| New model in OGS2.0 | DPOGS200960 |
|---|---|
| Genomic Position | scaffold548:+ 72062-74953 |
| See gene structure | |
| CDS Length | 2892 |
| Paired RNAseq reads | 375 |
| Single RNAseq reads | 963 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010166 (0.0) |
| Best Drosophila hit | mediator complex subunit 24 (2e-172) |
| Best Human hit | mediator of RNA polymerase II transcription subunit 24 isoform 1 (3e-99) |
| Best NR hit (blastp) | PREDICTED: similar to Mediator complex subunit 24 CG7999-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to Mediator complex subunit 24 CG7999-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0005634 nucleus GO:0016455 RNA polymerase II transcription mediator activity GO:0016592 mediator complex GO:0006366 transcription from RNA polymerase II promoter GO:0006367 transcription initiation from RNA polymerase II promoter GO:0048813 dendrite morphogenesis GO:0007517 muscle organ development |
| InterPro families | IPR021429 Mediator complex subunit Med24, N-terminal |
| Orthology group | MCL12095 |
Nucleotide sequence:
ATGGTAAAAATGGATGCATCAAACATAACAAGCAAAACGAGTTCTTTAAAAGCTTTAATA
TTAAAAGCTTGGCGTGAGCGATGGACCGATATTCAATGGGGAATAAATATTAAAACAATA
TTACCCAGAGGTGTCAGCGGAGATTTGTATAACCTAGCAGATTGTATTCTGCAACAAGCT
ATGGTTGGTTGTGGAGCCAACCAACTGGTTATATCCTATTTAAAACACTCCCTGGCTTCC
CATCTAGTGTCATATGCTGCTGTATTGCAAAGAATAGCTAAATTTGATGCATTTCATAAG
CCACATTGTATTGCAAGCCTATTGGAGTTTCTCGAAAGCTTTCTTGATAGTATAACATGC
CGTAGTAAAATGGAAGAAGAGGTACTCGCCTTTGCAGTTTCTTCTATAATCTTGTGGTTA
TTGCAAGTATATCACTATTCATTGAGTAAATATCCTTCTTCAAATCATATTCAAAGTCAA
GAACTACTAGAAAAATCTACTTCAATTCTCAATGCTATTGTGCACTCGGACTTTCTGTTA
GCCATGTTCTATTTAGCTAAACAGAATGATCCAGACGAGTATAATGAGGTTACAAAAAAA
TGTCAAGAAATAACAACATTTATGATGATGAATACTCAGTTTAAGGCACCCGTTACTATA
CATGAAACATTACAGAAGATTTGTAATATGGACATTGACAAAATAGCACCATTGAATAAT
AAAATGGAAACGGTTACCCACTGCTTAGAAGCTTTAATAGCTGTTAATGTATTAGCAAAT
CCTAGTGCCGATATGCAACAACTCTCAAGTCAGCTGCTAATGGTACAAAGACTGAAGAGC
TACTCCTTGTCAACACTCTACTGTGAATTAATTAGAGCATGTTTTATTGCCCTTAATGAT
GCTAGCAAAGAACAAGTCATACACTATTTACATAATATTTGTGGTACGACTAACAAGGAT
GGAGAGTATTCCACAGAAGTTGTGGAAGCCTTTGAAAAACTGTTGCAATCAACACCACTT
CTAGATGTTGTTGATGCCAAGAATTCATGTAATTGTGTAATGTCATTGTTAGATCCGTTA
GTGAAGCTAAATGTTGTGGCCGAGAGTCAATTGGCTTATTTCAATCAGAAAAGAGAAACT
AAAGATTCAATGCTTCAGAAGTTAGAACCTACAGGACTTCAAGGATCCGTACCAGCATAT
TTTATAACAAGAGCCGAACCGACTTTAGCTGGAATTCTAAAAACGATGGGGGGAGATTTT
CATAAAACACAAGATTCTTTACATGCGATGCTATGTCAAATTGTGGGCGGAACAACATTA
GACACAATTTTGGCTGTAGCAACAGTAGAAGGAAAGCTGAAGTTGTTTGTGTCTAGACTA
ATTAAGTTCAATGAGTTTGCATTAATATCAGCTAGTGAGAAAAATGCACCGCAGTCTAAA
GTGTATATATTTGATATTTCTTTCCTAATACTGTGTTCCATAGTACAAGATTATGGTGCT
GAGGCTGTATTAGATGAAAATGGTGATTCGTTTTTCGAACAATGGGTCAGAGAGTGTATG
CCACAAAAAGGGGTACATAAATCTCCAGAGCAAATATTACAGAAATGTGACTCGCAGGTT
ATAGATATTTTCATACATCACTTAAGTGCTCCAGACTTCGATTTTAAGAATACAAATTTA
AAACCACACGACCTGTGTATAAATGTTTGTGGTGTCATTAAAGAAATTCTCTTTGCTTGG
GAGCAAGGTTCAATTTCGTCTGCTGATTTGAAAAGGATGTTGGATTCTCTTAGACAAAAA
ATGGCATCATTAGCTGTTTGTGCCTCAAGTTGGTTGTGCGCGTATGTTAATGTAGTTCAC
CAGGACGCTATTTTGAAGCCAATCAATATAATACAACAATTTCTGTCTGCGCCAAGTGAA
GTGGAATTGACTCAAATTGATAATTTCAAAGAGAGAGCCATTCTTATGTGTCAAATAATA
AGAAAATTACAGTACGACATTCATCCACCGTCAGTGCTTAAGGCAAAAACGTTAAACTTA
TCACATTATATTGTTTCTAAACAACCGATCTTAGAGCAATTGCAGAGCGTATGGGATGAT
ATAAAAACTCGAGGGTATTTGCATATTGATGCCACTCATATTATAGACAGTTTATTAAAC
ACTGCGGGACCAGTTTGGCTTGTGACAAATTTACTGAAGCAGACCCTTAAATTCAGATAT
CAAGACGATTTAGACAGGTCTGTGGACATAGTTGTGGCGATCTTTCATTTGGATATAGAG
AAATGCTCACAGGCTCTTTTACTTTACGTTTTACCTCAATATCTATATAACGCTAAATTA
TGTAATGAACTTGTTGAACCTCAATCGGCTATATTGGCAAAACTTTGCGTATATTGTATT
TATGCTGCTTTAGAACATAGCATATCGAGAAAGGTTACAACCTCCAGAAAGAGAAGACAC
GATGATTCTGAAGACTTGGATGCAATCTGTTCTTCAAACAAAGTACGCAGATTAAATGAC
AATACCTCGGATGCGTTGTATTATTCTCAAGGTCAAAGTATGGGTATTATAATTAAGGAG
CCCTTACAGTCGGCATTAGAGATGCTATTCAAGTCATTTTCGCAGCTGGCTGGTAAAAAT
GGTGACGTGACACCTCAAACGCAATTCATATTTGAGTTTATCAGCTATGCAGTACAGTGT
GGACAGGATAGAGCTCAAGTGGTGTTGCAAAAAATGCCATCCGAAATCGTCCCAACTCTT
ATTAAGGCTCTGCCAGATAACTTTAACACAGGATTAATATTAAGACTCTACGATTTGTCT
ACTCCATATGGTAGAAAAGACACGGCCAGGGACCTTTGTCTCCTACGAAATATGCGACTT
AGGCCTGAGTAG
Protein sequence:
MVKMDASNITSKTSSLKALILKAWRERWTDIQWGINIKTILPRGVSGDLYNLADCILQQA
MVGCGANQLVISYLKHSLASHLVSYAAVLQRIAKFDAFHKPHCIASLLEFLESFLDSITC
RSKMEEEVLAFAVSSIILWLLQVYHYSLSKYPSSNHIQSQELLEKSTSILNAIVHSDFLL
AMFYLAKQNDPDEYNEVTKKCQEITTFMMMNTQFKAPVTIHETLQKICNMDIDKIAPLNN
KMETVTHCLEALIAVNVLANPSADMQQLSSQLLMVQRLKSYSLSTLYCELIRACFIALND
ASKEQVIHYLHNICGTTNKDGEYSTEVVEAFEKLLQSTPLLDVVDAKNSCNCVMSLLDPL
VKLNVVAESQLAYFNQKRETKDSMLQKLEPTGLQGSVPAYFITRAEPTLAGILKTMGGDF
HKTQDSLHAMLCQIVGGTTLDTILAVATVEGKLKLFVSRLIKFNEFALISASEKNAPQSK
VYIFDISFLILCSIVQDYGAEAVLDENGDSFFEQWVRECMPQKGVHKSPEQILQKCDSQV
IDIFIHHLSAPDFDFKNTNLKPHDLCINVCGVIKEILFAWEQGSISSADLKRMLDSLRQK
MASLAVCASSWLCAYVNVVHQDAILKPINIIQQFLSAPSEVELTQIDNFKERAILMCQII
RKLQYDIHPPSVLKAKTLNLSHYIVSKQPILEQLQSVWDDIKTRGYLHIDATHIIDSLLN
TAGPVWLVTNLLKQTLKFRYQDDLDRSVDIVVAIFHLDIEKCSQALLLYVLPQYLYNAKL
CNELVEPQSAILAKLCVYCIYAALEHSISRKVTTSRKRRHDDSEDLDAICSSNKVRRLND
NTSDALYYSQGQSMGIIIKEPLQSALEMLFKSFSQLAGKNGDVTPQTQFIFEFISYAVQC
GQDRAQVVLQKMPSEIVPTLIKALPDNFNTGLILRLYDLSTPYGRKDTARDLCLLRNMRL
RPE