New model in OGS2.0 | DPOGS211108  |
---|---|
Genomic Position | scaffold686:+ 10536-19701 |
See gene structure | |
CDS Length | 4623 |
Paired RNAseq reads   | 1149 |
Single RNAseq reads   | 3106 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002983 (1e-09) |
Best Drosophila hit   | will die slowly (2e-06) |
Best Human hit | activating molecule in BECN1-regulated autophagy protein 1 (6e-31) |
Best NR hit (blastp)   | PREDICTED: similar to Activating molecule in BECN1-regulated autophagy protein 1 [Tribolium castaneum] (9e-53) |
Best NR hit (blastx)   | PREDICTED: similar to Activating molecule in BECN1-regulated autophagy protein 1 [Tribolium castaneum] (1e-48) |
GeneOntology terms    | GO:0006914 autophagy GO:0030154 cell differentiation GO:0007275 multicellular organismal development GO:0007399 nervous system development GO:0005737 cytoplasm GO:0009790 embryo development GO:0008285 negative regulation of cell proliferation GO:0005515 protein binding GO:0031410 cytoplasmic vesicle GO:0021915 neural tube development GO:0043065 positive regulation of apoptosis |
InterPro families    | IPR001680 WD40 repeat IPR015943 WD40/YVTN repeat-like-containing domain IPR019782 WD40 repeat 2 IPR017986 WD40-repeat-containing domain IPR019781 WD40 repeat, subgroup IPR011046 WD40 repeat-like-containing domain |
Orthology group | MCL18001 |
Nucleotide sequence:
ATGGATCCAGTTATTGACAATGAATGGCTGGGATGTAAGAATGATCCGATCGATGAACCA
CCGACATTTGGCAATATAGCACGGAGCTGGCAGTGGCGGGAGAGGGGAGTCAATGCTCCG
AACTCACCGTCAAACAAGACAGTACTTGAGAATGTTGCTGAGGATGTACTTGTACAAAAG
CCTCTTAAGATACGAGGGGAGTTTCCACTGATAAATGGCAACTGCTTAGTGTTTGGTCGC
CTTGTGACCACAGCCTGTGCGACTTGGGCCAAATTAGCTAGTGGGAAACATGTGAGGATT
TTGAAAGGTCATCCTCGGACACCGTGGTGTATCGCTTTCCATCCATCCCATCCACAGCTC
ATAGGATCTGGATGTCTTGCCGGACAAGTGAGAGTGTGGGATATATCGAGTGGTGGCAGT
GAAGTGTGGAATGTGAGGAACGAGACTGTCATAGCCTCGATAGCTTTCCATCCAAGGGTA
CAGTTGTTGGTGATTGCTACGTACAATGAGCTATACTTCTGGGATTGGAGCCAACCAGCA
CCAATGACTAAGGTCTCCACCAATAACATCAATGAAAAAGTCAGATACGTGGCATTCGAT
TCTCTCGGCTACAAGTTAATAACCGGCATATCGTTGAGCGCGATAAGGGGTGGTGTAGAC
GCGACCGTTCTCCAGCACGCTCCATCAAATCCCCAAAACAACAGCAACCGTAGTCTCCAC
CCCGATGATAATGACGGCAGCAATAGACCAGACACGGCTGGGGCGACACAGGACGTTATA
GTGAATTCATATCAGTATCTGGTACAGAGGTACGACAGTCTTGTCAGGAATTATCAGAGG
CTGTTCATGGTTAGGAACCGGCTCGCTGTCACACCGCCGCCTAACACGACGGACAGAGGA
ACTGATCCAATGGAAACAGACCCAGCTCCAGAAGCAAACAGCTATACACGCACGGCTCGC
TCCTATACAGCCACAACACAGTTGGATGACGAAAACCAAAACTCGAATACAAGTAATAGT
AACACCGCTGAAGACACCGCTGACGCTGCTGAAGAAGGGAGTAGCGGTCTTCTGAATCTT
GACGCCCTTTCCTTTGATAGGGCACCTCCTGGAGAGAGAAACATGTCGAGACTGGAACTT
GCTATATTCGGTGCGCGTCCGTCAGCTTTTCATCCGCTCACCAACGAAAATCCCGGACGA
TCTTTCAGAACGGTCGATCAAAATGAAAGAGCCTCAAGACTTTTGCCAAATCCTTTTTCA
AACACAAACGGTACACCGCGGCCCAGCCGCGTCTCATTCGCCAGTAGTCCGTTGACCCAA
CAATCAAACAACGATAACGCGCCAAATGCTTCTCGTACCAGTATTTTCACGTCATACAGA
CCTAATTCTCCGTCTGTGTTGGATTTATCGTCGCGCAGGTGGAGTGGTAATCGTAGAGTA
TTTATTCCAAGACCCAGCGACTCACAACCGTCGAATAGCAATTCGTCTACAAGATCCCGT
CAGGAAGATGCTTCTTCCAACACAACAAATAGGAACACAGCAACAAATACCAGTGCATCT
TCAAATTCGAATTCTATTCCAAATATATCTTTGAGTAATAATTCATTATCCACTGGCAAT
ACGCCTACAGATACAACCCCCTCTACAAATAATTCAACCAGAAGAACGTCATCACCACCT
CAAGGCTCGCCAGTTGACGCGCAGACGATTAACGAGAGTTTAGATTTAATACGAGACATT
CTCAGAGATTCCGGAACGAGATTGTTAAACTTAATCACAAACATGTCCGCTTCAAGTCTA
CCTCACGTGGGTCCGGAAGTTCCGAATAGACGCGTCAATATAAGAGCCCATTCGGACGAT
AGCGGTGAAAGTGAACGACCGAGGGGAGCACGACCACGGGTTCGCCTATTCAGCTCCAAC
TTGCAGCCCGAAATACTATCTTCGAGTTCAGAATCTGATAGTGACCAGTCCTCAGAGGTA
AATATTCTTAGGACTCCGAACACGACGTTCAGAGAAGAAGACTCGCGAGAAGAATCGTCT
CGAACTACCGAAATGCCGGGACCGTCTAACAGATCAGCGCCTCCCTCTGATAGAGCAGAC
TCCGAGAACGATGACAATACACCCAACACTGGCATTGATACTGAGAGTGTTTCTACAGCA
GCAAGTGCAAGTAGTAGTCGTAATCGACCGAGAACACAAAATAATGATGCAGGCGAGGGG
CCTAGCACATCAAGTCACGCGTCTGACGAACCAGAGAACTTAGCTCAGAACAGTTCAAAC
TATTTCGATTCTAGTAGACCTTCCACAAGTGGAAACAATATATGGACGAATGGGGCCACA
GTGCCACCAGAAGAAGCGTTTAGAAAAGTTCGGGGCGGTGTGAACGCGTTACAGAAACAC
ACAACTCAACTGACTAATATGTGGGTACGCGGGAACCGCACTACAATGCGAGAATTACGT
ACCATGTGGGAGAATTTACGTAGACGAATCATAATGTTACACAGGGAAACCGGCCGCCAA
GACTTACCTAACTATTACACGAGATCTCTTTTAGAAAGATGTATGATGTTGACTGAAATG
ACAGGAGAAGCGAGTCGTAATGCCACGAGAAATTATAGATCGCAATCTAATATGTCTTCT
TATGAGCCCAGGCCTAGCACGTCTAGAGCTGTTCCGGAAGACAATAGACCCTCACTATCA
GGAAGATCTCCATCAAAAAAAACACCCCAACGATCCTTATCGTCATTATTATCAAAGAGA
CTTCAAGCAGCCTATTGTAGATGGCGGCCAGAAGACCGAAGACGCAATCCGATTTCAAGT
CGTATGTCTCAACGATATCTACATAGACCACGAAGGGAATATACAAGGTTAATAGAAATA
AGTGCGACAAGGCATGAAATTCGCATGCGTGCTATGCAAGTGTTGTCCGTCATGTTTAAC
ATGATGATGTTGTGTTTAGAGGAGCGAGGATTGAGTTCGCTGATCATAAATATGTTACGC
ACTCTAAAAAAGGCGCTGGCATTGACATGTTTGATGCTAATGACAAATAGGTACAACCCA
CGCTCCAATAATAACGATTCTCCGCAGAGAGTTGATTCAATGAATGTTATACGTTTGCAA
AATGTTGATCACACCGGTCCCGTTAATGTGGACGGTCCAGATGAATCTCCGCATCATTCA
ATATCCAGCGAAACGGAAGAGGATCGATCGACTACACAATCTGTAGCTACAGAAAATCCT
GCAACAGATGACACAACACCACCGACGGCACCCGCTAGCCAAGAACCAACCCAAAGATGG
AGCAATCGGTTAGCAGTACAGATTGCGGCTGCCAATCGAAATACTTCAATGACCGCTAGA
ACGAGACGAGATTTGTACGTAGAAAGCAAGAGACAAAAAGCACTACATAGAACAAATCCG
TTAGCCCATCCGCTAATTAAGAAAAAGGTGCTACCACCCGTATCCACATACAGAATTCCT
TCGTTGCGTTTGACACCTCGAAGATTAAGTGTCAGGAATAGCGCGTCCAGGGCCAATCCA
GCAAATGGAGAACCAATAGCTGGGCCGTCTGGCATTCTTTCTGGCACCGGTACCGTTCGT
GGCGGACCGTCAAGGCTCCCTCCGGAAATGAGTAATGAGTTTGAACACAGAATCAATTTA
ATAAGAATGGCGCACATGCAAGCTGTAAGACTACGTAATGCTGCTAGAAGTAGATTTCGC
CGTTTGCAAACCATCCGTCTGTACACCCCATCTTCAGTGCGAGAGATGTTCACCCTGCAG
CCTGAGGGTGACAATCCCCACGAAAGCCGACCATTACAAAATAATTCTGAACCCAACCGG
CGATCGCTCACGTCCTACGACTACAGGCCTCATATACTGACTCGGGAGAGAATCTTCTCT
AGAGGAGCTGCTAATAGACCTTCAGAAGATTCAGGACAATTTCACGCGGTCATCAGCAAC
ACGGGTATGCCACTGATGCAGGTCAGTGACCTCAGCATCAGCAACCAAGATGGTCAGGGC
AACCAGAACCAACGGCTACCGAGAATCCATGAATACTTGCAACCGATTATTTTGGCCCAA
AACGCAATGGTGGTTGATGAGGAGAGGGGTGAGGATGGGCCTGGAGGTCCGGGAGGGTCG
GGGGGAGCTACAAAAAACGTGGTGGTTCAACGTTGCCGTATCCACAATGACGCGAGCATC
GACATATCCAAAGACGGCAGACTGTTGGTGGCTCTCCTACCAGTACCGCGGCTCAGGAAC
GCGAACCATTGGCTCGGTGTTTATTCCTTGGAGTGGTCCCGTCTGGGTCAATGTCTCCAC
ACAGCGGTGTTGGAACAGAATGCTGTTTCAGTGGCACTGTCACCAACAGCAAGACATCTG
GCTGTAGGTCTTGGATCTAGAAGATTCACATCAGCAGCTCACAGTAGGAACAATGTGTTT
GCACTGCTGTACAGATTAGATCCACTTGAGAATTCAAGCCGCACTGGTTTATCACCTATC
AAAGAATTGGAACAGACATGGGAGCATGGCTTCACCAGCCTGAATTGTCTCCGTTGGGCC
CCGCAACCCGGCCAAGGACTGGTATATGCCAATAATACAGGACAACTGATAATTATGAGC
TAA
Protein sequence:
MDPVIDNEWLGCKNDPIDEPPTFGNIARSWQWRERGVNAPNSPSNKTVLENVAEDVLVQK
PLKIRGEFPLINGNCLVFGRLVTTACATWAKLASGKHVRILKGHPRTPWCIAFHPSHPQL
IGSGCLAGQVRVWDISSGGSEVWNVRNETVIASIAFHPRVQLLVIATYNELYFWDWSQPA
PMTKVSTNNINEKVRYVAFDSLGYKLITGISLSAIRGGVDATVLQHAPSNPQNNSNRSLH
PDDNDGSNRPDTAGATQDVIVNSYQYLVQRYDSLVRNYQRLFMVRNRLAVTPPPNTTDRG
TDPMETDPAPEANSYTRTARSYTATTQLDDENQNSNTSNSNTAEDTADAAEEGSSGLLNL
DALSFDRAPPGERNMSRLELAIFGARPSAFHPLTNENPGRSFRTVDQNERASRLLPNPFS
NTNGTPRPSRVSFASSPLTQQSNNDNAPNASRTSIFTSYRPNSPSVLDLSSRRWSGNRRV
FIPRPSDSQPSNSNSSTRSRQEDASSNTTNRNTATNTSASSNSNSIPNISLSNNSLSTGN
TPTDTTPSTNNSTRRTSSPPQGSPVDAQTINESLDLIRDILRDSGTRLLNLITNMSASSL
PHVGPEVPNRRVNIRAHSDDSGESERPRGARPRVRLFSSNLQPEILSSSSESDSDQSSEV
NILRTPNTTFREEDSREESSRTTEMPGPSNRSAPPSDRADSENDDNTPNTGIDTESVSTA
ASASSSRNRPRTQNNDAGEGPSTSSHASDEPENLAQNSSNYFDSSRPSTSGNNIWTNGAT
VPPEEAFRKVRGGVNALQKHTTQLTNMWVRGNRTTMRELRTMWENLRRRIIMLHRETGRQ
DLPNYYTRSLLERCMMLTEMTGEASRNATRNYRSQSNMSSYEPRPSTSRAVPEDNRPSLS
GRSPSKKTPQRSLSSLLSKRLQAAYCRWRPEDRRRNPISSRMSQRYLHRPRREYTRLIEI
SATRHEIRMRAMQVLSVMFNMMMLCLEERGLSSLIINMLRTLKKALALTCLMLMTNRYNP
RSNNNDSPQRVDSMNVIRLQNVDHTGPVNVDGPDESPHHSISSETEEDRSTTQSVATENP
ATDDTTPPTAPASQEPTQRWSNRLAVQIAAANRNTSMTARTRRDLYVESKRQKALHRTNP
LAHPLIKKKVLPPVSTYRIPSLRLTPRRLSVRNSASRANPANGEPIAGPSGILSGTGTVR
GGPSRLPPEMSNEFEHRINLIRMAHMQAVRLRNAARSRFRRLQTIRLYTPSSVREMFTLQ
PEGDNPHESRPLQNNSEPNRRSLTSYDYRPHILTRERIFSRGAANRPSEDSGQFHAVISN
TGMPLMQVSDLSISNQDGQGNQNQRLPRIHEYLQPIILAQNAMVVDEERGEDGPGGPGGS
GGATKNVVVQRCRIHNDASIDISKDGRLLVALLPVPRLRNANHWLGVYSLEWSRLGQCLH
TAVLEQNAVSVALSPTARHLAVGLGSRRFTSAAHSRNNVFALLYRLDPLENSSRTGLSPI
KELEQTWEHGFTSLNCLRWAPQPGQGLVYANNTGQLIIMS