| New model in OGS2.0 | DPOGS207763 |
|---|---|
| Genomic Position | scaffold360:+ 105345-113941 |
| See gene structure | |
| CDS Length | 3216 |
| Paired RNAseq reads | 6685 |
| Single RNAseq reads | 16804 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA005315 (3e-177) |
| Best Drosophila hit | Rpn1 (7e-148) |
| Best Human hit | 26S proteasome non-ATPase regulatory subunit 2 (4e-173) |
| Best NR hit (blastp) | PREDICTED: similar to MGC97650 protein [Acyrthosiphon pisum] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to AGAP002481-PA [Tribolium castaneum] (0.0) |
| GeneOntology terms | GO:0051437 positive regulation of ubiquitin-protein ligase activity involved in mitotic cell cycle GO:0005515 protein binding GO:0005838 proteasome regulatory particle GO:0051436 negative regulation of ubiquitin-protein ligase activity involved in mitotic cell cycle GO:0031145 anaphase-promoting complex-dependent proteasomal ubiquitin-dependent protein catabolic process GO:0000502 proteasome complex GO:0042176 regulation of protein catabolic process GO:0030234 enzyme regulator activity |
| InterPro families | IPR002015 Proteasome/cyclosome, regulatory subunit IPR016643 26S proteasome regulatory complex, non-ATPase subcomplex, Rpn1 subunit IPR016024 Armadillo-type fold |
| Orthology group | MCL10715 |
Nucleotide sequence:
ATGACGGTCAAGAATAAGACAGAGGAACCGAAAAAGGAAAAAGTGGAACCAACACCCGCA
CCAAATGATGACTTGTCCGAAGAAGATAAACGTCTTCAGGAAGAGCTTAATATGCTGGTT
GAAAAATTAGTGGGTAACGATGTTGATCTATATTTGCCTGCATTGCAAATGCTAAGCAAT
CTTATAAGAACCTCTACAACTTCAATGACATCTGTCCCAAAGCCTCTGAAATTTTTGAGA
GAGCATTATCCTGCATTAAAACAAGTTTATGAGAAAATTCAAGATGAAAAGACAAAGAAA
TATTGTGCTGATGTTGTTTCTGTTCTTGCTATGGGTGTCAGCGGTGCTCCAGATGCTGCA
GAGAAACGAGAGTGCCTCAAGTATTGTATGCTGGGAACACTTTCAAATGTTGGTGAATGG
GGTCATGAATATGTAAGGCAACTTGAGGGTGAGATTGCTGAGGAGTGGAACTTAGACAAT
ATGAACAGCCTCATGCCGCTAGTGTGTGATGTAGTAGCATTTGATATGAAGCACTCGGCC
GAGATCCAGGCCTGTGATTTGTTGATGGAGATTGATCAGTTGGATATCCTCTCACAGCAC
ATGGACCAGAGCAACTATCCTCGTGTTTGTCTATATTTGATTGGATGTGCAAGTTATGTA
GTGGAGCCGGAATCGACACAAATATTGCAAGGTGTTCTCGACACTTACCTGCGATTTGGT
GAATATCCTCGTGCCTTGTTGGTAGCGATGCAACTTCACAACAAGAGTAAATGCGAAGAA
GTTTTTAATGCTTGTAATGATCCGTTAATTAAAAAACAACTCTGCTATATGTTGGCTCGT
CAGTATGTACCACTGGAATTGGAGGATGAAGATCTCCGCACCATACTGTTGAATGCACAT
ATAAATGATCATTTCCTCAGTTTAGCTAGAGAGCTCGATATAATGGAGCCTAAAACACCA
GAAGAGGTTTACAAAACCTGGCTCGAGTCAGCTGGTTCGGCGCTTCGTCCTTCACTGCTT
GCTGAACATCCTGTTGACTCAGCGAGACAGAACCTCTCAGCTACCTTCGTGAATGCTTTC
GTGAACGCAGGATTCGGAAGAGATAAACTGGTTACAACTGAGGATGGAAATAAATGGATG
TACAAGAATAAGGATCATGGTATGTTATCAGCAGCAGCTTCACTCGGTATGATCCATCTG
TGGGATGTCGATGGTGGTCTAACCCCCATAGACAAGTATCTCTATACATCTGAAGAACAC
ATCAAGGCGGGCGCGCTTTTGGCCTTGGGACTAGTGAATTGCGGGGTCCGTAATGAGTGC
GACCCCGCACTAGCTCTGCTGTCCGATTATGTTCTGCATTCAAGTGCTAATCTCAGAATT
GGCAGTATTTTAGGTCTTGGCATAGCCTACGCGGGTACACAGCGTGAGGACGTTCTATCC
CACCTTCTGCCAGCGTTAGCTGATACCTCAGCACCTCCAGAGATATGCGCCCTGGCCGCA
GTTGCCTGTGGACTCATCGCCGTCGGTTCATGCAATGGAGACGTCACATGTGCTATTATC
CAGAGGCTGATAGATGACAACAAAGATTTGCATTCTTCAACATACGCCAGGTTCCTCCAT
CTGGGTCTAGGATTATGTTTCTTAGGTTGCAAGGAGCGAACTGAAGCCACTATGGCAGCC
CTGGAGGTGCTTCCTGAGCCCCAACAGTCTCTATGCCAGACTACACTATCAATGTGTGCA
TACGCTGGCACTGGGGATGTTCTGGTTGTACAACAGATGCTGCACATATGCTCCAAGCAC
TATGACACAGATAATGAGCAATCTTCTACTGAAGACACAGCATTTAAGAAACAGGAAAAG
AAGGAGTCTAAAGAAGGCGGCAGCGGCAGTGGAAGTTCGTCCAGTGGATCAAAGGATGAT
AAGAATAAAACTAGAGTTTGGTTCGATACTATTATAACCGTCACATGTGCTATTATCCAG
AGGCTGATAGATGACAACAAAGATCTGCATTCTTCAACATACGCCAGGTTCCTCCACCTG
GGTCTAGGATTATGTTTCTTAGGTTGCAAGGAGCGAACTGAAGCCACTATGGCAGCTCTG
GAGGTGCTTCCCGAGCCCCAACAGTCTCTATGCCAGACTACACTATCAATGTGTGCATAC
GCTGGCACTGGGGACGTTCTGGTTGTACAACAGATGCTGCACATATGCTCCAAGCATTAC
GACACAGATAATGAGCAATCTTCTACTGAAGACACAGCATTTAAGAAACAAGAAAAAAAG
GAGTCTAAAGAAGGCGGCAGCGGCAGTGGAAGTTCGTCCAGTGGATCAAAGGATGATAAG
AACAAAAGCAAGTCAAAGGAGAGTAAGAGTAAGGACAAAGAAAAGGAGAAGGAGAAGGAG
GCAAACAAGGAGTTGTCTTCAGTACAGGCTGTGGCTACCCTGGGAGTAGCGGTTATAGCG
CTGGCTGAGGAAACTGGAGCTGAAATGTGTACACGAATCTTTGGACAGCTCGGTCGTTAC
GGCGAGCCGGCCGTCCGTCGCGCGGTGCCCTTGGCGATCGCCCTTTGTTCAGTCTCAAAC
CCTCAACTGTCAGTCATAGATGTACTGAACAAGTACTCACACGACGCCGACAATGACGTC
GCTTACAACGCCATATTCGCCATGGGACTCGTTGGAGCTGGGACAAATAATGCCAGACTG
GCGACTATGCTGCGTGCGTTGGCCTTATACCACGGGAAATCCCCGGTTCATTTGTTCATG
GTCCGGCTGGCTCAAGGTCTCTGTCACGCTGGTAAGGGCACAGTCACACTGTGTCCGGCT
CACTCGGACCGTCGACTTCTCAACCAGCCCGCACTCGCCGGACTGCTTGTTGTACTCACA
GCCTTCCTAGACTGCAAGAATATAATCCTCGGTAAATCTCACTACCTCCTGTATGTGTTG
GCAACTGCAATGCAACCTCGCTGGTTGGTCACTCTAGATGAAAACCTACAGCCCTTAAAC
GTTAGCGTCCGTGTTGGACAGGCTGTTGATGTTATTGGTAAGGCCGGTACACCGAAAACC
ATCGCTGGTTCACACACACATACGACACCTGTGCTGCTATCTTTCGGTGAACGTGCAGAG
TTAGCTACTGACGAATATATACCACTATCACCGGTCATGGAAGGATTCGTCATTCTTAAG
AAAAATGAAGACAGTGTCATGGCATCTGTCCAGTGA
Protein sequence:
MTVKNKTEEPKKEKVEPTPAPNDDLSEEDKRLQEELNMLVEKLVGNDVDLYLPALQMLSN
LIRTSTTSMTSVPKPLKFLREHYPALKQVYEKIQDEKTKKYCADVVSVLAMGVSGAPDAA
EKRECLKYCMLGTLSNVGEWGHEYVRQLEGEIAEEWNLDNMNSLMPLVCDVVAFDMKHSA
EIQACDLLMEIDQLDILSQHMDQSNYPRVCLYLIGCASYVVEPESTQILQGVLDTYLRFG
EYPRALLVAMQLHNKSKCEEVFNACNDPLIKKQLCYMLARQYVPLELEDEDLRTILLNAH
INDHFLSLARELDIMEPKTPEEVYKTWLESAGSALRPSLLAEHPVDSARQNLSATFVNAF
VNAGFGRDKLVTTEDGNKWMYKNKDHGMLSAAASLGMIHLWDVDGGLTPIDKYLYTSEEH
IKAGALLALGLVNCGVRNECDPALALLSDYVLHSSANLRIGSILGLGIAYAGTQREDVLS
HLLPALADTSAPPEICALAAVACGLIAVGSCNGDVTCAIIQRLIDDNKDLHSSTYARFLH
LGLGLCFLGCKERTEATMAALEVLPEPQQSLCQTTLSMCAYAGTGDVLVVQQMLHICSKH
YDTDNEQSSTEDTAFKKQEKKESKEGGSGSGSSSSGSKDDKNKTRVWFDTIITVTCAIIQ
RLIDDNKDLHSSTYARFLHLGLGLCFLGCKERTEATMAALEVLPEPQQSLCQTTLSMCAY
AGTGDVLVVQQMLHICSKHYDTDNEQSSTEDTAFKKQEKKESKEGGSGSGSSSSGSKDDK
NKSKSKESKSKDKEKEKEKEANKELSSVQAVATLGVAVIALAEETGAEMCTRIFGQLGRY
GEPAVRRAVPLAIALCSVSNPQLSVIDVLNKYSHDADNDVAYNAIFAMGLVGAGTNNARL
ATMLRALALYHGKSPVHLFMVRLAQGLCHAGKGTVTLCPAHSDRRLLNQPALAGLLVVLT
AFLDCKNIILGKSHYLLYVLATAMQPRWLVTLDENLQPLNVSVRVGQAVDVIGKAGTPKT
IAGSHTHTTPVLLSFGERAELATDEYIPLSPVMEGFVILKKNEDSVMASVQ