New model in OGS2.0 | DPOGS213523  |
---|---|
Genomic Position | scaffold271:+ 161659-166099 |
See gene structure | |
CDS Length | 2643 |
Paired RNAseq reads   | 2057 |
Single RNAseq reads   | 5011 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011805 (2e-103) |
Best Drosophila hit   | Ubiquitin-specific protease 36, isoform A (3e-120) |
Best Human hit | ubiquitin carboxyl-terminal hydrolase 36 (8e-66) |
Best NR hit (blastp)   | PREDICTED: similar to Ubiquitin-specific protease 36 CG5505-PA [Tribolium castaneum] (2e-140) |
Best NR hit (blastx)   | PREDICTED: similar to Ubiquitin-specific protease 36 CG5505-PA [Tribolium castaneum] (4e-125) |
GeneOntology terms    | GO:0004221 ubiquitin thiolesterase activity GO:0005730 nucleolus GO:0016579 protein deubiquitination GO:0030718 germ-line stem cell maintenance GO:0035019 somatic stem cell maintenance |
InterPro families    | IPR001394 Peptidase C19, ubiquitin carboxyl-terminal hydrolase 2 IPR018200 Peptidase C19, ubiquitin carboxyl-terminal hydrolase 2, conserved site |
Orthology group | MCL13560 |
Nucleotide sequence:
ATGCCCGCTTCAATTTGTGACCCAGTATCCAGCGCATTGCGTTTGTCTTTAACTGCAGAA
GATTCCTCAAACTCTTCCTTATTAGATAGAAGACTTTACTCATCAGCAAAGAGTGTCCTA
CTGTCTAAAATTGAATTTGAAGAATCTGGTGACTATCAAAGCAATGTTCTCGATGGTTTG
AAGTCTAAATACGTGGTTATACGTAAAAAACCTGTGCTTGAAAGTAAATTGCTTAAGAAA
GATGTTAATTCGGTGAATCAAAATACAGAGAACTCCAAAAATGGTGATGAAGGGTTGCCA
AAACCTAAGAGGGTTTTCTTTCCTGTTGAAAAAGTACAATTGGGATGGCAAAGTGCCTGG
GCAGCAGGAGCAGGTATGCAGAATGTTGGTAACACCTGCTACCTCAATTCAACATTACAA
GCCCTTTTTCATGTACCTGCCTTCGCTAATTGGCTTGTATCTGATTGTACACATGCTGAG
AAATGTAACCAAGAAGAAGCTTGCGTTATTTGTGGTATGAGAGCAACCCTGATGGCCACT
CAGAAGAGTGGCGGAGCAGCAATCAAGCCTTGGCAAGTGTACTCCAAGTTGCGGCTCATA
TGTAAACATCTTACACCAGGTCGTCAGGAAGACGCCCATGAATTTCTTAGATATCTTGTG
GAGGCTATGGAAAAGTGTTACCTCTCACGGCTTATAAATGCAGACAAACTAGACCAGTAC
AGCAAGGAAACCACCCCATTGAATCAGATTCTCGGTGGTTACCTTCGTTCGACCGTCCGT
TGTCTGGCCTGCCATCATCTTTCAACCACCTACCAACATTTTCAAGATTTGCTCTTGGAT
ATAAGAAAACATTCAACATTGGATGAAGCTTTGGACTCATTTTTTTCTAGAGAAAGACTA
GAAGACTTAGGTTATAAATGTGAAGCTTGTAATAAGAAGGTGTCAGCAACCAAACAATTC
TTCATAGAGAGGGCGCCGATGGTGCTCTGTATCGCACTCAAGAGATTCTCTCTGGCCGGT
GGGAAGTTATCAAAGCATGTGCAGTTTAGAAAAAAAATTAATCTTAACAAATATATTTAT
AATAAAAATAATCCTCATCAGTTGTCTTACAAACTGGTCAGTCTTGTAACACATCTCGGA
CCATCACAGAACTCGGGCCACTACACCGCCATAGGACAGGCTCCTAACAGCAACTACTAC
CAATTCGATGATAGTTGTGTCCGGCCCATCCCTCTATCTGCAGTCCTGGGAACTAACGCT
TACATTATGTTTTTTGAAAAAGATAATACAATTGAAGATTCAGTGGTCCCCACTGCTTCA
ACTTCAAACGTCGTCTACGGCCCTCAGTTACCAGAAAACATACTCAACAGGGACAAGAGC
CCTTTAAAACTAACATTCTACAGAAACGATGACAGGAAGCCCATCACATTGAATTCCACC
GCAGTGGATTCGAAAGCAGACGTTAAGCCCGTCATACTGAACTCAACACTCAGCAAATCA
TCGGAGTCTAACAATTCAAGTTCAGAACCCTGGGTCGTCAAACAGAACGGTGAAGTAGAA
AAAGTTCCCCAAGGGACGAGAATATTGAATGGCGCAGACAAGAGCGCACAGAAAGTAGAC
GAGGATATCAAAATTAGTTTTATAATAAAGAAGCAGAACGGGGAAGAGAGCCAAAGCAAA
CCGAAAGTATCAAAAAGTGACTCGGATCTTAGATCCATTACTAATGTAGGTAACAAAATG
TTAGAGAAAAGCGCCTCGGCCGGTAAGTTAGTGAAACTATCAAAATCGCCGCTAGAGAAA
CTCGAAGAACAAATGAATAAAAACGATGCGGCTAACGGTGTGCACAGAAACGGTGGTATG
GGGTCCAAGTTGGTCCCTTACGACTCCGAGTCGAGCAGCGACGAGAGGAGTGAGCGGGAG
AGGACGGCAGACGACAAGACCAAGAAGGACGACAAGGAACAGAACAGGAAACAGAAACCC
AGCAGGTGCGACTCCCCGCAGACGCTCATCGTGACTACCAAGGCCATGCATCACACCTGG
ACCGTCTGCAAGGAGAAGAGCGGCCCGCTGCTCAGTCCCAGTCTCAACGGAGACACTAAC
AAGAAGGCGAAGGAGAAAGAGGAGAGGCGAGGCGACGAAGAGAGTCCGAATACCAGCGTC
AGCAGTATGTCGCCGCTCAGCGACCGCAGCGAGGTGGTCGCCGCCTGCCCGGCCGGGTCC
ACCACGGTGCCGGTCACGCCCGCCGCACCCACTGTCAACTTGGAGACAGCGCGCCACCTG
CACGGCTTGTCGCACCGCGGGTATGGCGCCCCCGTCTCCACCTGGAACGGCACTCACAGC
GCTATGTCGCGACAGGTGTTCGAAGAGAGACGCGAAGAAAGGAAACGCGCTCTCGAAGCG
ACGGACGATATGGACCGAGGCCGGACTAAGAAAGTAAAGAAGTTCCACCATTACAACAGG
TTCAACAATAACAGGAACGGTTACAACCCCTTCCAGGAGAAACAAAACAAACTGCACTGG
GGCGGCAACTTCAAGTACCGCGGAGACAGGCGACCCACACACCACTTCAACAAACACCAC
AGTAATAAGTACAAACGATTTAACAGGTACAGCAACAACCACCACTACCCCCGCCACCAT
TGA
Protein sequence:
MPASICDPVSSALRLSLTAEDSSNSSLLDRRLYSSAKSVLLSKIEFEESGDYQSNVLDGL
KSKYVVIRKKPVLESKLLKKDVNSVNQNTENSKNGDEGLPKPKRVFFPVEKVQLGWQSAW
AAGAGMQNVGNTCYLNSTLQALFHVPAFANWLVSDCTHAEKCNQEEACVICGMRATLMAT
QKSGGAAIKPWQVYSKLRLICKHLTPGRQEDAHEFLRYLVEAMEKCYLSRLINADKLDQY
SKETTPLNQILGGYLRSTVRCLACHHLSTTYQHFQDLLLDIRKHSTLDEALDSFFSRERL
EDLGYKCEACNKKVSATKQFFIERAPMVLCIALKRFSLAGGKLSKHVQFRKKINLNKYIY
NKNNPHQLSYKLVSLVTHLGPSQNSGHYTAIGQAPNSNYYQFDDSCVRPIPLSAVLGTNA
YIMFFEKDNTIEDSVVPTASTSNVVYGPQLPENILNRDKSPLKLTFYRNDDRKPITLNST
AVDSKADVKPVILNSTLSKSSESNNSSSEPWVVKQNGEVEKVPQGTRILNGADKSAQKVD
EDIKISFIIKKQNGEESQSKPKVSKSDSDLRSITNVGNKMLEKSASAGKLVKLSKSPLEK
LEEQMNKNDAANGVHRNGGMGSKLVPYDSESSSDERSERERTADDKTKKDDKEQNRKQKP
SRCDSPQTLIVTTKAMHHTWTVCKEKSGPLLSPSLNGDTNKKAKEKEERRGDEESPNTSV
SSMSPLSDRSEVVAACPAGSTTVPVTPAAPTVNLETARHLHGLSHRGYGAPVSTWNGTHS
AMSRQVFEERREERKRALEATDDMDRGRTKKVKKFHHYNRFNNNRNGYNPFQEKQNKLHW
GGNFKYRGDRRPTHHFNKHHSNKYKRFNRYSNNHHYPRHH