New model in OGS2.0 | DPOGS205285  |
---|---|
Genomic Position | scaffold445:- 23154-27570 |
See gene structure | |
CDS Length | 1584 |
Paired RNAseq reads   | 2127 |
Single RNAseq reads   | 4868 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011028 (0.0) |
Best Drosophila hit   | fizzy (3e-138) |
Best Human hit | cell division cycle protein 20 homolog (3e-136) |
Best NR hit (blastp)   | fizzy [Nasonia vitripennis] (4e-176) |
Best NR hit (blastx)   | PREDICTED: similar to fizzy CG4274-PA [Apis mellifera] (8e-170) |
GeneOntology terms    | GO:0008054 cyclin catabolic process GO:0005813 centrosome GO:0005819 spindle GO:0030163 protein catabolic process GO:0000776 kinetochore GO:0007096 regulation of exit from mitosis GO:0005737 cytoplasm GO:0030162 regulation of proteolysis GO:0007049 cell cycle GO:0009987 cellular process GO:0006911 phagocytosis, engulfment GO:0007147 female meiosis II GO:0007144 female meiosis I GO:0030718 germ-line stem cell maintenance |
InterPro families    | IPR019781 WD40 repeat, subgroup IPR011046 WD40 repeat-like-containing domain IPR001680 WD40 repeat IPR019775 WD40 repeat, conserved site IPR015943 WD40/YVTN repeat-like-containing domain IPR019782 WD40 repeat 2 IPR017986 WD40-repeat-containing domain |
Orthology group | MCL11527 |
Nucleotide sequence:
ATGGCACAATTTAACTACCGCAACGAAATTATCAGTTTAGCAACAATCGACGGACCCCTC
ACTCGTGGACCTCCACAACGTTTTGCAAAAAAAAATACAAAAGAAAATATTAACCCAGGA
TTAAGTATAAGTTCTATTAATCAATCCGTACAAAAACTTTCGGTTTCTGGTAATCAAAGT
TACAACAATAGTGTACTCTCGACCAACAATAAAACACCGACCAGAAATGATAACAAGAGC
AAGAGCAAAAGTAAATCTCCAGGTCGGTCGACCACACCCACTCCAAACAAAGCTGCTAAG
ACACCTAACAAAGCTGATAGATTTATTCCATCACGAAGTAATTCTAACTATGACTTGTGC
CACTATATGTTAAATCGTGAAGAAGACCAAGTAGAAGAAACAGCACCCTCTGTAGCCAGT
GAAGCAATAGGACGTGCTCTCTCTGACAATGAACCGGGACGAATGTTACAATACACTTGC
AAAGCCCCCGCTGCACCTGAAGGCTATCAGAATAGATTACGTGTTGTGTATTCTCAAGCT
AAAGTCCCATCAACAGTCAAAAATACAACCCGATATATACCTCAGGGACCCGATAGAATT
CTTGATGCTCCTGATATATTAGATGATTATTACTTAAATCTTGTTGATTGGAGTGCATCA
AATATATTGGCTGTAGCTCTTGGGAATTCGGTGTACTTGTGGAATGCTGGCACGGGCCTT
ATAGAACAACTATTGACTTTAGAAGGTTCAGAAACAGTATGTTCAGTGTCATGGGTTCAA
GGGGGAGGATCACATTTGGCGGTCGGCACTTCATCCGCAACTGTGGAGATGTGGGATTGT
GAGAAGATTAAAAGGCTGAGGACAATGGATGGTCACACTGGTCGAGTGGGTTCTCTGGCT
TGGAACTTGTATGTAGTGTCAAGTGGTGCCCGTGATGGTAACATTGTACACCACGATGTT
AGACAAAGAGATCATGCTGTGGCTACCATTAGTGCTCACACACAGGAGATTTGTGGTCTG
AAATGGTCACCAGACGGCAAGTACCTGGCTTCGGGTGGTAATGACAACTTACTAAACATC
TGGCCCATAGCTCAGGGACAGCATTATACACAACCACAATACTTGTACTCATTCAATCAA
CACTTAGCCGCAGTGAAGGGTCTCGCTTGGTGCCCTTGGAGCTCCGGCATTCTAGCTTCA
GGTGGAGGAACTGCCGATAGAACTATACGGATCTGGAATGTCAATACAGGAGCTAACTTA
AACACCGTGGATACTAAGTCTCAGGTGTGTTCAATAGTATGGAGTACTCACTACAAGGAG
CTTGTATCCGGCCACGGGTACGCTCACAACCAGCTGGTTATATGGAAGTATCCGACATTG
ACACGAGTCGCTGAGCTGAGCGGACACGTGGCACGTGTGTTGCATCTGGCGCTGTCACCA
GACGGTACCACCGTACTGTCCGCTGGCGCTGACGAGACGCTAAGGCTTTGGAAATGCTTC
ATGCTGGATCCGACTAAAAAGAAGGAAGCCACAGACTCCAAGGCGGCTAAATCTCTTCTT
AACATGAATGCACTGATTAGATGA
Protein sequence:
MAQFNYRNEIISLATIDGPLTRGPPQRFAKKNTKENINPGLSISSINQSVQKLSVSGNQS
YNNSVLSTNNKTPTRNDNKSKSKSKSPGRSTTPTPNKAAKTPNKADRFIPSRSNSNYDLC
HYMLNREEDQVEETAPSVASEAIGRALSDNEPGRMLQYTCKAPAAPEGYQNRLRVVYSQA
KVPSTVKNTTRYIPQGPDRILDAPDILDDYYLNLVDWSASNILAVALGNSVYLWNAGTGL
IEQLLTLEGSETVCSVSWVQGGGSHLAVGTSSATVEMWDCEKIKRLRTMDGHTGRVGSLA
WNLYVVSSGARDGNIVHHDVRQRDHAVATISAHTQEICGLKWSPDGKYLASGGNDNLLNI
WPIAQGQHYTQPQYLYSFNQHLAAVKGLAWCPWSSGILASGGGTADRTIRIWNVNTGANL
NTVDTKSQVCSIVWSTHYKELVSGHGYAHNQLVIWKYPTLTRVAELSGHVARVLHLALSP
DGTTVLSAGADETLRLWKCFMLDPTKKKEATDSKAAKSLLNMNALIR