New model in OGS2.0 | DPOGS215310  |
---|---|
Genomic Position | scaffold2394:+ 69783-72064 |
See gene structure | |
CDS Length | 2040 |
Paired RNAseq reads   | 1492 |
Single RNAseq reads   | 4363 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007621 (0.0) |
Best Drosophila hit   | adrift (2e-82) |
Best Human hit | ftsJ methyltransferase domain-containing protein 1 (3e-79) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL006747 [Aedes aegypti] (3e-106) |
Best NR hit (blastx)   | PREDICTED: similar to FLJ11171 protein [Nasonia vitripennis] (1e-107) |
GeneOntology terms    | GO:0005634 nucleus GO:0007424 open tracheal system development GO:0016477 cell migration GO:0007426 tracheal outgrowth, open tracheal system GO:0032259 methylation GO:0008168 methyltransferase activity GO:0003676 nucleic acid binding |
InterPro families   | IPR002877 Ribosomal RNA methyltransferase RrmJ/FtsJ |
Orthology group | MCL16834 |
Nucleotide sequence:
ATGTATAGAGGAGAAGACTTTGAAGAGGAATTAAATGATTTGTTCAACAAAAAGTATCAA
TTCCGATTTAACAGTGAATGGAAACTGCCTGACCAAGAGTGCTGGTTTTCAACAGCGCCA
TGGAAAGTAAAGGTTCTCGAGTCTCTCAAATCCAAGCTAAATTTCCATAAGAGTCAATTA
AATGACTTCAGCATTGAGGAATGGAGTAGCCACACGCGACGCCGAAACCCAGCGGGCGAA
GTGGGTTGGAAGATTCGATGCTTAGTGAACCCTGAATTTTTGACTCAGGCTTGGACAAAG
TTCTATGAATGTGCTTGCACATATGAAATTGTGCCAAAGGAAGCTAAAATATCAAATAAG
ATAGTATCTCTTCACTTATGTGAAGCTCCAGGAGCATTTATTACTTCTTTAAATCATTAC
TTAAAGTCGCATCATCAGGAAATGCAGTGGCAATGGGTAGCAAACACGCTAAACCCATAT
TACGAAGGTAATTCTCCCTCGAACATGATCAGTGATGATCGTTTCATGTTCCACACTTTA
GACCACTGGCATTTTGGTGTTGATAGTACCGGCAACCTCATGGATTGGGACAACTCGCAA
GCAATCATCAAAAAGGCTAGAAGCTTAGGAAAAGTTTTATTAGTGACAGCAGACGGATCA
ATAGATTGCTTGCAGAAACCTGATGCACAGGAAGAAGTCACATCGCCATTGCATTACTGT
GAGATTGTTACCTCATTACAATCATTAAGTCCAGGTGGAACATTGATTTTTAAACTATTC
ACAATATTTGAGCATACAACAGTAAGCTTACTGTATCTCATTAATCATCTGTTCAAAGAG
GTCAACATTTATAAGCCAGTGACATCCCGTCAAGGAAATTCCGAGGTTTATGCAATATGT
CTCGGTTACAAGGAAAATGTTAATTTAAACAATTATATTTCCATTCTAAAATCAACCTAT
GGAACAGATCTCTATTCAAAGACAGCTCTGTTTCCGTTGGAATCAATTCCGGACACATTT
CTGAAGCAAATTGAGGAGTGCGCATACTATTTTTGTTCCATACAATGCCAAGTGATAAAT
AATAATCTTCAAGCATACTTAATGCAAAAGAATATTGCACTACACAGAGATATGAAGAAA
ATAAGGACAATTGTGGCATCAGAGTTTATTTGGAAGTACGACCTTAAACCTATCGACATT
GAAAAGGAGATTCTTAAAGGGATATTACATGAAGAGAACAAAATTAATACCAATCCTCGG
TACCATCGCGGTTCATTCACAGAGAGGCAGCTGTATTCAAAGATGTCCCTGAAAGAGAAG
CTAAAGAATCTTAATGCATTTTTGCAAGCCGAACTTCTCTCCAATCCTCTTATATTAATA
AACGAGCCAATACGCTGGATGGTGAAGGAAGAAAATCTAAAGCTCAACCCTGTCTTTACA
TACGGCAGGCCGTTGCAAAAGGTTAACAGCTCAAAATTCATCTTTGTACCAATATTTAAA
CTATATCAGCAGATTCTGGCCGAAGAAGAATTCATGGAGATTATAGCCTATAAACAAACC
AAAGGCCAGGTTAAAATGACTCTGGAAAATGAAATCTCAAAGGTTCTAACTTTACCGGAC
ATTAAATACAAAGATAGTTACAATGTGTATGAAAAGAATTGCTTCAAATCGTTGCTCAGT
ATTCTGAAAGAGCTGGAGGTCGGGGAGTCACTGATACTGAAAAACTTTAACACACTGACT
CACTTCAATGTCAGCGCTCTGTATATTCTTTCTAAGACATGTTTTGAAAAGACTGGATTT
GCTTCATGTGGGAGTATAGTCTTAAGTAACTTACAGGATAAATCTCTGTCGAACCTTCTA
GAGGTGATCGATGCGGAGTGTGATAGAGTAAGGAATGATAGAGCTGTGGACGTCCTCAAC
ACTCTTCCGGTGCAGGTTACAAACGTTGGTGAATTTTTCCACAACATAGTATTTTATAAT
AATACATTTCACAGGAACAAATGCATGGAGTATTTATATACCATTGAGCAATCTCTTTAA
Protein sequence:
MYRGEDFEEELNDLFNKKYQFRFNSEWKLPDQECWFSTAPWKVKVLESLKSKLNFHKSQL
NDFSIEEWSSHTRRRNPAGEVGWKIRCLVNPEFLTQAWTKFYECACTYEIVPKEAKISNK
IVSLHLCEAPGAFITSLNHYLKSHHQEMQWQWVANTLNPYYEGNSPSNMISDDRFMFHTL
DHWHFGVDSTGNLMDWDNSQAIIKKARSLGKVLLVTADGSIDCLQKPDAQEEVTSPLHYC
EIVTSLQSLSPGGTLIFKLFTIFEHTTVSLLYLINHLFKEVNIYKPVTSRQGNSEVYAIC
LGYKENVNLNNYISILKSTYGTDLYSKTALFPLESIPDTFLKQIEECAYYFCSIQCQVIN
NNLQAYLMQKNIALHRDMKKIRTIVASEFIWKYDLKPIDIEKEILKGILHEENKINTNPR
YHRGSFTERQLYSKMSLKEKLKNLNAFLQAELLSNPLILINEPIRWMVKEENLKLNPVFT
YGRPLQKVNSSKFIFVPIFKLYQQILAEEEFMEIIAYKQTKGQVKMTLENEISKVLTLPD
IKYKDSYNVYEKNCFKSLLSILKELEVGESLILKNFNTLTHFNVSALYILSKTCFEKTGF
ASCGSIVLSNLQDKSLSNLLEVIDAECDRVRNDRAVDVLNTLPVQVTNVGEFFHNIVFYN
NTFHRNKCMEYLYTIEQSL