| New model in OGS2.0 | DPOGS207794 |
|---|---|
| Genomic Position | scaffold2726:+ 18198-25460 |
| See gene structure | |
| CDS Length | 2886 |
| Paired RNAseq reads | 1372 |
| Single RNAseq reads | 3499 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005324 (0.0) |
| Best Drosophila hit | CG6379 (8e-145) |
| Best Human hit | cap-specific mRNA (nucleoside-2'-O-)-methyltransferase 1 (2e-153) |
| Best NR hit (blastp) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0004483 mRNA (nucleoside-2'-O-)-methyltransferase activity GO:0006370 mRNA capping GO:0080009 mRNA methylation |
| InterPro families | IPR002877 Ribosomal RNA methyltransferase RrmJ/FtsJ IPR000467 D111/G-patch IPR003959 ATPase, AAA-type, core |
| Orthology group | MCL14189 |
Nucleotide sequence:
ATGAATCTGTCAGATCCATCAGACGACGATTCTAGTAGCGATGAAAGTCCTGTACCAGCA
AAACGTCCCCGGACAGACACTTACGGTGCCTCGTCAACAACATCGCATGGTTCAATCATT
CAAGAATCTGACGAGGACTCACCTGAACCACAATTTTCGGACAACTATGGGGCTAATTCA
CAGAAGACAAATAAAAACAGGTTAAGCTATAGAGAGCAAAGTCCCAATAGACTCAATCGA
TTAAGTCGGAGCAGTCTTAGTGAGAATTGTTCTTCTCCTACTGATCAATATGATGACTTT
CGACCTGGTTTCAAAGATAATGATTCAGAAGATGGTAGTGTCCGACCAAGTTTCCAGAAA
TCCAATGACAATGCCTTTTACAACAAAACATCGGACGATTACAAAGAGTCTGATTCTTAC
ACTGGTGTGGGATACTCAGAGATTTCAAAAAGAATGATGAGTAATATGGGTCATAAGCCT
GGGAGAGGTTTGGGTAAATTTGAACATGGCAGAGTAGAACCAGTAGAGGCGTCTACACAG
AAGGGTCGGAGAGGTTTAGGTTTAAAACCGTCAGTTGTTGGTGAAGTACCTCGTGATTTT
AAATGGTCACCAGACGAGGCAGTGCCTGAAGCACAGGAGGAAATTAACTGGATCCCATCA
GCACCAGAAGAAACTTTGTATGGGGACATATTAGAACAATGGTTGAAGAAGGGCAAGAAG
AAAACAATAATTGAAGATGAGACAGAATTTGTGGATCCACAAATACTGAAAGGCATTCTA
AATTCAAAGACCATTTTTGACAATCTAGAGGGTGAAGATATGAGACTTGCTAGAACTCGC
AGTAATCCTTATGAGACTATTGGTTCTGTTATATTTTTAAATAGAGCAGCTGTTAAAATG
GCTAACATTGATGCTGTTTTTGACTTTATGTTCACAAATCCTAAGAAACCATCTGGGGAA
CCGGCTGTAGATAAAAAGGATTTGTTGTATTTCGCTGATGTTTGTGCTGGGCCTGGTGGA
TTCTCTGAATATGTTCTGTATAGGAAAGGTTGGAGAGCAAAAGGTTTTGGTTTCACATTA
AAAGGCTCAAATGATTTCAAATTATCCGATTTCTACGCCGGTGCCCCAGAAACATTCAAT
CCTTATTATGGCGTTAAGGAAGATGGAAATATCTTTGATCCAGCTAATTTGTCATCTTTG
AAAGAGTTTGTTTTAAAGCAAACAGATGATGTCGGTGTCCATTTTCTTATGGCAGATGGA
GGATTTTCAGTTGACGGACAAGAAAATATCCAGGAAATATTGTCGAAGCAGCTATATTTA
TGTCAGTGTCTTGCAGCTCTAATGCTTGTTAGAACTGGTGGCCATTTCGTTTGTAAGCTG
TTTGATGTATTCACACAATTTAGTGTTGGTCTCATTTACATTATGTATAGGTGTTTTGAA
AAAGTGTGTATTTTTAAACCTGTAACGTCGCGACCGGCCAACTCTGAGCGTTATATAGTG
TGTAAGTGTAAGAAGGCCGGCACTGAATCAGTTGAGAAACATTTATTCTCTGTTAATTCT
ATTCTATGGAACAATCGCACTAAGGACGATGACGTCACACAGCTCGTGCCCCTGTCAGTT
ATACATGAGGATAGAGCCTTCTATGAATATATATATAAGAGTAATTGTGTAATTGGGGAA
AGACAAATCAAGAATCTGTTGAAAATTGCTGAATTCAGCAAAAATAAAAGTCTTCAAGAG
GACTCTCAGGCTGAGATGAGAGAGCAATGCCTGAAACTGTGGAATTTACCAGATAAAGTA
CGCACAAAACCAGAACGTAGGAGCGCTGATGATACACTATCACACATATTGAAAACCTCG
GCCAAAACACAATCGGAGTCACACAGTGTGTATTCATTTAAGAACAGCATTCTCAATAGG
CAGCCAAAGTATCTTGAGAAGTCTTCAGATTTGAGTAGCACTTTCATTAATGTGTACGAC
TGGCATTTCACATTCCTCAGTAGTGTCAAAGGAAGTTCTGATCTGAAGATATTCATAGCC
TGTGGTGGGAAACAGGTCTATCAGCTCGATGGCACCAATTGGAGAAATGTAGCCGATTTA
CATTTGACATTGCCCGCACACACATTGTTATACGGAGAGATAGTACGCGAGTATCGAGGC
GAAGGCAACAATCAGATGCACAATAAAGCACTTCATGTGATAGACGCACTCATGCTAGGA
GGCATTGATATATCATTAATGCCACTCACTGATCGTATTAATCAATGTACCTTATTTTGC
AATGCACTTGAAAAAACCGATGACACACAAGCCCTTCCAATCAGATGTAAGAGGTTTTAC
CCGTTGGAATCGTTTCCAACGTCCGTGGATAATTTGGAATATAGAGCAATGAAGAGAATT
AAAAAGGCTTTAACTGTGGACATACCGAAACGAGGCAACCGAAATGATATGTTCCATACC
GTTGGATCTTTACTGTTCATAAAGGAGTTGAAAGAGCCATGGATAGCACAAATATCTAAG
AAGAGCGGTTGCAAGTATTATTACTGCATCGGACCGGACAGGAAGCCACGTAGCGAGTAC
TATATACCGGAAGCAGCCGGTTTAGACATGTTGAGCGCATATTCTAACAGGATATTGTGG
AATTGGGAGGCAGCTTCAGCCATCTTTGAAGGACATCCAAACGCACCTATGACCCGATCG
CACATGGAAGAATATATACGCCTCAATCAGTTTATGAAGGAGAATCAGTTGCCCCATTTG
CTGTTCTATGGTCCACCAGGTACTGGAAAAACATCCACTATATTAGCTTGTGCGAAACAA
ATGTATACTCCACAACAATTCAATTCTATGGTAAATATATACACATTATTTATACAGTTC
TTGTAA
Protein sequence:
MNLSDPSDDDSSSDESPVPAKRPRTDTYGASSTTSHGSIIQESDEDSPEPQFSDNYGANS
QKTNKNRLSYREQSPNRLNRLSRSSLSENCSSPTDQYDDFRPGFKDNDSEDGSVRPSFQK
SNDNAFYNKTSDDYKESDSYTGVGYSEISKRMMSNMGHKPGRGLGKFEHGRVEPVEASTQ
KGRRGLGLKPSVVGEVPRDFKWSPDEAVPEAQEEINWIPSAPEETLYGDILEQWLKKGKK
KTIIEDETEFVDPQILKGILNSKTIFDNLEGEDMRLARTRSNPYETIGSVIFLNRAAVKM
ANIDAVFDFMFTNPKKPSGEPAVDKKDLLYFADVCAGPGGFSEYVLYRKGWRAKGFGFTL
KGSNDFKLSDFYAGAPETFNPYYGVKEDGNIFDPANLSSLKEFVLKQTDDVGVHFLMADG
GFSVDGQENIQEILSKQLYLCQCLAALMLVRTGGHFVCKLFDVFTQFSVGLIYIMYRCFE
KVCIFKPVTSRPANSERYIVCKCKKAGTESVEKHLFSVNSILWNNRTKDDDVTQLVPLSV
IHEDRAFYEYIYKSNCVIGERQIKNLLKIAEFSKNKSLQEDSQAEMREQCLKLWNLPDKV
RTKPERRSADDTLSHILKTSAKTQSESHSVYSFKNSILNRQPKYLEKSSDLSSTFINVYD
WHFTFLSSVKGSSDLKIFIACGGKQVYQLDGTNWRNVADLHLTLPAHTLLYGEIVREYRG
EGNNQMHNKALHVIDALMLGGIDISLMPLTDRINQCTLFCNALEKTDDTQALPIRCKRFY
PLESFPTSVDNLEYRAMKRIKKALTVDIPKRGNRNDMFHTVGSLLFIKELKEPWIAQISK
KSGCKYYYCIGPDRKPRSEYYIPEAAGLDMLSAYSNRILWNWEAASAIFEGHPNAPMTRS
HMEEYIRLNQFMKENQLPHLLFYGPPGTGKTSTILACAKQMYTPQQFNSMVNIYTLFIQF
L