New model in OGS2.0 | DPOGS216127  |
---|---|
Genomic Position | scaffold618:+ 13730-36465 |
See gene structure | |
CDS Length | 6093 |
Paired RNAseq reads   | 4457 |
Single RNAseq reads   | 11279 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009534 (5e-137) |
Best Drosophila hit   | mini spindles, isoform C (0.0) |
Best Human hit | cytoskeleton-associated protein 5 isoform a (0.0) |
Best NR hit (blastp)   | microtubule associated protein xmap215 [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | microtubule associated protein xmap215 [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0005875 microtubule associated complex GO:0007017 microtubule-based process GO:0008017 microtubule binding GO:0000922 spindle pole GO:0005813 centrosome GO:0007143 female meiosis GO:0007344 pronuclear fusion GO:0005515 protein binding GO:0007067 mitosis GO:0031122 cytoplasmic microtubule organization GO:0016325 oocyte microtubule cytoskeleton organization GO:0045450 bicoid mRNA localization GO:0000022 mitotic spindle elongation GO:0007029 endoplasmic reticulum organization GO:0048477 oogenesis |
InterPro families    | IPR016024 Armadillo-type fold IPR021133 HEAT, type 2 IPR011989 Armadillo-like helical |
Orthology group | MCL12614 |
Nucleotide sequence:
ATGGAAGACGAGAATGAATACAAAAAGTTGCCGACTGAAGAGAAATGTGTGCATAAATTA
TGGAAAGCGAGAGTGACTGGTTATGAAGAGGCTATTAAGCTATTTAATCAAATAGATGAT
GAAAAGTCTCCGGAATGGAACAAGTACCTTGGACTTATAAAGAAATTTGTCACAGATAGC
AATGTTGTTGCACAGGAAAAAGGCTTAGAAGCAGCTCTGGTATTTGTTGAGAACTGTGGT
CATGCTGGAAAAACTACCGGAGAGGTGATGTCCGGGATAGTGACTAAATGCATTGCAGCA
CCTAAAACAAAGACCAAGGACCTCGCCTTACAAATAACACTCATGTACATAGAAATTGAA
AAACATGAGATAGTTGAGGAGGAACTCCTTAAAGGGATGGAACAAAAGAATCCTAAAGTA
GTGGCAGCATGTATATCAGCACTGAATACAGCACTGAAACAGTTTGGCAACAAGGTGGTA
GCTATCAAGCCTATGGTCAAAAAAATACCCATCCTGTTGGCGGACAGAGATAAGACTGTG
AGGGATGAAATGAAGGCATTGGTTATAGAAATGCATAGATGGATAGGAGCCGCTATCGAG
CCGCACATAGCGTCCTTGCAGGCTGTAGTACAACAGGAATTAAGGGAATCCTTCGGGGGC
GGAGGAGCAGCACATCCTACGAGGTTCCTGCGATCACAACAACATCGACTGAGAGAGGTC
CCCGCCGCGGACTATACCGACGGTCGAGCTGACGATGAAGATGCGGAAACTGGTGGCGGG
GACTCCGCCGAAATGGATCCCTACGACCTCCTGGACCCCGTCGAGATTCTGTCCAAGCTA
CCCAAAGACTTCTACGATAAGCTGGAAGCGAAGAAGTGGCAGGAGAGGAAGGAAGCTCTG
GACGCACTGGACAATATACTGAAGACAGCCCCCAAACTGGAGCCCGGGGACTACGCTGAT
TTGGTCCGTGCGTTAAAAAAAGTGATATCTAAGGACACTAACGTGATGCTAGTGGCGCTC
GGCGGCCGGCTACTGGGGATGGTGGCGAGCGGGCTCCGGAACAAGTTCTCGCCGTACGCG
GTCGCCTGTGTGTCCGCTATACTCGAGAAGTTCAAGGAGAAGAAGACGAACGTCGTGAGC
GCGCTGAGAGAAGCTATAGACGCTATATACCCATGCACGAATCTGGAAGCTATCATGGAA
GATATGCTAGCAGCGTTCGATAATAAGAACCCTTCTATAAAGGCTGAGAGCGCTGTGTTC
CTGGCGCGAGCTCTGTGTATCACACAGCCGGCGGCCTTCAATAAGAAACTCATTAAGGCT
TATGTGGCTGGACTCTTGAAGTTACTGGAGAGCGCTGATCCCGCAGTGAGAGACGCCGCG
GCGGAAGCCCTGGGTACTGCGACAAAATTGGTTGGAGAGAAAAATATTGCTCCACATATT
GGTAAACTAGACAACTTGAAAGAGCAGAAAATTAAAGAATTCGCAGAAAAGGCGGAGATT
AAAATCAAAGTGGCCGCTCCCAAGAAGGAAGCTAAAGCTAAAGCTCCTCCGCCCAGCGGC
AAGGGCGACGCCAAGGCTGGCTCCAGTCAACCCAAACCTGTTAAAAGACCAGCGTCCGGA
ACAGCAAAGAAACCTACAGCCAAGAAGACCCCAGCGCGTGGCCCTTCAAGCCCTCCGCGG
GAATTGGAACTGTCACCGGAAGAAGTAGACTCCCGCGCAGAACAGATCTTTACATCGGAC
GTTCTTACTGGTTTAGGAGATGGCAACTGGAAGAGTCGTCTAACAGCCGTACAGTCGTTC
CATTCAACAGTCCAAGGTCTGACTACATCGGATGCGACAGCACAAGTCTTGTATAGAACA
CTGAACAAGAAACCAGGTCTCAAAGACACCAATGTTCAAGTCTTGAAAGCGAGATTGGAG
GCCTGTAAATATATCACGGAAAACTTTCCCATATCTACAACCGCCGCCGACTTTGTTCTT
CAAGATATCGTCACAAAGTTGGCTGAAACTTCCTGTTCCTCAGTTTCATCCGAGTGTCTG
ACATCGCTGGCTGAAAGTTGCGGTTTGGAACACGTACTCAATGAAGGGCTCACTTTCGCT
ATGGACTCGCAGAAGAACCCCAAAGTTCAAGCAGAAATGTTCAATTGGATGGCAGTAGCG
ATAAAGGAATTCGGTTTCACAATGAATGTCAAATCAATAATCGCACATTCGAAGAAAGCG
TTGTCTGCGACGAATCCTAACGTCCGAACGTCTACCGTCAATTTCTTGGGAATACTGTCT
TTATATGTGGGCCCGTCACTTATCAGTCATTTTGACAGCGAAAAGGCCGCTACCAAGCAA
CTGATAAGCTTGGAACTGGATAAATACGCCAACAGCACTCCGCCCACACCGACTAGACAA
TTGGGAACAGTGAGTAAGTCGGCAAGTAAAGGTTCAATAGGAGACGATCTCGATGAAGCT
TATGAAGATGCCGCAGACGAGGAACCGGCTGCTGTAGAAGATAATAGACCGAGGACAGAT
ATAGCACCGCTTATCACTGACGCTCTGGTTGCCGAAATAGGAGATAAAAATTGGAAGGTT
CGTAATGAAGGTTTGGATAAGGTGAAGGCAATCATCACAAACTCCTCACCGATCAAACCT
ACGCTGGGTGAACTACCAGCGGCCCTGGTCGCTCGGCTTCTGGATTCTAACTCAAAACTA
GCTCAAAGTGCTCTACAAATTTGTGAGCTGTTAGCGACGTCTATGGGCCCTAAATGCAAA
CAGCACGTGAGGACGTTTTTCCCGGCTTTCTTTCAAGCGTTTGGTGACAGCAAGCAATGG
ATTCGTACCTCAGCTGTGTCGTGTGTGGACGCGTGGTGCGGGGCGGCGGGCGCGGCGGTC
GCCTTCGATGGTGAAATGGTTCTGGACGCTCTTAAAGCCGGTTCACCAGTACTGCGAGCT
ACGCTACTTACATGGCTAGCTGAAAAGCTACCTAATATTCCTCCGAAGTCGTTTCCTCGC
GAGGAGTTGTCCCAGTGCGTGCCCATACTGTTCGCGTGTCTGGAGGATCGAGCGGCGGAT
GTAAGACGGGCGGCCGCTGACGCTGTGTTCCCCGTCATGTTGCACCTCGGATACGAAGCC
ATGCACAAACAGATGGACAAACTGAAGCCGGGTTCCAAGACTGTAGTGCAAGCGGCTCTG
GACAAGGCCCGTCCGAATTTGCCGGTCCAACCTTTACCAGCTAAGAACAAAAAAGACGAA
CCTAAGGGTGTTAAGACGGGAGGCGCTCTGAAGAAGGAGGGAGATAAAAAGGGAACAATG
ACGAAGAAGGTAGTTAAACCGGCTTCGGCCTCGAGTCGCGGCAAAAAGGAAGACGAAGAT
TGCACTCCCCTGCTACCCAACAACAACGCTAAGAACCAGCGTATTATTGATGATCAGAAA
CTAAAAGTATTGAAATGGAACTTCACAACACCTCGCGAGGAATTCTTTGAATTGCTCAAA
GAACAAATGAACAGCGCCGGCCTTAACAAACAACTCGTCGCTAATATGTTTCACAGCGAC
TTCCGTGAAGACCTTCACGAGAACGGAACAGCGTTGATGGCGAACCTGGACCTCGTATTA
AAATGGCTGACCCTGAGATTCTTTGACACCAACCCTTCAGTCATACTAAAGGGCTTGGAA
TATTTGAATATCGTGTTCCAGTATTTAATTGACAGTGACTATACTATGGCTGAATACGAA
GCTAATTGCTTTATACCGTACTTAGTGCTGAAGGTCGGAGACCCGAAAGACACTGTACGA
AATGGTGTAAAGGCTTTATTCAAGCAAATAGGAGTCGTGTATTCAGTCACTAAACTGTTC
GGATACTTGATGGAAGGTCTGAAGTCCAAGAACGCCAGGCAGAGGGCTGAATGTCTGGAG
TGCATTAACCATCTTCTGGAGACCTACGGTTCAACGGTGATGTCGGGAGGCGGCGCGGCT
CTTAAAGAACTGGCGCGTCTCATAGGGGACCGGGATAATGCTGTGCGGTCAGCCGCCTTG
AACTGTGTGGCCACGGCGTACTTCCTGGACGGGGAGAGAGTTTATAAGATGATCGGACAG
ATATCTGATAAAGATCTCTCGCTACTTGAAGAGCGCATCAAGCGAGCTGGGAAGACTCGA
ACAGCGGAGGAGCGTCGGGCCGGGCTGGTGCCGCTATCAGCTGGTGGCAGACCTCTCATG
CACGCCGTTGAGCAAGAACCAGAACCACCACAAGAAGAACCCGCCCAGGAATATGAGGAA
GAGGAAATTGAAGAGCAACCAGTTATAGTTCAACCGCCGGTGAGAGCAATGACAGAGCCG
AAAGTAATAACGGGGCCCTTCAGACTCGACCCTGACCTGATCGCCAAGCTTGATGCAGCT
GTCCCAGTAGTCCGGAAGCCAGATTTACCCGAGTTGGACTTGAAGTTCCTAGACGAACCG
ATACCCGTGTCCACAGTCAGGAATGTCAGTGCGCCGGTCAGGCCGAGGCATGTTATGTCC
ACACTGTCCCCGTCCAGACCCACCCCTCACCTGGTGCCTCACAAGCCAGCCCTCGATGAC
ACTCAGCTGGCCGACACCATACATTCTATATCGAGTCCGGATCTCAACGCGGCTATTAGA
GCCCTATCTCTGATCTCTGGTACTCTGGAATCTGGTCGAGGGGCTGCGGTCGCGTCCCAC
GAGGCACGGCTCATATCAGCCGTGTCCGCACAACTACGACGACTAAGAATGACACCCGGA
CCCGCACAACATACTCTGCAGGCGTATAAATGTTTGGCACAGTCATTGTCAACTTTCTAC
GAGACAGCCGGTTGCGGTAGACAAGTGGGTGAAGCAGCACTAAGGTCTCTGCTGGGCGAG
TTACTACTGGTGCTTGGAGCGTCACCCGCCACGCCCACAACGGAAGCCGAACGCATCGTC
AGAATACTCAATAACGTTTGCGTTAGAGTTCTAGAACACTCACCGCGCACAGCTTTGTTA
TGTGCAATCATATCACTTCTACACGACTCGATAGTCGAATCCGACCCGGCCTATCCCAGA
TATCAAGATCTATTGCTGAAATGTTTCTGGAAAACGTTGAAGATGATACCGACGTGGGAT
GTGACCTCCATTGATTATGACGCTGTGTTATTCAAGATACACCTCTTCTACAAGGCCTAC
CCTAACAGCTACTGGAAGAAGAATCCAGAAATAAGCGATACTCCTTATAGAACCGTCAAG
ACTCTAGTCCACACCTTAGTCAAAATGAAGGGAGCGTCCATAACTAACCACCTCACACAG
ATACCTGACGTCAATGAATCAGATCTCTATCCTTATTTACATAAAGTACTCAAGACCGTG
GAGGTGAGCGATACACGCGCGTTAAATAGGGGCCCCTTAGACATACACCTGGGTCGCAAG
TCCCAAGCACTATTGAAGCTCCTCTCCCTGCAACGCGATGGACCCGCCACCTGCACGCAA
CTTAAGCTAGACGAGCGTAAAGAGCCAGAGGTGGTGAACAACGGTGTGCCGCCGAGCTCT
ATGAACACGTCGCTCCAAGCCGGCCGACTGCCGCGAGGAGTGCACGATGAGTTGGCCGCC
ATACTCAAGAGGATCGGCTCCAAAGAACATAACAGGGAGGCGCTGTCGCAGCTGTATGAT
CTGCGGGAACGTCACCCTGAGGTCGACATCTGGACTTTCATGCAAGGATCTTCCTTCTAC
TTCCGAAATTACGTGGAACGAGGTCTCAGAGAAGTGGCCGATCAGAGGAAGATGGCTTCA
GTTTCCATATACAAGAGCGACTTTAAAACTGATAATATTGACATAACTAATGAAAACGAC
GAGAAAACTCACGTTATATTTTTGGAACGGTTAAGAGCACTGCAGGCTAAAGCTGGCATA
AAAACGGAGTCGAACCCCTCGTCACAGCCGCGCACGCCGAGCGACAACCGCGCGCTCGCA
GATTCTATAACGGAGAACAGTTTGCCCAGAACACACAGCCTCGACCCGCAACTGGAGCTT
CACACAACGCAGCAAGTCTCCATAAAGAACGAAGCGGCCGTGGACGCACTCCGTCTCAAA
CTTCAGCAAATCAAGAGCTCGTCGAAGAGATAA
Protein sequence:
MEDENEYKKLPTEEKCVHKLWKARVTGYEEAIKLFNQIDDEKSPEWNKYLGLIKKFVTDS
NVVAQEKGLEAALVFVENCGHAGKTTGEVMSGIVTKCIAAPKTKTKDLALQITLMYIEIE
KHEIVEEELLKGMEQKNPKVVAACISALNTALKQFGNKVVAIKPMVKKIPILLADRDKTV
RDEMKALVIEMHRWIGAAIEPHIASLQAVVQQELRESFGGGGAAHPTRFLRSQQHRLREV
PAADYTDGRADDEDAETGGGDSAEMDPYDLLDPVEILSKLPKDFYDKLEAKKWQERKEAL
DALDNILKTAPKLEPGDYADLVRALKKVISKDTNVMLVALGGRLLGMVASGLRNKFSPYA
VACVSAILEKFKEKKTNVVSALREAIDAIYPCTNLEAIMEDMLAAFDNKNPSIKAESAVF
LARALCITQPAAFNKKLIKAYVAGLLKLLESADPAVRDAAAEALGTATKLVGEKNIAPHI
GKLDNLKEQKIKEFAEKAEIKIKVAAPKKEAKAKAPPPSGKGDAKAGSSQPKPVKRPASG
TAKKPTAKKTPARGPSSPPRELELSPEEVDSRAEQIFTSDVLTGLGDGNWKSRLTAVQSF
HSTVQGLTTSDATAQVLYRTLNKKPGLKDTNVQVLKARLEACKYITENFPISTTAADFVL
QDIVTKLAETSCSSVSSECLTSLAESCGLEHVLNEGLTFAMDSQKNPKVQAEMFNWMAVA
IKEFGFTMNVKSIIAHSKKALSATNPNVRTSTVNFLGILSLYVGPSLISHFDSEKAATKQ
LISLELDKYANSTPPTPTRQLGTVSKSASKGSIGDDLDEAYEDAADEEPAAVEDNRPRTD
IAPLITDALVAEIGDKNWKVRNEGLDKVKAIITNSSPIKPTLGELPAALVARLLDSNSKL
AQSALQICELLATSMGPKCKQHVRTFFPAFFQAFGDSKQWIRTSAVSCVDAWCGAAGAAV
AFDGEMVLDALKAGSPVLRATLLTWLAEKLPNIPPKSFPREELSQCVPILFACLEDRAAD
VRRAAADAVFPVMLHLGYEAMHKQMDKLKPGSKTVVQAALDKARPNLPVQPLPAKNKKDE
PKGVKTGGALKKEGDKKGTMTKKVVKPASASSRGKKEDEDCTPLLPNNNAKNQRIIDDQK
LKVLKWNFTTPREEFFELLKEQMNSAGLNKQLVANMFHSDFREDLHENGTALMANLDLVL
KWLTLRFFDTNPSVILKGLEYLNIVFQYLIDSDYTMAEYEANCFIPYLVLKVGDPKDTVR
NGVKALFKQIGVVYSVTKLFGYLMEGLKSKNARQRAECLECINHLLETYGSTVMSGGGAA
LKELARLIGDRDNAVRSAALNCVATAYFLDGERVYKMIGQISDKDLSLLEERIKRAGKTR
TAEERRAGLVPLSAGGRPLMHAVEQEPEPPQEEPAQEYEEEEIEEQPVIVQPPVRAMTEP
KVITGPFRLDPDLIAKLDAAVPVVRKPDLPELDLKFLDEPIPVSTVRNVSAPVRPRHVMS
TLSPSRPTPHLVPHKPALDDTQLADTIHSISSPDLNAAIRALSLISGTLESGRGAAVASH
EARLISAVSAQLRRLRMTPGPAQHTLQAYKCLAQSLSTFYETAGCGRQVGEAALRSLLGE
LLLVLGASPATPTTEAERIVRILNNVCVRVLEHSPRTALLCAIISLLHDSIVESDPAYPR
YQDLLLKCFWKTLKMIPTWDVTSIDYDAVLFKIHLFYKAYPNSYWKKNPEISDTPYRTVK
TLVHTLVKMKGASITNHLTQIPDVNESDLYPYLHKVLKTVEVSDTRALNRGPLDIHLGRK
SQALLKLLSLQRDGPATCTQLKLDERKEPEVVNNGVPPSSMNTSLQAGRLPRGVHDELAA
ILKRIGSKEHNREALSQLYDLRERHPEVDIWTFMQGSSFYFRNYVERGLREVADQRKMAS
VSIYKSDFKTDNIDITNENDEKTHVIFLERLRALQAKAGIKTESNPSSQPRTPSDNRALA
DSITENSLPRTHSLDPQLELHTTQQVSIKNEAAVDALRLKLQQIKSSSKR