAGGAACCAGC
ACCCCCCCGCCTTTGTTTGACATTAACATGTATCCCCCAGTTCCACCCAC
CATGTTTGG