Query: Rmv3_53
Size: 1808
GI: 224110752
Accession: XP_002315624
Short ID: protein kinase
Eval: 0
Mean Similarity: 92
Alignment Length: 1461
GO Function: RNA polymerase II carboxy-terminal domain kinase activity; ATP binding;
GO Process: protein amino acid phosphorylation; serine family amino acid metabolic process;
GO Component: cytosol;
GO Slim Function: kinase activity; nucleotide binding;
GO Slim Process: protein modification process; cellular amino acid and derivative metabolic process;
GO Slim Component: cytosol;
Species: Rhizophora mangle
Sequence:
TTCATCTTCAAGATGGGCAGCTGGAAACAATTCTCCATCTGATGAAGGTG
AAATTGTAGAGGATCAGGAGAAGCCTAAATGGAGGAAGAAGATGCCTCAC
GTGGAGTCTCTAGATACCAGAGTTTACTCACGGTCAGTGACTCCTGAGTT
TGGGGAGATTAGGAGAGATGGTTCTGACACCAGAGTGAGGTCATCTGAAT
CTGATGAGCGAGGCACCCTTGCTAGGTCTTCAACAGGGGGTGATTATCAT
GGCCATGACTCTGAAAATGCTGACTACATGGATGTTGATGAGGAACATGA
TGGTGATATCAGTATTGGTGGCCGTTCTGATACAGAATCTGGGGACGAAA
ATAATTCTTGTGGATCACAAGAACCTGCAGGGCCTCCTCAAAGAAGTATA
AACATGCTGTTGGGTTGTAGAAGTGTTGATGAGTTTGAGAGACTAAACAA
AATAGATGAAGGTACTTATGGTGTTGTATACAGGGCCAAAGATAAGAGGA
CAGGTGAAATTGTGGCATTGAAGAAAGTTAAGATGGAGAAAGAACGAGAA
GGTTTTCCGCTGACTTCTTTAAGGGAGATAAACATTCTTCTTTCTTTTCA
TCATCCTTCAATTGTTGATGTTAAGGAAGTTGTTGTAGGGAGTAACCTTG
ACAGCATTTTCATGGTGATGGAGTACATGGAGCATGATCTGAAAGGACTC
ATGGAGTCAATGAAGCAGCCATTTAGTCAGAGTGAAGTGAAATGCTTAAT
GCTTCAGCTATTAGAGGGTATCAAATATCTTCATGATAATTGGGTGCTTC
ATAGGGATTTGAAGACATCAAATCTACTTTTGAATAACCGTGGTGAGTTG
AAGATCTGTGATTTTGGATTGGCTCGTCAATACGGGAGTCCATTGAAACC
TTATACTCATTTGGTGGTTACTCTTTGGTACAGGGCACCTGAACTTCTTT
TGGGAGCCAAACAATATTCAACGGCAATTGACATGTGGTCACTGGGCTGC
ATTATGGCTGAATTGTTATCAAAGGAACCTTTGTTCAATGGAAAGACAGA
ATTTGATCAACTTGACAAGATCTTTCGCACTCTTGGTACACCAAATGAGA
CAATCTGGCCTGGGTTTTCCAAGTTGCCTGGTGTGAAGGTTAATTTCGTC
AAGCATCAGTATAACTTACTGCGTAAGAAATTCCCAGCTACATCATTCAC
TGGGTCACCGGTCCTCTCTGATTCTGGGTTTGATTTGTTGAACAAACTTC
TGACATATGACCCTGAAAAGAGAATAACTGCAGAAGATGCTATTAAGCAT
GAGTGGTTTCGTGAAGTTCCACTTCCAAAGTCTAAAGACTTTATGCCAAC
TTTTCCTGCTCAGCATGCTCAAGATAGGCGTCTGCGGAGAATATTGAAGA
GTCCAGATCCTTTGGAAGAGCAGCGCCGAAAAGAACTGCAGCAAGGGGAA
TTAGGGACTGGTGGAATATTTGGCTGAATATTTATTGGTCAACTTTGGTC
CTGTGATCTCCAAGCTTTCTGTTTTATGCTACTAACATCAGAGAAGGTGG
AGGTGAGAGATGTCCATTGAAAGGAAGTTGAGAACATTGTTTGTCAGATG
TTCATTGGCACTGTTTTTTAGCAGGGCACGTATGGTGATTTGGGTTGGTA
AATTATTTGCATCCTCCCATCAGCCAGTTATGTTGCAGGTTGACTTTGTT
CTCCAGCTTCAATATCGAGATATAATACTTCTGTGACACTGCTTGCATTG
CAAGGTGTGACAAGATGGCCCTTCTTTAAAAAGAAATTAGTTTTTATTCT
GAAACTTA