| New model in OGS2.0 | DPOGS207447 |
|---|---|
| Genomic Position | scaffold2462:+ 2176-22305 |
| See gene structure | |
| CDS Length | 2151 |
| Paired RNAseq reads | 4235 |
| Single RNAseq reads | 10667 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001190 (0.0) |
| Best Drosophila hit | SP1173, isoform B (3e-79) |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (7e-135) |
| Best NR hit (blastx) | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (1e-127) |
| GeneOntology terms | GO:0005575 cellular_component GO:0003674 molecular_function GO:0008150 biological_process |
| InterPro families | IPR016196 Major facilitator superfamily, general substrate transporter IPR011701 Major facilitator superfamily MFS-1 |
| Orthology group | MCL16028 |
Nucleotide sequence:
ATGTCGTTGGACATTCAGTTGCTTGACGATCTGTTTATTTTATATTTGAACATACAGCAT
GATGTCATCGATGACGTCACGTCATGGCCACGTTCAGCCAGTAAACCGGTCCCATTGCCG
GCGACCTCCAATTATGTTAATGTTATTCCTCATCCTTTCTTCTCCACGTTCATAGTTTGT
TTGCCGCCCGCGCAGTCTACTAGAAAATTGGCCATTACCACAAGTATAGGATGTATCTTC
CCATATCTTCCGCTGCACATGCTGCACATTGGTTTGGACCGCGGTGAGGCGAGACTTGTG
TCAGCGATCGCGCCCTGTATCGCACTACTTGGACCCGCCATACTTGGACCGCTTATTGAC
AAGCTATCAATAGGTCGTGGCTCCACCGGCGGTGGGACCGGGCCGAGCGGCTCTGGTCGC
CTACTCCGTATTGTAACAGCTGTCTGTTTAATACTGAGCGCTGTCTTCTACACGCTCCTG
CTGGCTGTGCCTTACACTGAACGACATGAAGCTCGCCGGCCTCAAGTGCTGTTCATGTGT
GACGCGTCTGGTGCGTACGTGATGCAGGAGGTCTGTGGAGAAGGGATGCAGTGCAAACGT
TGGCAGGGAGAAAAGTCTGGTGTGTTGGCTGTGAGTGCGTGCGAGTACGGCTGTGCGGAT
GACAACCTCACCTGGGTGATGCGGCCATTCACCACAACATCGACCACCACCACCCTCAGC
CCCATGTACAACAGCGTTGCCAACGCCACTACCCCTTCAGATCTGGTGACCGAGGAACCG
GAAGACGAGGACTACTTCGAACTGAACCCTCCACACCTGTGCTACAACGGACAGTGCTTA
GTGTACATGCAACATTCCGCCAGGCTGAGAGTTCCGCTGTCACTGCTGGCACCAGAACCG
CCAGGAGAGAACTCCACAGTCGAGAACAATTGGTGCACATATCGGACGGGTGGTGCGTCA
AAGTGTTTGGTACCGCCGAGTCGTTTGGCGGAGATCTCAGTGGAGGGTGAAACGTGTAAG
CCCGCGGTCAGGTGTCAGGTCATGGATCCCTACGACGAACCGGACGGAGTGTTGGCGGAC
GCTGAGTGTAGGCTCGTTGTCGGAGAACCCACCACCACCTTCTGGACTTACCTCGTCATC
AGGGTGTTGGCGGATATATGGCCAACCGCCGGGCTGGCGTTACTAGGCGCGGCCTGCGTG
ATCGCTACTAGAGAGACTTCGCTGGGTCGTGGCGATGTTGGCCGGCAGTTGGCGTTCGGG
ACACTAGGGTTGGCCATATTCCCGCCACTGGCCGGGTACGCCGGCGAACAGATGACGGAA
TCTCCGTACCTGGTCCCCTTCCTGTTGCACGCCGTGTTCATGGTCATTGGAGCTCTCATC
CTTTTGTGCGACACTCACATGCCGCTGTCGACCCCTGAGTGGTGGTGGCACACAGCGACC
GGGGTGCTGGCGCTGCCGATGTCGGCTGTCCGGAGATACGGCGCTGAAACAGCAGCCGTT
AGCGCCGTGCTGGTGCTCCTGGGAACACTCTGGAGCGGCATCGACGCTTACTTACCATGG
ACCGTGTTCCAACTCAACGGAACCCTAACGGAGGTTGGTTTGACTTTGACTGCCGGTTCG
CTGCCCGCCCTGCCGGCGCTGTTCTGGGCGGAGGCTCTCGTGGACTACGTGGGACATTCT
AACCTCTTCATCACAGCCTTCACCTTCTACTGCCTACGATACACGGGTCTAGCATACGGT
GACTCTTACACCTGGATCGTTGTGTGCGAGCTGCTGGAGGTGTTCACTCTCAGCCTGGTG
TGGGTTACGGCCATGTTGTACTTCCGACATCTGGTGCCCAGAAAATACACCACCACTGGC
CAAGCGCTGCCCGTTATAGCACATTTCTGTATTGGTACGATCTATGAATACACTAAATAT
ATCATGCGAAAACTAGTGAGGTACAGAAATATCATGCTGGCGTTGTTGGTGGCGGCGGTC
TACCTCGCGCTGTACCACCTCCTGCTGGCGCCGCGCTGCGCCTCGCCAGCTCAATCCCCT
CCCAACCATCTCTTACAAGGCCTGAACACCAACGGCAGTTCGAACGGCAACTACTCTCCG
ATGCGAGTGTATCACGAGGAACGTTCCAGAAAGGGACATTTCCGCTATTAA
Protein sequence:
MSLDIQLLDDLFILYLNIQHDVIDDVTSWPRSASKPVPLPATSNYVNVIPHPFFSTFIVC
LPPAQSTRKLAITTSIGCIFPYLPLHMLHIGLDRGEARLVSAIAPCIALLGPAILGPLID
KLSIGRGSTGGGTGPSGSGRLLRIVTAVCLILSAVFYTLLLAVPYTERHEARRPQVLFMC
DASGAYVMQEVCGEGMQCKRWQGEKSGVLAVSACEYGCADDNLTWVMRPFTTTSTTTTLS
PMYNSVANATTPSDLVTEEPEDEDYFELNPPHLCYNGQCLVYMQHSARLRVPLSLLAPEP
PGENSTVENNWCTYRTGGASKCLVPPSRLAEISVEGETCKPAVRCQVMDPYDEPDGVLAD
AECRLVVGEPTTTFWTYLVIRVLADIWPTAGLALLGAACVIATRETSLGRGDVGRQLAFG
TLGLAIFPPLAGYAGEQMTESPYLVPFLLHAVFMVIGALILLCDTHMPLSTPEWWWHTAT
GVLALPMSAVRRYGAETAAVSAVLVLLGTLWSGIDAYLPWTVFQLNGTLTEVGLTLTAGS
LPALPALFWAEALVDYVGHSNLFITAFTFYCLRYTGLAYGDSYTWIVVCELLEVFTLSLV
WVTAMLYFRHLVPRKYTTTGQALPVIAHFCIGTIYEYTKYIMRKLVRYRNIMLALLVAAV
YLALYHLLLAPRCASPAQSPPNHLLQGLNTNGSSNGNYSPMRVYHEERSRKGHFRY