| New model in OGS2.0 | DPOGS207340 |
|---|---|
| Genomic Position | scaffold474:+ 23770-31948 |
| See gene structure | |
| CDS Length | 3477 |
| Paired RNAseq reads | 960 |
| Single RNAseq reads | 2362 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010268 (0.0) |
| Best Drosophila hit | CG6623 (0.0) |
| Best Human hit | trafficking protein particle complex subunit 10 (9e-134) |
| Best NR hit (blastp) | PREDICTED: similar to CG6623-PA [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to CG6623-PA [Apis mellifera] (0.0) |
| GeneOntology terms | GO:0005575 cellular_component GO:0008150 biological_process |
| InterPro families | IPR011990 Tetratricopeptide-like helical IPR021773 Foie gras liver health family 1 |
| Orthology group | MCL12351 |
Nucleotide sequence:
ATGAAGGGGGTCGATAACTCATTATCGGATCACGAAGGCATGACACACAAACCCATTATA
ACATGTGCAGGAGATTGGAATTTATTTTGCACACTGGAACAGCCGCTGGTAGCTGCAATA
CCGCAAGATTCTTGTGAATGGCGAAGGTCCTACGGCCGTATAACTAAACTAGTGTCTTTA
GAGGCATCTTTCATAAAGTTTAATAAGGACAAATTGAAAACAGAGCTCAACCTTTTGAAC
CGACCTATTTTTCACATTTATTGGACTGATTGTGTGGATATAGAATATTACAAAACCACA
TTGAGGGAAGATATAGAAATATGGCTGAAACAGTTAGAAAAACACAATGTTACAGACTGG
ATGATAGTATTAGTAGAAACTTATGATATAAGAAAAACAAATAAACTTCTTCCAAGAACT
ACAGTTTTAGATAAAATTAAGGGAGATTTTGCTGTGAAACAGACAGAAGACAGGTTTATT
TCGGTTATCAATCCTATAAAATCTGAGGCTAGGAGTGCGGACTCATGGAGAACATTAGTG
GCGAAAGTGAGGCATCTGGTTTTAGTGGCATACAATAAGGCTCTAATAAAATTTGAAGAG
CATATGAGGGAACAGAGAGAAAGCAGGAATGATCCGGAATGGGATTTTTGTAAATATTTT
ATATTACAGGAGCAATTGGCGTTTGTTCTAGAGATGCTCGGTTTGTATGAAGAAGCTCTA
GTCCAATATGACGAATTAGATGCTTTGTTTTCTCAATTTGTATTAAATTCAAACGTGACG
GAGAGTCCAAAATGGCTTGAGACATTCAAACAGCCAATAACATCATGGCAGGCGGTGAGA
TTGACGGCCCTAGTGCCGCAGAATTTAAGAGAATTAATAATTAAGAATAAAGCATCTCTA
TTAGATTTTAGGAGTTATTTATTTCAACGACAAAGTGCCATGTTATTACCTACTTTTAAG
CCATGGGAGATAGCATCCCGATGTCTCACCACGGTCCATAATACACTGGTTGAGGTGTCT
CTGCTAGGAGCACATGCTGTGGATGGAGCGGCGGCTTGCTGGGCTCACTTGGCCTGTGTG
GAGACATTAAGAGCATGTGAAAGATTGTCCTCCACCAACAGTGCGCTGGAGGCGTGCACA
GCAATGCATGCACCTCTGCTGCATAATGCTAAAGATAAGTTACATGAATTGGGCAAGTTG
TGTGGACTCCTCCCAGGATGTCCAGACCCTACATCAGAACAACTCCACTTGGTGGTGATG
CTGTCAGCTGGTATGGGAGATAGCGAACCGAACCAACAAACACCAACAGACAGATTGAAA
GAAGCTTTATGCAGCAAGATCTGCTTCCAGAATTATTATCTAGAATTGGCTGAGTTGGCT
ATGGGGACATACAAGCACATTGGAAGACTTAGATTCGCCCGTCAGATCGGAAGAGACCTG
GCCTCGTTCTACTCGGAACTGGGTGAGAGCAGTAAAGCTGTGGTGTTCCTGACGGAGGCG
CTTCGGTCTTATGAAGAACAGGGCTGGAGAGATCTGGCAGCGCAGACGAGGCTCGAGCTG
GTGGCTGCGGCTTGCAAGATGAAGGATAGAGATAGATATACAAAGCTCTCAGCTAGAATA
GCCAGCACAGCGGAATTAGAAATTCTAGTACGGAATTTCTATTTTGAGGAAATGATGAAA
TCTATAAAGGAAACTGATAAACAGGAATCAGTGTTAACCGAGCTCAATGACTGCTTTAAA
ATAGTATCAGTTAATATACTGCCGTCCGAACGTGGTGTCTACATCACAGATAATAAGGTT
CAATGTCGCTTGGTGATCGAAAGCTTGATGCCCAAAGATGTTTTATGCAACAAAGCGGCT
ATATGTGTTGATAGTGTGAAGCAAGATAAGACTCCAGTGAAGACTTATAAGACTGATCTA
ACTGTAGGCAAACAATCTAGTTCACCGAGGAAATCTAATATTGATAATACTGATAGTGAT
TCCAATAATTTAGTTACTAGTATAAGACTAGAAGATTTAAAAGCAAAAAATTCATTCCTT
AACAAAATGAACATAACGTCTAAATTGCATTACAAAGAAGACAGGACACTACAGAAGGCT
ACCGTCGAATGCTCTCACCCAAAAGTAACTTTAAGGAGATCAGACAGCAGTAAATATAGA
AAACCGTCTGCTACAATACGGAATAACTACGAGACGTGTTTAGCAACTGACCATATTATT
TTGAAACCCGGTTTAAATGAAATATTACTGGAATATGTACCAAAGATGTGTGGTTTATTC
AAATTGGGACAAGTTTCGTTGTTAATTGAGGGTAGACTTGAATTTCTATCGAATGCATTG
ATACAGTGCAAGCTTGGTTATGACGTGGAGACGAGAGGTGTCAGCGTGTACTTGAACAAA
GTCGAACCAAAAAAGGATTTGGTTGCCGGCTTAGAGGAAGATGTTGAATTGGTTGTGACC
AGCGGCAGTTCTAGAATAGAAGAGAATTCAATAATTCAGTTAAAAACATCGACCGGACTC
CAAATACGTTTCACAGATTCGAATCTGTCAAGAGAGTTGTCTATGCCAATAGAGTCTATA
GAGCCGTTCCAAACGACCAAAGTAGGGCTCAAGTTGTTTGCTAATCTTCAACCTAGAAGG
GAAAAAAGTATAGAACATACTGTTTGGCTCCACTGTCCGTGGTGGGAGACCGTGACGGAG
GTGCCCTTACACTTTACACCGCCCATGATAGCCTCCTGGAGGTTACTGACTTCCAACACC
AGGAAGTTCATTCATATCACCCTCAAATCAACCATCGTGCATCTCGCTCAGTTCGTGCTG
AGTGATCCTGTGCTAGAGTGTGACAATGATAATACTGTGGCGGATTTGAATCCAAAGAAC
GCTGGGGATATGATAGTAGCGTCCGATGGCACCACCAGCTCGTTCATGTGGGAGCTGCTT
AAGGATCCTCTGGTGAAGGCTGGGCCGATGAAGGCGGTGTTCAAGGTCAACTATAGATTA
CTTGAAGAAGATATATCCAGACAATTTACTTGCCCTTTTGATATACAAGACTATACCACT
CTTTTTGTTGTGAGAACTAAGTTGGAGCCATCCAAGGGTTCTGACTTCTGTAGAGCTTCA
CAAGTCTGCTGTTTACAGTTGACTGTTCAAAGGGTAAATGAAACAGAGCACACTTCTCTA
ATGTATGAAGTGCTTGCGGATCAAACCATGTGGGCGGTGCTGGGACGAACTGCGGGTGTT
ATAACAATGGAGTCCAATTCTGAAGGTCAATGCGTGAACCTGGATGTGATGCCACTGGTG
GCTGGATACCTTCCACTACCAGCTGTCAGGTTGTCGAAATACATCGCTGCTAACACTAGA
GACCCTTCCTCCCATCCAAGATTGGAGCCGTTCAGTCCTGGCCAGGTGTACCACGCGGGG
AAGGCAAGACAGTTACACGTTCTACCACCCCTCACCAAAGAACATGATAATATCTGA
Protein sequence:
MKGVDNSLSDHEGMTHKPIITCAGDWNLFCTLEQPLVAAIPQDSCEWRRSYGRITKLVSL
EASFIKFNKDKLKTELNLLNRPIFHIYWTDCVDIEYYKTTLREDIEIWLKQLEKHNVTDW
MIVLVETYDIRKTNKLLPRTTVLDKIKGDFAVKQTEDRFISVINPIKSEARSADSWRTLV
AKVRHLVLVAYNKALIKFEEHMREQRESRNDPEWDFCKYFILQEQLAFVLEMLGLYEEAL
VQYDELDALFSQFVLNSNVTESPKWLETFKQPITSWQAVRLTALVPQNLRELIIKNKASL
LDFRSYLFQRQSAMLLPTFKPWEIASRCLTTVHNTLVEVSLLGAHAVDGAAACWAHLACV
ETLRACERLSSTNSALEACTAMHAPLLHNAKDKLHELGKLCGLLPGCPDPTSEQLHLVVM
LSAGMGDSEPNQQTPTDRLKEALCSKICFQNYYLELAELAMGTYKHIGRLRFARQIGRDL
ASFYSELGESSKAVVFLTEALRSYEEQGWRDLAAQTRLELVAAACKMKDRDRYTKLSARI
ASTAELEILVRNFYFEEMMKSIKETDKQESVLTELNDCFKIVSVNILPSERGVYITDNKV
QCRLVIESLMPKDVLCNKAAICVDSVKQDKTPVKTYKTDLTVGKQSSSPRKSNIDNTDSD
SNNLVTSIRLEDLKAKNSFLNKMNITSKLHYKEDRTLQKATVECSHPKVTLRRSDSSKYR
KPSATIRNNYETCLATDHIILKPGLNEILLEYVPKMCGLFKLGQVSLLIEGRLEFLSNAL
IQCKLGYDVETRGVSVYLNKVEPKKDLVAGLEEDVELVVTSGSSRIEENSIIQLKTSTGL
QIRFTDSNLSRELSMPIESIEPFQTTKVGLKLFANLQPRREKSIEHTVWLHCPWWETVTE
VPLHFTPPMIASWRLLTSNTRKFIHITLKSTIVHLAQFVLSDPVLECDNDNTVADLNPKN
AGDMIVASDGTTSSFMWELLKDPLVKAGPMKAVFKVNYRLLEEDISRQFTCPFDIQDYTT
LFVVRTKLEPSKGSDFCRASQVCCLQLTVQRVNETEHTSLMYEVLADQTMWAVLGRTAGV
ITMESNSEGQCVNLDVMPLVAGYLPLPAVRLSKYIAANTRDPSSHPRLEPFSPGQVYHAG
KARQLHVLPPLTKEHDNI