| New model in OGS2.0 | DPOGS214494 |
|---|---|
| Genomic Position | scaffold821:+ 9946-25120 |
| See gene structure | |
| CDS Length | 3666 |
| Paired RNAseq reads | 1307 |
| Single RNAseq reads | 3172 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA013394 (0.0) |
| Best Drosophila hit | CG8683 (0.0) |
| Best Human hit | protein MON2 homolog (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to MON2 homolog [Apis mellifera] (0.0) |
| Best NR hit (blastx) | guanine nucleotide-exchange, putative [Pediculus humanus corporis] (0.0) |
| GeneOntology terms | GO:0003674 molecular_function GO:0005575 cellular_component GO:0008150 biological_process |
| InterPro families | IPR011989 Armadillo-like helical IPR015403 Domain of unknown function DUF1981, SEC7 associated IPR016024 Armadillo-type fold |
| Orthology group | MCL14519 |
Nucleotide sequence:
ATGGCTTTTGTCAGTGCTGTTACCGGCGATGACTCCACGAAGAAATTCATGGATGTCTTA
CAAAATGATTTCAAAACTCTCAGCTTAGAAACCAAGAAAAAATATCCTCAGATAAGAGAG
GCTTGTGATGAAGCCATAGAAAAACTAGCTTTGGCATCAAATAATCCACAAGCCTCGCTG
TATGGTGTTGTGAACCAAATCCTGTATCCATTAGTCCAAGGATGTGAATCAAAAGACGTC
AAGATTATTAAGTTCTGTCTCGGAACTATTCAGCGATTGATAGCCCAACAGGGAATAGAT
GCAAAAGGTGCTCGGCACATAGTGGACTGTCTGTACAACCTCGGCCATTCGGGAATGTTG
GAATTAAAGTTACTACAAACAGCCGCATTATTGATGACAACCTCCGATCTAGTTCACGGA
GACACCTTGGCCAGGACTATGGTTCTCTGTATACGAATGGTGTCTACTACTGAGACTCGG
GATATCAGTACAAGTCACGCGGCTGTGGCCACAGTACGACAGCTTGTAGCACTTGTCTTT
GAAAGAGCTTTAGCGGAAGCTAACGGAACGTTAAAAGTAAATCCAGCGGATGTGAGAATA
CAAGCAAACAGCAAAGCGCCTAAAGAGTTGAAACCGTGTGCTGTTGATGCATATCTTATA
TTACAAGATATAATACAATTGATAAACGGTGACGCTGCTAACTGGCTTGTGGGAATATCA
GATGTACCAAAGACCTTCGGATTAGAGCTCCTTGATACAGTATTGACAGATTTTTCTGAT
GTTTTCTTTAAGATTTCAGAATTCCGTTTCCTGTTGAAGGAGCATGTGTGCGCATTAATT
ATAAGATTGTTCTCGCCTAATGTTAAGTACCGGGCTGCCTTCCCGTCTCCCCACATCCCG
GGCGGCGGCGCGGCCCCGGGGGCGGAGCGGCCTCATTTTCCGGTGACCATGCGACTGCTG
CGGCTCGTGTCGGTCATCGTACATAAGTATCACGACGTACTGATGACCGAGTGCGAGATC
TTCTTATCCCTGAGCATCAAGTTCCTTGATCCTGATAAGCCGCTATGGCAGAGGGCGCTG
GCGCTGGAGGTTCTACATCGGATGACCGTACAGCCTGATCTACTGAAAGCGTTTTGCGAA
TGCTACGACATGAAGCCGCACGCGACCAATATATTTCAAGACATAGTGAACGCTCTCGGA
GCGTATGTGCAGAGTCTGTTCGTGGCGTCCCAGGTCAATACTTCAGCCGGCTCATCGAGT
ATCCCTCAACAGGCTGGTTTCTACTGGAAGGGAGTCTGGTTACCGCTGTGTGTGACCTTC
GAACCGGGCGTGGCGAAATCTGTATATATAGAGATGTTGGACAGGACGGAGGCGCCCAGC
ATCCAGGAAGGCTACGGCATCTCGGTCGCTTACGCCTGCCTCGTCGAGATAATACGCTCC
ATAGCTATCACCATCGAGGGAGAGGAGTACTTTAGACTTCAAGAACTCTACGACGATACA
CAGAACGACGACGAGAAAGAGGTTAATTCGAATAGGACGACTAATAATAATATGAAAGAT
AGTAATAGTAAAGCGGACACCAAGGAGTTAATAAACAACGGTCATTCTACCGCGGACCAA
AACTCTAACGTGATGAAAATACAACCAGACGACGAGGACAGGGAGAGACAGCTGAAACTA
CAGCTGATCAAGTCATCGTGGTGTGGTCTAGTGTGGGGACTGTCGGTGCTAGCGGAGGCC
AGCATCGGGGAGTTGGAGCACGTGCTGCGAGCCGTGCAGACCCTGGCTAGAGTTAGTGGG
AAGATGGGCGTGACCAACGCGCGTGACGCATGCGTGGGCGCATTGTGTCGGTGTGCGTTG
CCCGCGCAGTACTGTGTCCCTGTCCTGGGCGCTCTGGCCGCCCTGGCGTGTCCCTGGCCC
GGGGCCCGACCCCCAGCCCCCGCCCCGGACCTAAGACACCACGTGGTGTGGGTCGGCACC
CCGCTTCCGTGCTCGCAGCCGACAGGTCAGCAGCAGTCGTTTGTGATGGTGACGTCACGC
CACGTGTCCGCCCTGAGAGCACTGTTGACGGCTGCCGCTCGGGACGGAGACGCCCTGCAG
CACGCCTGGCTGCCGGTGCTGACCACGTTGCAGCATCTGGTGTGGATCCTGGGTCTGAAG
CCGTCTACCGGCGGCAGTATGAAGGCGAGTCGGGCGAGCGCTGACGCCAACGCTGTCATG
AGCACGTCCGCGGTCATGGCCGACCTGCCGGGTCAGCAAGTCCCCGTGGCGGAGTCGCTG
GGTGTGATGAGCGCGTTGTCGGCCATGTTGTCACGTGTTTTCGAAGCGTCCAAGAACTTG
GATGACGTGGCCCTTCATCATCTGATCGACGCGTTATGCAAGCTGTCCAACGAGGCGATG
GAGTTGGCTTATTCTAATAGGGAGCCGTCCCTCTTCGCTGTGGCCAAATTGTTGGAGACG
GGTCTAGCCAACATGCACCGCATAGAGGTCATGTGGAGACCCATCACGAATCATCTCCTG
GAGGTCTGCCAGCACCCTCACATCAGGATGCGGGAGTGGGGGGTGGAGGCCATCACCTAC
CTGGTGCAAGCGGCCTTCCAATACCATCACAATCATCCTGAACTCGTCACTGAGGCCCGT
GAGCGTCTGGTGCTAGAACCTCTGGGAGAGCTGTGCTCCGTTCGTCACTGTGACGTAAGA
GCTAGACAGCTGGAGTGTGCTGCGAGACTGCTCCACTCCAGAGGCGACCAGCTGGGAGCC
GCCTGGCCGCTCATGATGGAGATCATATCGGCTATCGGCGACCATCATAGTGAGCAACTG
GTGCGCTCAGCGTTCCAATGCGCCCAGCTGGTGGCGGGTGACCTCCTGGGATGTGCAGGT
CCCAGGTGTCTCCGACGAGTGCTGGCCGCTGCGGCCGCCTTCGCCAGACAGACCAAAGAA
TTGAATATCAGTCTCACAGCTGTAGGACTGATGTGGAACATCTCGGACTACTTGTACCAC
AACCGCGACAAGCTGTCAGCGGCGCTGGTCAACGAGTCGGTGCCGGATGTCCAACCCGAC
CTTCCGCCTCTGGATCGACTGTGGATGTGTCTCTACATACGACTCAGTGAGCTGTGCACG
GAGGCCCGGGCCCCGGTCCGTCGCGCCGCCAGCCAGACCCTGTTCAGCTGTATCGGTGCT
CACGGGTCCCTGCTGGGCCGGCCCGCCTGGCGATCACTCCTGGCCGTGCTGTTCCCCATG
TTGGACCAGGTCCGGAGGCACTCGGACGTGGCCAGTTCGGAAAAGGTGTTGACGTTGTCC
GGGGTGTCCCGCGTGTTCCACTCCAGGTTCCAGCTGTTAATGACTGTTGGTGACTTTATC
CGCTCGTGGGTCGCTCTACTAGACTACATCACAGATTTCGCGCTCAGACGAAGTCACGAG
GTGTCGGTGGCTGCTCTCAAGTCGTTCCAGGAGGTGGTGTCGGCTGCAGGTCGAGCGGAG
GGCGAGGTCCCGCGCCGCGTGTGGTCGGCCGCCTGGAACGCCTGGACGGCCATCGCCACG
GGGCTCGCGACTCCGCCTGGGTGTGTGGACGACAAGCCCGCGGAGCTGTTCTCACCGTCG
CTGAACTTCCTCACCACCCTGGTTCAGATCTTCCCCCTCATCTTCCAACACATACGACCC
ACGTGA
Protein sequence:
MAFVSAVTGDDSTKKFMDVLQNDFKTLSLETKKKYPQIREACDEAIEKLALASNNPQASL
YGVVNQILYPLVQGCESKDVKIIKFCLGTIQRLIAQQGIDAKGARHIVDCLYNLGHSGML
ELKLLQTAALLMTTSDLVHGDTLARTMVLCIRMVSTTETRDISTSHAAVATVRQLVALVF
ERALAEANGTLKVNPADVRIQANSKAPKELKPCAVDAYLILQDIIQLINGDAANWLVGIS
DVPKTFGLELLDTVLTDFSDVFFKISEFRFLLKEHVCALIIRLFSPNVKYRAAFPSPHIP
GGGAAPGAERPHFPVTMRLLRLVSVIVHKYHDVLMTECEIFLSLSIKFLDPDKPLWQRAL
ALEVLHRMTVQPDLLKAFCECYDMKPHATNIFQDIVNALGAYVQSLFVASQVNTSAGSSS
IPQQAGFYWKGVWLPLCVTFEPGVAKSVYIEMLDRTEAPSIQEGYGISVAYACLVEIIRS
IAITIEGEEYFRLQELYDDTQNDDEKEVNSNRTTNNNMKDSNSKADTKELINNGHSTADQ
NSNVMKIQPDDEDRERQLKLQLIKSSWCGLVWGLSVLAEASIGELEHVLRAVQTLARVSG
KMGVTNARDACVGALCRCALPAQYCVPVLGALAALACPWPGARPPAPAPDLRHHVVWVGT
PLPCSQPTGQQQSFVMVTSRHVSALRALLTAAARDGDALQHAWLPVLTTLQHLVWILGLK
PSTGGSMKASRASADANAVMSTSAVMADLPGQQVPVAESLGVMSALSAMLSRVFEASKNL
DDVALHHLIDALCKLSNEAMELAYSNREPSLFAVAKLLETGLANMHRIEVMWRPITNHLL
EVCQHPHIRMREWGVEAITYLVQAAFQYHHNHPELVTEARERLVLEPLGELCSVRHCDVR
ARQLECAARLLHSRGDQLGAAWPLMMEIISAIGDHHSEQLVRSAFQCAQLVAGDLLGCAG
PRCLRRVLAAAAAFARQTKELNISLTAVGLMWNISDYLYHNRDKLSAALVNESVPDVQPD
LPPLDRLWMCLYIRLSELCTEARAPVRRAASQTLFSCIGAHGSLLGRPAWRSLLAVLFPM
LDQVRRHSDVASSEKVLTLSGVSRVFHSRFQLLMTVGDFIRSWVALLDYITDFALRRSHE
VSVAALKSFQEVVSAAGRAEGEVPRRVWSAAWNAWTAIATGLATPPGCVDDKPAELFSPS
LNFLTTLVQIFPLIFQHIRPT