New model in OGS2.0 | DPOGS200590  |
---|---|
Genomic Position | scaffold2751:- 69519-78014 |
See gene structure | |
CDS Length | 1500 |
Paired RNAseq reads   | 1201 |
Single RNAseq reads   | 3407 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011278 (2e-115) |
Best Drosophila hit   | adipose (9e-54) |
Best Human hit | WD and tetratricopeptide repeats protein 1 (1e-64) |
Best NR hit (blastp)   | hypothetical protein BRAFLDRAFT_74529 [Branchiostoma floridae] (6e-86) |
Best NR hit (blastx)   | hypothetical protein BRAFLDRAFT_74529 [Branchiostoma floridae] (5e-80) |
GeneOntology terms    | GO:0001701 in utero embryonic development GO:0004857 enzyme inhibitor activity GO:0005634 nucleus GO:0005829 cytosol GO:0006006 glucose metabolic process GO:0008361 regulation of cell size GO:0010553 negative regulation of gene-specific transcription from RNA polymerase II promoter GO:0032869 cellular response to insulin stimulus GO:0035264 multicellular organism growth GO:0042393 histone binding GO:0042826 histone deacetylase binding GO:0045717 negative regulation of fatty acid biosynthetic process GO:0050790 regulation of catalytic activity GO:0055082 cellular chemical homeostasis |
InterPro families    | IPR019781 WD40 repeat, subgroup IPR001680 WD40 repeat IPR015943 WD40/YVTN repeat-like-containing domain IPR011990 Tetratricopeptide-like helical IPR011046 WD40 repeat-like-containing domain IPR019782 WD40 repeat 2 IPR017986 WD40-repeat-containing domain |
Orthology group | MCL14262 |
Nucleotide sequence:
ATGGAATTGAATGAGAACACATTCCCAAAGAAAGCTACAACATATGTGGCTTTCAGTCAC
GATGGCAACGAACTCCTCGTCAACCTGGGATCGGAACAGGTGTATCTGTTCGATATCAAC
TCGGCCAGGCGTCCGGTGCTGGTGGAGAGCTTCATAATCCAGCACAATCACAGCCGTCGC
GAGGAGGCCGCTCAGGAAATGGTTCCCCCAACAGAAACCAGCGGAGAGAACGGTACCATA
GACCAGCAGGTCGTACTGCCCGACAAGATACAGCACCTGAAATCTGTGAGCGTGAAGTGC
GGAAGGTGCGGGGCGGGGGAAAACAGTATAAACCGGTTCAAACCTAGGGAAGCACGTGGC
ACGGACAAGTTTGACATCACACCTACGCTGCTGGGTGCACTCACACTAATGCAAAGCTCA
GCTAACGCCTCACGCGCTGTACAGCGACATCGTAATACAACTGTTATGTGCCGACCTCGA
GGGAAGGCTAACGAGATGGTGAACAGCGGCAGTTTCTGTATGGCGGTGGACACCTACAAC
ATGGCCATACACGAGTATCCAAACTGCGCCTTGCTCTACTCCAACAGGGCCGCCGCGCTC
ATGAGGAGGGGCTGGTCCGGTGACACGTACGCGGCTATACGAGACTGCTACCAGGCGATC
AAGTTGGACCCCGGCCACGTCAAGTCCCACTTCCGGCTGGCCAAAGGCCTGATGGACCTG
AAGCGGGCCCGCGAGGCCCACGAGTGTCTGTTGTATTTCAAGGACAAGTTTCCTAAACAC
GCCTCCAGTCACGCTGTGTTCCTGCTGCAGAAGGACATTAAAGTGGCGCTCAAGACCTTG
GAGCGAGATGAAGGTGACGATGACAGCCAGGCCGGTAGTCCCCTGGAGCGCCAACTCCGG
ATGTCTTCGTTGGACTACTCGTCACGTTTCCTGGGCCACTGTAACACTACCACCGACATC
AAGGAGGCGAACTTCCTGGGACCCAATGCTGGATTTGTGGCCGCTGGCCTGCTCGGCAGT
ATGTTCATCTGGTGCCGCCACACGGGGAACATCGTCCGCTGTCTCCGTGGAGACGAGTCG
ATAGTTAACTGCGTGCAACTGCATCCGTCCATGTTCCTGTTGGCGACCAGTGGCATCGAG
GCCGTGGTTCGCCTATGGAGCCCGAGACCGGAAGACGGCTGTCCCGACACCAGGGCCGTC
AGCGAAGCGAGCGCCGCTGCCGCCGCCAACCAGCAGCGGATGCGCTCTGACCCGTTTGAA
GCTATGCTGCTCAATATCAGCTTTGCAGGAGGCGCAGACAGAGATGTTCACTCGCCGGCC
TGTCGAGCTACAATGTATTATATGAAGCGAGTGCAGCTCGAGGAGGCTAGACGACGGTCG
CATCTAGGGACAGGAACTCTGCCCCCGTTGGCTGAACCAACGCCAACGGTGGTGGAGTTA
CCACACCCAGATACGTTCAACCTAACACCACACCACGACCTCTGCTCTACATCGACCTGA
Protein sequence:
MELNENTFPKKATTYVAFSHDGNELLVNLGSEQVYLFDINSARRPVLVESFIIQHNHSRR
EEAAQEMVPPTETSGENGTIDQQVVLPDKIQHLKSVSVKCGRCGAGENSINRFKPREARG
TDKFDITPTLLGALTLMQSSANASRAVQRHRNTTVMCRPRGKANEMVNSGSFCMAVDTYN
MAIHEYPNCALLYSNRAAALMRRGWSGDTYAAIRDCYQAIKLDPGHVKSHFRLAKGLMDL
KRAREAHECLLYFKDKFPKHASSHAVFLLQKDIKVALKTLERDEGDDDSQAGSPLERQLR
MSSLDYSSRFLGHCNTTTDIKEANFLGPNAGFVAAGLLGSMFIWCRHTGNIVRCLRGDES
IVNCVQLHPSMFLLATSGIEAVVRLWSPRPEDGCPDTRAVSEASAAAAANQQRMRSDPFE
AMLLNISFAGGADRDVHSPACRATMYYMKRVQLEEARRRSHLGTGTLPPLAEPTPTVVEL
PHPDTFNLTPHHDLCSTST