| New model in OGS2.0 | DPOGS201566 |
|---|---|
| Genomic Position | scaffold864:+ 40125-44983 |
| See gene structure | |
| CDS Length | 1968 |
| Paired RNAseq reads | 870 |
| Single RNAseq reads | 2164 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006114 (0.0) |
| Best Drosophila hit | CG2614 (6e-138) |
| Best Human hit | methyltransferase-like protein 13 isoform 1 (4e-110) |
| Best NR hit (blastp) | CGI-01 protein [Culex quinquefasciatus] (4e-169) |
| Best NR hit (blastx) | hypothetical protein AaeL_AAEL002186 [Aedes aegypti] (7e-160) |
| GeneOntology terms | GO:0005575 cellular_component GO:0008168 methyltransferase activity GO:0008152 metabolic process |
| InterPro families | IPR013216 Methyltransferase type 11 IPR001045 Spermine synthase |
| Orthology group | MCL14934 |
Nucleotide sequence:
ATGAATCTTCTCCCAAAAACCTACAAGGAATTTGGTGAAAAAGACTATTGGAATAAGTTT
TTTAAAAACAGAGGCAATAAAGCTTTTGAATGGTATGGAGAATATTTAGAACTGTGTGCT
CATCTACACAAATACATTAAACAGACCGACAAGGTCCTTATACCTGGATGTGGAAACTCC
AGCCTGAGTTCTGATCTTTATGATGTTGGCTATAAGAATATCATTAACATTGATGTCTCG
GAAGTGGTAATAAAACAGATGAAAGCTAAGAATGCACATAGGACAGATATGTCATTTTTA
CATATGGATGCTCTCAACACAACATTTAATAACGATGAATTCAATGTAGTGCTGGACAAA
GGAACCTTAGACGCTCTTATGCCAGATGATTCAACTGAAACTCTTCTGAGAATAGACAGT
TATTTCTCGGAAATTAAAAGATTATTGAAGTTAGGGGGAAGGTTTATTTGTATATCCTTG
CTGCAGGGTCACATTTTGAGTAAGTTGATAGACTTCTTCTGTGACAAATCCTGGTTGTTA
AGGATCGTAAGGTGTCATGAGGCTGAGGAAAAAAGTGCAGAGAGCGATGAAGGAACAACA
TTACCAGTATTCATTGTTGTTGCCACCAAATTTAAGGAATGTCCGAGATTAATTCTAGAA
GTATGTATGGCGGGTGAGAAGATGCAGAGTGTTCAATCCACAGACGAACTGAAGTCGATA
ATTAAATCCGTTCAGGATACAGCGTTTGTCACTAATGGACTGGCTAAGGCAGATCTGGAT
GAAGACGACGAGGTCTGCTTGGACCTCATGCAGCCTGGGGACACAAACCCTCGATACACA
CTTTTCATCATAAACCAGAAGAAATATCAGACGGTGAACAAGTATGCGGTGTTTATTGTG
CCTCAGGGCAGGCAATGTGAATGGTTATTTGGCACACCAGCCGGTAGGAGACAACTCCAG
GATTCAGCACGATTTGGCCGGTTGGTTGTAGCCTGTCTGAACAGAGGACATCAGTTCCCA
AGCCTTGATGCCGTCAAGGACGAACTGGCTCATGCTGCCAAGATGCTAATGCCCAATGGG
TTCAGTGGACAGATACCGTTCCTGTCCCTGGGTGACGTCGGGTCGCGCAGTCAGGTGTGG
TCCGGCGAGTCGTGTTCGGGGCCTTACGTGGTGGAAGATGTGTCCGTGGACGGGATCCTC
CACCGGCGGCTGGTGTTCCTTCATCACCAGGGACTGGTGCAGTCCGAGGCGAGGTTAAAG
ACTGTTAAAAGGAAGAATAAATCCAAGCTGGTGGTGGACTTCGGCGCCGTGTCCTTGTAC
CATTCAATAATGACCCTCGGCTTACATCTCAACGACGCTGTCAGCGGCGAGGTCGCGGTG
CTCGGCCTCGGAGGTGGCGGCCTCTGCATGTTCATTAAGAAATGTTACGACGACGTTAAA
GTAACGGCCGTCGAAATAGACGCGGACATGCTGGACGTGGCTAGAGAATACTTTGAGCTG
GAAGTCGACGAACGTCTGGAGGTGCAGGTCAAAGATGGTCTGCAATTTTTACAGGAGGAA
GCCAATGCTGGTAAGCAGTACTCGTGCGTGATGTACGACATGGACAGTAAGCAGCACGCG
GGTGTCTCCTGTCCCCCGGAACAGTTCCTGGAGGAACACGCGCTGGAGCTGCTGGTGGCT
GTGCTGGGGACGGGACAATTCATCCTAAACTTTGTATGTCGAGATAAGCAGATACGGGAG
TCGACGTTGGACGTATTGAAGAAATACTTTAAATATATCGCGACCGTCCAGCTTGAGACA
GAGGTCAATGAAATTATATTTGCAACGAACGGAGACAGAGCGTACGACGCGCAGAGGATA
GAAGCGGCCGTGACCGACGTGAACCAGGCAGCGAGGCAGAGGAAACTCGTTAAACTGAAA
TGTATAGACATGAAGGATGTCCTTGACACGCTCAGTGTAGTTAAATAG
Protein sequence:
MNLLPKTYKEFGEKDYWNKFFKNRGNKAFEWYGEYLELCAHLHKYIKQTDKVLIPGCGNS
SLSSDLYDVGYKNIINIDVSEVVIKQMKAKNAHRTDMSFLHMDALNTTFNNDEFNVVLDK
GTLDALMPDDSTETLLRIDSYFSEIKRLLKLGGRFICISLLQGHILSKLIDFFCDKSWLL
RIVRCHEAEEKSAESDEGTTLPVFIVVATKFKECPRLILEVCMAGEKMQSVQSTDELKSI
IKSVQDTAFVTNGLAKADLDEDDEVCLDLMQPGDTNPRYTLFIINQKKYQTVNKYAVFIV
PQGRQCEWLFGTPAGRRQLQDSARFGRLVVACLNRGHQFPSLDAVKDELAHAAKMLMPNG
FSGQIPFLSLGDVGSRSQVWSGESCSGPYVVEDVSVDGILHRRLVFLHHQGLVQSEARLK
TVKRKNKSKLVVDFGAVSLYHSIMTLGLHLNDAVSGEVAVLGLGGGGLCMFIKKCYDDVK
VTAVEIDADMLDVAREYFELEVDERLEVQVKDGLQFLQEEANAGKQYSCVMYDMDSKQHA
GVSCPPEQFLEEHALELLVAVLGTGQFILNFVCRDKQIRESTLDVLKKYFKYIATVQLET
EVNEIIFATNGDRAYDAQRIEAAVTDVNQAARQRKLVKLKCIDMKDVLDTLSVVK