New model in OGS2.0 | DPOGS208371  |
---|---|
Genomic Position | scaffold11:+ 28909-39135 |
See gene structure | |
CDS Length | 2688 |
Paired RNAseq reads   | 293 |
Single RNAseq reads   | 806 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012359 (3e-87) |
Best Drosophila hit   | CG13293 (2e-150) |
Best Human hit | protein SCAI isoform 1 (3e-129) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL002394 [Aedes aegypti] (1e-173) |
Best NR hit (blastx)   | AGAP005770-PA [Anopheles gambiae str. PEST] (7e-169) |
GeneOntology terms    | GO:0035024 negative regulation of Rho protein signal transduction GO:0005515 protein binding GO:0016020 membrane GO:0030336 negative regulation of cell migration GO:0003714 transcription corepressor activity GO:0016021 integral to membrane GO:0005634 nucleus GO:0009968 negative regulation of signal transduction GO:0045449 regulation of transcription GO:0005737 cytoplasm |
InterPro families   | IPR022709 Protein of unknown function DUF3550/UPF0682 |
Orthology group | MCL12801 |
Nucleotide sequence:
ATGAATGTCTACGACTGTCTCGATTCTCTGGAATTGGCTGTTTTTCGGATCAGGGACGTC
CTTCTATGTAGGTTCTACCACACGGGATACCGATACCCTGGCCACGAACCCCCGAAGAAA
AAGAAAATAACTTTTTCAAACAAAGTTAATTATAGATCCAATTCGAATGGGAGCACCGTA
ACTACGCAACCGACAAGCGGCAGCTCCACGTATAGTTCTCCAGTATTACACCCACCACGA
CATCAAAAACAAGAAAGTCCATATAGATATGGAACACAAACTGCCGAAAAAAGAGCGACT
GCTAACGGAGGATCGGCCACTTTAAGTAGTCTGAATAAGGTATCAGCGCTAAGATTGTCG
CCCCGTTTAAAGAAACTTTTGGTTAAATCCAACCTCGTAAGCTCAAAGGACGACAACGCA
AGACTTAATAGAAGAGAAAAAGCTCACAGAGTTTCATTCACTGATGAATCAGTAGAGCAT
TTAAGCCAAGATTTTGTCAAAACACGTCCATGGACGGATGTTAGAGAGTCCCAGGAATAC
TTATGTAATAAACGTGGTACTGATGAATCAGTAGAGCATTTAAGCCAAGATTTTGTCAAA
ACACGTCCATGGACGGATGTTAGAGAGTCCCAGGAATACTTAAGTAATAAACGTGGTACA
AGAACGTTACCTTCATCTAGTTTTGAATCGCCTGAGGATGAGATCTGTTATTTAGGCAGT
ATTGGATACCATGAAAGGGTAGTGGAAACGCCTATATCTTTGTATGAAAACTACGATTAC
GAAAGTCATGGCCTTACTTCAGATAGGTACTATCATTCACATTATGGTAGGAATGAATTA
AAAAAAGACAGAACTCGAGACATTGGGGTGCAGGTCGATATTGCAAGAGACGTTGGAGGA
CAAAAAGGAATAAACTACTACTACACAGGTGAGAAAATGACTGGCGTTACAGATCAAGAA
AGAAGGGTCATTCTCGAATTTTGCCATCTTTTGGAAAAATCGAAACAATTTTTTAATGGA
TTAAGAGAACTCTCACCATACGGTCAAAAGCACTGGCAAGGTCAATTTTCAAGAACTTTT
GATGTTTATGCCAAACTTTGGAAATTCCAACAACAGAAACGATCCACACTTGATTTAAAA
TATGGTCTTAAACGTTGGCAGATTGGCGAAATAGCCTCAAAAATCGGACAACTTTATTAT
CACTTCTATCTCAGGACAAGTGAAACGGCTTATTTGGTGGAAGCATATTCATTTTATTCC
GCCATAAGAGGAAGACGCTACTACACGCTAGCAATCAAAGAAAATAAATGTGAACTGATG
GTCAAGAAACTTCGGTTCTACGCCAGATTTATCGTAGTCGCTATTCTTCTTCAACTACCT
AACATTATAGAAGAATTGGTATTAGAACTGGAAAAACAGGTCATAGCGTATGGCAAAACT
TATGATCCAAATGATCAACTCGAGTGGATCAGAGTTTTAGAAGAGGTGAGGGCTTTTCTG
GTGGCCCAACCGGGTGTGACTGTTTTGGATCCCGACGATAACGATAGAATAGTAACAGTC
AATGGCCGAACTAATCCATTGAGCATACCGCCAATAGAGCTTACACCACAAATGAACATT
ACGCTCAGAGATGCTGTTATTATCGGAAGCGGGACTCAACTGGTCAAGTTCTCAGAGTTG
ACTATTGACATGTTTAGGATGGTTCAAGTGCTCGAGTTCGAAATAACCGTTCCTATACGG
GATCTGTCAAACAATTCACCAAATCCAGATGGAAGACATGCCCCACGGCCACCGCCACCG
CCGCCACCACCGCCAATCAGCATATTTGACGGTGACCATGGTCAAGACGCCACTGCGAAC
CCTCATAAATTTTTGCTATTCAAGCCGTCTCCCAGCCAGGCTTTAATATACTTAGCAAGC
TGCTGCAACGACCTGCCAGCGAATGCAGCCTTGCTTCTGTATGTGTCAGCTCACGGCCAT
GCCCAACATTCAAAGCATGCTGAAAATTATGCGTACGATCTCGGTGGATTGATAACGACG
TCCAAATCGGATATTTACAATGAAGACAGGGATGTTATGTTAAAACATAGAGACCCACAA
ATTTTGTATCCCGGCGACTTGCAACCATACACGAGGAAACCACTCTTTGTCATCGTTGAC
TCTGATAATTCATTTGCTTTTCAACATATTCCAAGGACTTTCGGTCAACCGTTGGTTATA
CTTATGTCGCCAATAAGTTTGCCCAGCAATCTCTCTGTTCGTAGAGAGCACGGAAATTTG
TTCACACTCTTTCTACACAACCCAATTGCTGGTTTGTGCCACGCGTGCGATGTATATACT
ATAACTCTTGATGTCTGGGATCACTGCGTGCGTTTGAGAGACATATTCATGAGGGATGTG
ACACGATTGATTACTAGAATTCGACTAGATCCGATGCACTATGCATTCATCGGCGATGAA
TTTTTGCGCCTCTTATTTCTGCGGTACATATTCTGCGAGTGCACTCTTCGCATGCACCGC
GCTTTTCGCTCACGCAATAACCTGCCCCGCGCCCTACCACCCGTACCCGACGATCTATTT
GAACATAAGGATTTGATATCCGTTATTCTTGAAATGGCAGACTGTATTGGAGTCAGAGGC
CACTTTTATGATTCAACAAAACCTGATTACGATGAAAGACATCAGTAA
Protein sequence:
MNVYDCLDSLELAVFRIRDVLLCRFYHTGYRYPGHEPPKKKKITFSNKVNYRSNSNGSTV
TTQPTSGSSTYSSPVLHPPRHQKQESPYRYGTQTAEKRATANGGSATLSSLNKVSALRLS
PRLKKLLVKSNLVSSKDDNARLNRREKAHRVSFTDESVEHLSQDFVKTRPWTDVRESQEY
LCNKRGTDESVEHLSQDFVKTRPWTDVRESQEYLSNKRGTRTLPSSSFESPEDEICYLGS
IGYHERVVETPISLYENYDYESHGLTSDRYYHSHYGRNELKKDRTRDIGVQVDIARDVGG
QKGINYYYTGEKMTGVTDQERRVILEFCHLLEKSKQFFNGLRELSPYGQKHWQGQFSRTF
DVYAKLWKFQQQKRSTLDLKYGLKRWQIGEIASKIGQLYYHFYLRTSETAYLVEAYSFYS
AIRGRRYYTLAIKENKCELMVKKLRFYARFIVVAILLQLPNIIEELVLELEKQVIAYGKT
YDPNDQLEWIRVLEEVRAFLVAQPGVTVLDPDDNDRIVTVNGRTNPLSIPPIELTPQMNI
TLRDAVIIGSGTQLVKFSELTIDMFRMVQVLEFEITVPIRDLSNNSPNPDGRHAPRPPPP
PPPPPISIFDGDHGQDATANPHKFLLFKPSPSQALIYLASCCNDLPANAALLLYVSAHGH
AQHSKHAENYAYDLGGLITTSKSDIYNEDRDVMLKHRDPQILYPGDLQPYTRKPLFVIVD
SDNSFAFQHIPRTFGQPLVILMSPISLPSNLSVRREHGNLFTLFLHNPIAGLCHACDVYT
ITLDVWDHCVRLRDIFMRDVTRLITRIRLDPMHYAFIGDEFLRLLFLRYIFCECTLRMHR
AFRSRNNLPRALPPVPDDLFEHKDLISVILEMADCIGVRGHFYDSTKPDYDERHQ