New model in OGS2.0 | DPOGS215355  |
---|---|
Genomic Position | scaffold2166:- 489-19638 |
See gene structure | |
CDS Length | 2889 |
Paired RNAseq reads   | 2638 |
Single RNAseq reads   | 7827 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA008776 (0.0) |
Best Drosophila hit   | CG42595, isoform F (0.0) |
Best Human hit | metal transporter CNNM2 isoform 2 (5e-141) |
Best NR hit (blastp)   | ancient conserved domain protein 2 (cyclin m2) [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | ancient conserved domain protein 2 (cyclin m2) [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0005575 cellular_component GO:0008150 biological_process GO:0003674 molecular_function |
InterPro families    | IPR014710 RmlC-like jelly roll fold IPR000595 Cyclic nucleotide-binding domain IPR000644 Cystathionine beta-synthase, core IPR018490 Cyclic nucleotide-binding-like IPR002550 Domain of unknown function DUF21 |
Orthology group | MCL10748 |
Nucleotide sequence:
ATGCAAGTGTCCGCTAAAAATAATTTATCGGTTGAACCATGGATAGTGTCTTTAAACGTA
GTGGCGAAATCTTGTGTTGATGTTAAGTGTAAATATTTATTGTTAGTTAATGGCAGTGAG
TTTTTGGGGCACAATTCTTGGAAATTAACGTCCAAAGAAGGGTCTAGAGGCAGTTATTGT
GATACTATATATCCAAATTATGAATTACACGAAGTAGAAACAACACAATGGTTTTCAAAG
ATAAAAATATTAATACCGAATGTGAACGAAAAAATATATATTTGTCTGAGACATAACAAA
CAAAAGAATAATCCGGTGAACGGATTATGGATACATCAGGGCGTTGAATTATTTCTCAAT
CCCAGCGGCGACGATAATATATTACAAGAAAATAGAACCGAATCGTTAAATTTAATGAAA
GATCAGATGGCGAAGGATATTGAGCTTCAGGAAACATCAACCTGGTCAGATCTTTCTAGA
GACATTAGTGTAAACTATATCAATGCGGTTAGACCATCAGACGAGGAGGCCAAAGATATA
GAGGTCCTGAGAGACAATAAATATGTACCTCTGAATGATATAGGAACAGAATTCATAGAT
AGAAACGATATTAATGATGGTATAGAAAGCTTCAATGATAGGAGGAGAGAAAATGATGAT
AAAGGAGATAGTAATGATATAAATGATAGATTGAAAAGAGATATCATAAAGGATCTCAAT
CATGAGATGTGGAAAATGAATGATGGCAAGGTACCGGAGAGGCCTCCCGAGATGTTTCAG
AACGACGGTGTGGCTAACGTGGTCAATCCGCAAGTTGGTGATTTCACTGTGGTTAGATCT
GATGCTGTACCGATATTTGTTGAGGGTCTGAGGGTGGAGGACGCAGCGAAAGAACCGAAG
ATCATAGAAGATGGTATACCAAGCGTTTTAGCTGATACGAAGGTTGTGCTCAGGTTATTC
GGCCAAGGTTTCACTCCGAGGACGGTAATCGCATTCACGCAAGATCCCATGGACTACGGC
CAGCCGTGCAAGTTTCTTGTTAAGGGCGAATATATGGCTATGGAGGGATCTGTAACAAAA
TCTTCAGTACTATTCGATATTATAGCTCCATCACCGATAGTAGGTTCGAAGTTATATATA
TGCGCAAAAAATTTAAAACCGGGCGTCAGTGATCCTAATCAGGACGAGGAGAAATACATT
CACCAGGGTACTGAGAATTTTAAGATATTGGCTACCCACAACAAATTATTGCCGCTTTGG
GTGTCACTAACACTGATTCTCGTCTGTCTGATGTTCTCCGCTCTGTTCTCCGGATTGAAT
CTCGGCCTGATGTCTCTGGATAGGACGGAACTGAAAATCATATCCAATACGGGAACAGAA
CAGGAGAGGAAATACGCCAGAGCGATAATGCCTGTCCGTGATCATGGCAATTATTTACTA
TGCAGCATTTTATTGGGCAACGTCGCAGTCAACTCCACATTCACGATACTCCTGGATGAA
TTGACTTCCGGTCTGTTTGCCGTTATATTCTCGACGCTGGCTATAGTACTCCTGGGTGAG
ATAACACCGCAGGCTATATGTTCGAGACACGGGCTCATGGTAGGGGCTAAAAGCATCGTC
ATCACCAAGGCGGTGATGGCGCTCACAGCGCCACTGGCGTTTCCGGTGAGCAAACTGCTG
GATTACTTCCTGGGTGAGGAAATTGGCAGCGTTTATAACAGAGAGAGGCTCAAGGAACTC
GTGAAGGTTACTACGGACGTCAACGACCTGGATAAGGACGAGGTGAACATCATCTCCGGG
GCGCTGGAGCTTAGGAAGAAGAAGGTCTCGGACGTGATGACGAAGTTGGAAGACGTGTTC
ATGCTGCCTATAACGTCTGTGCTGGACTTCGAGACGATGTCCGAGATCGTGAAGTCTGGT
TTCTCCCGTATCCCGGTATACGAGGGCACCCGCACCAACATCGTGACCGTGCTCTTCATC
AAGGACCTGGCGTTCGTCGACCCTGATGACAACACTCCTCTGAGAACCCTCTGCCAGTAT
TACCAGAACCCCTGCAACTTCGTCTTCGAGGATGTCACGCTGGATGTCATGTTCAAACAG
TTCAAAGAAGGTCACAAGGGTCATATGGCGTTCGTCCACCGCATCAACAACGAGGGCGAG
GGCGATCCGTTCTACGAGACCGTGGGTCTGGTGACGTTGGAGGACGTCATCGAGGAGATG
ATACAGGCTGAGATCGTCGATGAGACGGATGTGTTCAGCCACAAAGGTCATATGGCGTTC
GTCCAACGGATCGAGGAGGGCGACGGCGACCCGGTGTACGAGACCGTCGGTCTGGTGACG
CTCGAGGACGTCATCGAGGAGATGATCCAGGCTGAGATCGTTGATGAGAGCGATGTTATA
AGTGACAATCGCACCAAGAAGCGCCTCCTCCGCCCCATGAACAAGCTGCACGACATCGCA
GCGTTCGCCGGCCACCAGCACCAGCGAGTGCACGTCTCCCCACAACTTATCCTCGCCACC
TTCCAGTTTCTCAGCACCAGTGTTGATCCCTTCCGGGCTGATATGATATCTGAGAACGTC
CTGCGTCGCCTGCTGAAGCAGGACGTCATCCAGCACGTGAAGCTGAGGGGTGATGAGGAT
AAGAACGACCCCAAGAGATACGTCTTCCAAGAGGGGAAACCGGTGGACTACTTCGTGCTG
ATCCTCGAGGGGCGAGTGGAGGTGACGGTCGGCCGAGAGAACCTCATGTTCGAGGCCGGA
CCCTTCACGTACTTCGGAGTGCAGGCGCTCACGCAGAACGTCGGAGTCGGTGAGAGACAG
ATGGAGATAGAGAGAGATGGGTGGAGAATAGAAATAGATAATTTATGTATAAGAATATCA
TTTATATGA
Protein sequence:
MQVSAKNNLSVEPWIVSLNVVAKSCVDVKCKYLLLVNGSEFLGHNSWKLTSKEGSRGSYC
DTIYPNYELHEVETTQWFSKIKILIPNVNEKIYICLRHNKQKNNPVNGLWIHQGVELFLN
PSGDDNILQENRTESLNLMKDQMAKDIELQETSTWSDLSRDISVNYINAVRPSDEEAKDI
EVLRDNKYVPLNDIGTEFIDRNDINDGIESFNDRRRENDDKGDSNDINDRLKRDIIKDLN
HEMWKMNDGKVPERPPEMFQNDGVANVVNPQVGDFTVVRSDAVPIFVEGLRVEDAAKEPK
IIEDGIPSVLADTKVVLRLFGQGFTPRTVIAFTQDPMDYGQPCKFLVKGEYMAMEGSVTK
SSVLFDIIAPSPIVGSKLYICAKNLKPGVSDPNQDEEKYIHQGTENFKILATHNKLLPLW
VSLTLILVCLMFSALFSGLNLGLMSLDRTELKIISNTGTEQERKYARAIMPVRDHGNYLL
CSILLGNVAVNSTFTILLDELTSGLFAVIFSTLAIVLLGEITPQAICSRHGLMVGAKSIV
ITKAVMALTAPLAFPVSKLLDYFLGEEIGSVYNRERLKELVKVTTDVNDLDKDEVNIISG
ALELRKKKVSDVMTKLEDVFMLPITSVLDFETMSEIVKSGFSRIPVYEGTRTNIVTVLFI
KDLAFVDPDDNTPLRTLCQYYQNPCNFVFEDVTLDVMFKQFKEGHKGHMAFVHRINNEGE
GDPFYETVGLVTLEDVIEEMIQAEIVDETDVFSHKGHMAFVQRIEEGDGDPVYETVGLVT
LEDVIEEMIQAEIVDESDVISDNRTKKRLLRPMNKLHDIAAFAGHQHQRVHVSPQLILAT
FQFLSTSVDPFRADMISENVLRRLLKQDVIQHVKLRGDEDKNDPKRYVFQEGKPVDYFVL
ILEGRVEVTVGRENLMFEAGPFTYFGVQALTQNVGVGERQMEIERDGWRIEIDNLCIRIS
FI