New model in OGS2.0 | DPOGS215246  |
---|---|
Genomic Position | scaffold872:- 3488-23751 |
See gene structure | |
CDS Length | 5268 |
Paired RNAseq reads   | 15135 |
Single RNAseq reads   | 33520 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008811 (0.0) |
Best Drosophila hit   | cp309, isoform B (7e-16) |
Best Human hit | ND |
Best NR hit (blastp)   | GK18028 [Drosophila willistoni] (1e-41) |
Best NR hit (blastx)   | hypothetical protein AaeL_AAEL006395 [Aedes aegypti] (2e-61) |
GeneOntology terms    | GO:0048598 embryonic morphogenesis GO:0007020 microtubule nucleation GO:0005813 centrosome GO:0001539 ciliary or flagellar motility |
InterPro families   | IPR009053 Prefoldin |
Orthology group | MCL30950 |
Nucleotide sequence:
ATGCAGGAACTTGTAGTGTTGTTGTCCGACCCTGACGCGGAGCTGTCCAGCTGGCCGCTG
GAGCTGGTGGCGCTCAGGGACAGGATCCATCACGACAGGGAGTTATCGAGTGTCCGGGAC
GAGCTGTCCAGCGGCGAGGGAGACAAATGGAGACAGAGGAGGAACAACAGCTTTGACCAG
AACCGTCAGCTGGAGGAGGTCACCAGGGAGAGGGATGGTCTCCGTCGTGTGGCGGGAGTG
CTGCAGCGTGCTGTTTCGTCACTGGTCGCCTACTGCGCCAGCGCCGAGGACGAACTGAAC
AGGACCGTACTGAACAAACTGTTGGGACACCTGGCCGCCGACGACGACACTATTGTGGAG
CTGGACTCCCGGCCGTCCACTCCGGTCGCTGAGCTGAGTGTGGTAGGAGAGACGCACGTC
CACCTGGCGCCAGACCTGCACTCCATATTGGTGTCGCTGGACGAGGCCGGCGTCAGGGGC
TTCCTGCAGCAGCAGAGGGACCTCGGAGACGACATCAAGAGAGAGCTGGACGCCTCGCTC
AAGAGGCTTAGGCACGAGGCAAAGGACCTACTGCAGCTGTCCGCGCGCCTCGCCAGCAAC
AAGGCTCGACAGGAGACGAGGATGTTAGAGAACAGCACTCGGGAGGCAAAGGAGGAAGAT
GAACGAGAATGTATCAACTGTATGATGCAGAGAAAAAACGTGGAGGAGGCCATGTCCGAA
TGTCTCCAACGTGAGAATCTGCTGCGGAGCGACCTCGACGGCGCCATGATGAAGATTGCT
CACCTCATGGGACCTCCGGACAGGACGCACTCCGACGACGTCGTGGAGGGGTACGGCACG
GGCGGGCGCTCCCTGGACGGCCTGACACCGCGGGCCCAGCTCGCTGCGGACCTCGAACAC
GCGCTAAGGGAGAGGGACGACCTGAAGCAACAGCTGGAGGCGGCCAACCGTCAGCTTCGT
TCCACTCGCCAGTTCGTGGAGGAGCAGGCGGCCGAGCGGGAGGCGGAGAGGGACGAGTTC
GCCGAGAGACTCGCCGAGCTCAGGGACGAGAACAGCAGGCTGGCCGCTCGCCTGCAGACC
AACGCCAGGATAGTGAACGAGGTCGAACAACTCGAAAGTCAGACTCGGGAGATGAATCAG
ATAATAGCGGACCTGGAGGGGCGGAAGGGCGCCGCGGACGAGGAACTCAAAGCTGCAGAG
GAACAAGTGTCCCTGCTGAGAGACATCATAAACAACCTGGAGACTCAGCTGGAGGAGAAG
ACTGCCCGAGAGGAGGACGTGCTGCGGGAGCTGGGGGACATGAGGAGCACCATAGACGAC
AGGGACCGGAGGATGAGGGAGCTGCTGGCGGAGCTCGAGCGTTCAAGGGGTCGCGACGCG
GAGAGAGAGGCGGCCACCCAGCAGGGAGAGGAGGGGGGCGGTGACGAGCTGCTGGGGACA
CTCAGAGATGATGCCAAGCTTCTCGAGGAGCAGATACACAGCAGCGTCGTGCGGCTGGAG
GGAGCCTACGAGCGAGCCTCCGGATCACTGTCCGAGCGCACCGAAGACGTATCAGTAACG
GGGGCGAGGGCGGGCGGGGAGCGGGGTGGAGGAGGGGCGCGGGGACCTGCTCTAGAGGAA
CTCAGCGGGGTGTGGGACCAGCTGAAGGCGCTAGAGCGGGCCGGGGACGCCGCCCTCAAG
AGGATAGATGACCTTCACATGCAGCGGCAGAGACTCAAGGACGTGGCGCAGGAGGTCCGC
GCCGAGCGTGACGTGCTCCAGGCACGTATGTCAGAGCAGGCGCTGCGCATATCATCACTG
AGTGCGCGTCTCGCGCAACAGCGATGTGACGCTGATGCGCTGGCTCATGACGCCGCGGCA
CAGCTCTCCGTCAGACTACACGACGCACAGGCTGAGGTTCAAAGATTGACGGAGGAGTTG
AGTACCAAAGATAAACAGCTGGCGAGATTGAAGCAGAGCCACGAGGAGAGAGACAAGTAT
GGAGAAACACAACCGGTCTTCGGGAATTCATGTAACCCTAAAGACAGGGCGGCAATGTTA
GAACGGGAATTTTCAAACGCTAAATCAAAGATAGAACAACTTGAAAGTTTAGTACGAAGT
CTCGAAACTGATAAGGAAAAACTTCAATCAACTGTCAGAGAACAACAGAGGACACTCGCC
GAGAAGGAGGAACAGTTAAATGAGATTATGGCTCTTAATCTGGTGGAGGACCAAAGCGAA
GTCATTCAGGCCAAGACGTCCGCCCGGACACTCAGCGACATCGTCTCCATATCAGAGTTC
GACGAACAGGATTTAATAATGCGTCGGGCGGAGCTGAAGGGACAGAACGCTAGCATTACA
AACACAGACCACAAAGACAAAACCAATTTAAACAAGACCCTACCCCCCGATGTACAAAAA
CCTAATATGAGTTCATTGAACTTGGACTACGCAGATCATTTCGATGGCACAAACTTTACA
CCCCGTGCTGACTCACTACCCATACATCTAACATCTACTCAAAATAAGGAGGTTTATAAA
AGGAATGCAAATGAAACGACAATATTTGGTGAAGGGATCAAACATTCTACTGCTCAAAAT
ATACCCGATAATTGCTCAATGTATCCCAACAGAGACGTCTCGGAAAGTAAAAACCTAAGT
GTTGAACCGAAAAAGATAAACTTCTCAATGGAACCATCTGACAACAGAACTCACGACGAG
GAGTTCGCTTCCTTGAAAGATCTGGGAATAACATTAGACGTGAAACAAGAAAACTTCCCA
GACATACTGACACACCTCAAACGTGAAATAAGGAAATCTAGAAGTGAGGTAGAACTGTAT
AAGGCAGAACTCAAGAATGCTGAGGAACAGCTGTGTGAGTTTCCAGCTTTAAAAGAGGAA
GTGGAGGAACTGAAAGGGCTCTTAGAGAACACTATGGCTACCATGGAGAACGACAAGAAG
TTTTACGAAAATCAATTGGATACCTTTGCTTCTAACAAGAAACTGCTCGAACAAAGACTT
AAAGAATTAACACAAGAAGTTCATGAGAAGTCGAAAGACCTGAATCTGCTCAAGGAAGAT
ATTCTACGAAGAGAAACCATGATATTAGAATTGGCTAAGGAGAAAATGAACTTAGCAAAT
AAGATTTCTGATTTAGAAATCAAAATAGACGACTTAAATAGCAAGAACATGGCTCTAGTA
AAATACGAAGCAGAAAATAAGCAGCTCAAAGAAAAGCTAGCTGAGCTACAGAGACTGGAA
CAGTTGTTATCAGAAAAAAATCAACAGATTGATAGTTTAAATCAACATCTAGATAGATTA
GACGACCTACAGAGATGTTTGAATGACAAAACTGAAGAGATGGAGGGACTGAAACAGGCT
TTGAATATGAAAACAAAGGAACTGTTCCAGGTGAGAGACTCGGTCAACACATTAAACACT
GACATCGCTAAAGTTATAGAAGAAAACGATCAGCTCAGCCAACAAAATAAAGAACTGAAG
TTAAAACTGACCAAACTAGAGAAAGAGCAAGAAAACGCCGCGATCAGGCTTCAGAATAAT
GAGACGGAACTCAACAGGGTCAACTCACAAAACAGCGACCTCGCGGCGAGAATAGAGGAG
CTGAAGGTATTACACGACACACTGGCGGATAAAGAGACGGAGATAGAGATATTACACGAA
GACATCAACCTGTACCATAACGAGATAGCGGCGTTGAGAGAACAGCTGAAGATGGTGTCG
CGGAGCCCGTCGCCCAGGAACAAAAACACTGAAGCCGGCAATACTGTGGACAGGCAGGCC
ACTAATGATAGGAAGCAGTTGGTGAAAATAAAAAAACAAATATCTCTGTTGCAACACGAG
CTTGACTTCCAGAAAAAGGAACTCAATGATAAGGCATTCGAATTAGCTAAGGCTAAACTG
GACTTGACGGAAGCTCGGAATAATATAAGTCAGATGAGTAAGCAAATATCTGACAGCGAG
CAGCTACAGATGGCCTGGAGCGAGCAGCAGCAGCAGCTGGAAAAACTAGCTCAAGAAAAG
GAACAGCTGGAGCGACAGCTGGAGACCGTTCTAGCCAGACTGCGGGAGGAGACCGACGTA
GGCGAGTTGAGGCACAAGCTGTGCGCTGAAAGTGAACGATGTGGTCAACTGGAGCGGGAA
CTGAGGCGACTTCGAGAGACGACTGACAGACCCCGTCCGTCGCCAGGCCGTGCGCGTTCA
CCCACGGCGGAGCTGGAGCGGGCGGTACGCGACCAGCTAGACTACTCACACGCCTTGGAC
GACGATATCATGGACCAGATTTTGTCTGCTAGCAGCGACGAACGAGAGGATATTCCGAGA
CTCGTTCTCAATTCATCCAATCAGTCTACGAGCTCGATGAAATCGACATCGTCGGAGCGC
ATGCAGCGGCTGCGGAACGACAACGAGAAGCTGCAGCTGAAGTTGGAACACCTGGAGTGT
AGATTAAAGGATAAGGACGCGCTCATTTCTGAACTCAACAGAGTACGAGACAAGCTGTCC
AGTGAGTGTCAGTCGGGGCGGCTGAGGCTGGAGGCGGAGCGCGACCGCTCGGCGCGTCTG
GCCCTGCTGCTGGACTCGCACAAGGACACGGCCAGCTCGCTACACGACCAGGACTCCAGC
ATGATCGACATGCTCAAGAGACGACTCGAGACCGCCATGAAGTCCGAGTTGGAGGCGCAG
CAGCGGGAGAGGGACCTGCTACAACGGCTGCAACAACTGGACCGAACGCTGCCGGCCGCG
ACCTCCCCCACGGACCAACTCAAACAGGAGTCGGAGGACCGGGCTCGACTGCAGAGCTCG
CTGAGCGCGGCACGGCTCCAGCTGGAGGCCGAGCGGCGGCGTGCTGGAGAACTGCACGCG
ATGCTCGACCACGAGAGGAACAAACACAGAAGAGACCTGGACGAAGCGGCCGCCACGGCA
GCCGCCCTCAGGGGGGAACTGGCAGAACTCAGGAGATTGAAACACGAATCCGGCGTGGAG
CTGGTGAGGACCAAGGAGCTGCTGCACACGCAGAGCGACACCATCGCACAGCTCGAGAAG
AAGTATTCCGCCAGGAGTAAACATAATGATACTATCACGGGCATCGAAAACGAAAAAACA
GATCTGGCTCGTGAAATGGCAACCCTCCGACGGTGTCTGACGGACGCACCCCAGGCACAG
CTGCAGCAGCTGCTGGAAGAGAGACAACAACTGAGAGACACCATCAGGGATCTAAGAGGA
CAGCTGGAGGCGAGGAACGACGACAAGGAACAGGCGGTTAGTATGTAG
Protein sequence:
MQELVVLLSDPDAELSSWPLELVALRDRIHHDRELSSVRDELSSGEGDKWRQRRNNSFDQ
NRQLEEVTRERDGLRRVAGVLQRAVSSLVAYCASAEDELNRTVLNKLLGHLAADDDTIVE
LDSRPSTPVAELSVVGETHVHLAPDLHSILVSLDEAGVRGFLQQQRDLGDDIKRELDASL
KRLRHEAKDLLQLSARLASNKARQETRMLENSTREAKEEDERECINCMMQRKNVEEAMSE
CLQRENLLRSDLDGAMMKIAHLMGPPDRTHSDDVVEGYGTGGRSLDGLTPRAQLAADLEH
ALRERDDLKQQLEAANRQLRSTRQFVEEQAAEREAERDEFAERLAELRDENSRLAARLQT
NARIVNEVEQLESQTREMNQIIADLEGRKGAADEELKAAEEQVSLLRDIINNLETQLEEK
TAREEDVLRELGDMRSTIDDRDRRMRELLAELERSRGRDAEREAATQQGEEGGGDELLGT
LRDDAKLLEEQIHSSVVRLEGAYERASGSLSERTEDVSVTGARAGGERGGGGARGPALEE
LSGVWDQLKALERAGDAALKRIDDLHMQRQRLKDVAQEVRAERDVLQARMSEQALRISSL
SARLAQQRCDADALAHDAAAQLSVRLHDAQAEVQRLTEELSTKDKQLARLKQSHEERDKY
GETQPVFGNSCNPKDRAAMLEREFSNAKSKIEQLESLVRSLETDKEKLQSTVREQQRTLA
EKEEQLNEIMALNLVEDQSEVIQAKTSARTLSDIVSISEFDEQDLIMRRAELKGQNASIT
NTDHKDKTNLNKTLPPDVQKPNMSSLNLDYADHFDGTNFTPRADSLPIHLTSTQNKEVYK
RNANETTIFGEGIKHSTAQNIPDNCSMYPNRDVSESKNLSVEPKKINFSMEPSDNRTHDE
EFASLKDLGITLDVKQENFPDILTHLKREIRKSRSEVELYKAELKNAEEQLCEFPALKEE
VEELKGLLENTMATMENDKKFYENQLDTFASNKKLLEQRLKELTQEVHEKSKDLNLLKED
ILRRETMILELAKEKMNLANKISDLEIKIDDLNSKNMALVKYEAENKQLKEKLAELQRLE
QLLSEKNQQIDSLNQHLDRLDDLQRCLNDKTEEMEGLKQALNMKTKELFQVRDSVNTLNT
DIAKVIEENDQLSQQNKELKLKLTKLEKEQENAAIRLQNNETELNRVNSQNSDLAARIEE
LKVLHDTLADKETEIEILHEDINLYHNEIAALREQLKMVSRSPSPRNKNTEAGNTVDRQA
TNDRKQLVKIKKQISLLQHELDFQKKELNDKAFELAKAKLDLTEARNNISQMSKQISDSE
QLQMAWSEQQQQLEKLAQEKEQLERQLETVLARLREETDVGELRHKLCAESERCGQLERE
LRRLRETTDRPRPSPGRARSPTAELERAVRDQLDYSHALDDDIMDQILSASSDEREDIPR
LVLNSSNQSTSSMKSTSSERMQRLRNDNEKLQLKLEHLECRLKDKDALISELNRVRDKLS
SECQSGRLRLEAERDRSARLALLLDSHKDTASSLHDQDSSMIDMLKRRLETAMKSELEAQ
QRERDLLQRLQQLDRTLPAATSPTDQLKQESEDRARLQSSLSAARLQLEAERRRAGELHA
MLDHERNKHRRDLDEAAATAAALRGELAELRRLKHESGVELVRTKELLHTQSDTIAQLEK
KYSARSKHNDTITGIENEKTDLAREMATLRRCLTDAPQAQLQQLLEERQQLRDTIRDLRG
QLEARNDDKEQAVSM