| New model in OGS2.0 | DPOGS216206 |
|---|---|
| Genomic Position | scaffold4608:+ 6856-12681 |
| See gene structure | |
| CDS Length | 3018 |
| Paired RNAseq reads | 46 |
| Single RNAseq reads | 121 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA011385 (7e-28) |
| Best Drosophila hit | ND |
| Best Human hit | ND |
| Best NR hit (blastp) | hypothetical protein ORF1102 [Cotesia plutellae polydnavirus] (0.0) |
| Best NR hit (blastx) | hypothetical protein ORF1102 [Cotesia plutellae polydnavirus] (0.0) |
| GeneOntology terms | GO:0003723 RNA binding GO:0033897 ribonuclease T2 activity |
| InterPro families | IPR001568 Ribonuclease T2 IPR018379 BEN domain IPR018188 Ribonuclease T2, active site |
| Orthology group | MCL20826 |
Nucleotide sequence:
ATGCCAAAGACTATTGCATGTGCCGAACACTGTTTTGACTACTTCAAAATAGCTGTAGCT
TGGTCTCCAGGTTACGCTTACAAGGAATGGAAGAAGGGCCTACAAAACCGATTTGTTGAT
AATAAAATATTGGGTCCGTTAGAAAACACTTGGTACACGGTACTTGCTAAAGGATGGAGT
GACAATACGAAATTCTGGGAACACGAGTTCAATAAGCATGGAAGCTGTGCCTCTCGTTCG
AGTGTTATTGGGGATGATGTGAATTATTTTAAAAGGACACTCGAACTATTCAATCAGCTA
TACATTGGCACGACGTTATATGGGAATGGACATCGTGTTGGAGGCACCGTTTACTTGAAA
AATATTGTTGATATTATCGAAGATAGAATTGGCGCAACAATTCAATATAACCTTGTTACG
AATGAAATGAAACGTCATAATAACTATAGGCGAGCGTTTTCCGTCGTTCAGTTCATAGAA
TTGCCTTTTGAAGGTATTGATGACTACGTATGCGTGCCGTCGGCTTGGCTGATAGTACGT
AAAGCGACGGATCAGAAGGCCATCGTTGCGTACCCTAAAGACGAAGATCCTTTCAACACC
AGAGATCGCGTTAAAAGAAAGGAGAGACACAATGACAAGTGGAGCTGTTATATGGCTATC
GTTAAATATGAATCAAATAGTTACAGAGGTGCAGAATATTGGATTGCGACGAGAAATGAT
TATGGACCTTTAGTAGAAGAAGAATTAAAAACAACAGATTCAGAACCAAACTTCCCGTTA
AACAAGAAATTGCGTGTTGCCAACCGAAACCATTCGTCGAAATCAAATGAGAATCCTCGG
AAACCACTGCCAGGAATATCAATTAAGCGACCACCAAAACCGAACAAACAACTTGATGGG
AAGCGAATGAAACTGGGTGACGCTGCTCAGTCATCTAGCGCTCTTGTTACCGACGCTAAT
GCAGAGCCTGGATCTTCAAGACAGGAACAGTCGATTTTCGCACAGGGCAACCAACCAATC
GAATCTGCTGAGACAGAAACAACTACTAGTGATTCCAACGGTACATCGAGCTCTTCTCAG
CGGAAACATGAAAACCTTCAAGAATCGTTACCAATACAAGAGCAACAAGATTTGAGTACG
CCCTACATAGATGTAGCTACACCAGATACACCAGCCCTTGTGATAGACGACGATGAAAAA
GTCCAGCCTAACAGTATTGTGAAACAGCAAGTACCCTCTAATCAAGCTATCTCACAATTT
ACAGAACAGCCGGAACCGATCCGGGAACCTCAAATTTCAGTAGCCCCGTCAATAGAGATG
ACTAGCAATAATCAAGGATCCCGCATAGATGAAGTCTTAAATAAGGGACCTACTTCTCAT
CACTTACTAAATTCACCAAAAATTTCTGCTCAACTATATAGACAAATGAAGGAGGCACGG
CGTTTGATACCGACTCAAAAACCGGTTGAGAGAAATTTGGCTATTGCCGAACAGAACTCA
TCGAATTTGATGGACCAAAATGGATCTTTATCGATGCGATCAGTGCCGACTCAACAACAA
TATCACACGTCGTCTTATCAGAATCAATATCTACCGACTAATCGAAAGTTTGAACAAAAC
TTACTTAGGAAATCTGCAGAGAGCAACAATTATGAACAGCGTCCTCACTCTCGAACTATC
AGAATGAGTACTCCATCCATCGGACAAAATTCTATTGTCCCTTCCAGTCCGTTGTATCAG
ATCTCCAAGCTTCCACAACAGAGACAGTCGCAGCCATCTCAGCAAGACTCACAACGGCAA
CCACAAAAACCGAAAATATATATTAGCATCTCTGACGAGCCCAAAAGCCGGCAAGCACCT
ATTCTTCAAGTCACGAAAGAAACGCTGTCACCTATTCTTAAAAAGGTTCTAAATTCGGTA
CGACAAGCATTATCAACTACTCATAACCAATATCTTCAGAACGAACAGCAATTTCAGGGA
AATCATAGTGAACGTGCACTTGTTAATGAAAATCATCTTAGCGAAATTGACAATACGTTG
CAAACAGATGAGTGGATGGAAGAAGAAACTCCGTCAGCGCATCATGGGGCAAATTCAGAT
TCCGATATTAGTACCGATCATGAAGTAATCTCAGATCATGAGATGTCTGCAGATGAAGCA
CCTATTGAAAGAACGAATAACTTTTACGGCCCTGGAATCACTTCTGGAAAAAGCTGTACA
GACAGACCGATAGCTGCAGAAAACTCCACGAATCACCAGACGCATTCTAAAGTTGTATTA
GAGCAGCAAATGTTGGACAACTTCGCTACCCTCTTCACTCAAATGGGGTCTACTTTGCGT
TATACTACTGATATGTACAACACCTTACGGAGTTCGATCCTTGACACCGCCCAGACATAT
AAAAAGTTACTGGGTGCAGTCGAACAATTAAATTCAACACAAAATTTAATCAGCAATAAA
TCTTTTTCGATTAACTTGAAACCAGAAGTCCGTCGGTTTCCTAAAAAGAGACACACTGAA
CAAGTACTACAAGATCGACATAGTAATGACGATGCTAACGAACCACCGAAGAAAAAACGC
AACTCATGGCGTTTTGTTCTACCACCGGAATATGATCCTCATGATACAAAATGGACATTG
AAGTATCGAACCAATCTGCCAGGACTCGTAGAACTCATGCCTCAAAGTGCTGTTTACGTC
AGCTACGGAGACCTCAAATACTGTCAGCAAGTATCAAAAGATTGCAAATCATTAGCACTA
CGATTATTATCAGCAGTGTTCAACAGAAAAGCACTGAGTGTTTGTTTATCAATTGCTGAG
AGAGCGCAGGCTTCTGATAATGTTCGATCTAATGCGAGGCCAGAATTAGATGATCATGCG
GCTACGGTACTGTTGAATTTCGTTTTAGATCACGGACTACAACGTGGTTGGAATACTGAC
TTACGACCTATTCTTAGTACTTTACACAGTAAAATTCAAGAGATTCGGTTCAAATATGGT
GTGGTGGTTGAATGTTAA
Protein sequence:
MPKTIACAEHCFDYFKIAVAWSPGYAYKEWKKGLQNRFVDNKILGPLENTWYTVLAKGWS
DNTKFWEHEFNKHGSCASRSSVIGDDVNYFKRTLELFNQLYIGTTLYGNGHRVGGTVYLK
NIVDIIEDRIGATIQYNLVTNEMKRHNNYRRAFSVVQFIELPFEGIDDYVCVPSAWLIVR
KATDQKAIVAYPKDEDPFNTRDRVKRKERHNDKWSCYMAIVKYESNSYRGAEYWIATRND
YGPLVEEELKTTDSEPNFPLNKKLRVANRNHSSKSNENPRKPLPGISIKRPPKPNKQLDG
KRMKLGDAAQSSSALVTDANAEPGSSRQEQSIFAQGNQPIESAETETTTSDSNGTSSSSQ
RKHENLQESLPIQEQQDLSTPYIDVATPDTPALVIDDDEKVQPNSIVKQQVPSNQAISQF
TEQPEPIREPQISVAPSIEMTSNNQGSRIDEVLNKGPTSHHLLNSPKISAQLYRQMKEAR
RLIPTQKPVERNLAIAEQNSSNLMDQNGSLSMRSVPTQQQYHTSSYQNQYLPTNRKFEQN
LLRKSAESNNYEQRPHSRTIRMSTPSIGQNSIVPSSPLYQISKLPQQRQSQPSQQDSQRQ
PQKPKIYISISDEPKSRQAPILQVTKETLSPILKKVLNSVRQALSTTHNQYLQNEQQFQG
NHSERALVNENHLSEIDNTLQTDEWMEEETPSAHHGANSDSDISTDHEVISDHEMSADEA
PIERTNNFYGPGITSGKSCTDRPIAAENSTNHQTHSKVVLEQQMLDNFATLFTQMGSTLR
YTTDMYNTLRSSILDTAQTYKKLLGAVEQLNSTQNLISNKSFSINLKPEVRRFPKKRHTE
QVLQDRHSNDDANEPPKKKRNSWRFVLPPEYDPHDTKWTLKYRTNLPGLVELMPQSAVYV
SYGDLKYCQQVSKDCKSLALRLLSAVFNRKALSVCLSIAERAQASDNVRSNARPELDDHA
ATVLLNFVLDHGLQRGWNTDLRPILSTLHSKIQEIRFKYGVVVEC