| New model in OGS2.0 | DPOGS201153 |
|---|---|
| Genomic Position | scaffold3355:+ 11364-25671 |
| See gene structure | |
| CDS Length | 1755 |
| Paired RNAseq reads | 548 |
| Single RNAseq reads | 1644 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002910 (7e-95) |
| Best Drosophila hit | CG5002 (7e-88) |
| Best Human hit | sodium-independent sulfate anion transporter (1e-66) |
| Best NR hit (blastp) | PREDICTED: similar to sulfate transporter [Nasonia vitripennis] (1e-119) |
| Best NR hit (blastx) | sulfate transporter [Culex quinquefasciatus] (2e-95) |
| GeneOntology terms | GO:0015381 high affinity sulfate transmembrane transporter activity GO:0016021 integral to membrane GO:0055085 transmembrane transport GO:0005215 transporter activity |
| InterPro families | IPR011547 Sulphate transporter |
| Orthology group | ND |
Nucleotide sequence:
ATGGATTTTGACGATCCGAGGCAGCCGCTATTGGGCTGTCCTCCTCGTAGTAAGTGGCGC
CGCGGGGTCAGTAGGATGTGTAACGTGGAATCATGGAGACGAAGGGTTCCTATCACCATT
TGGCTGCCTCAGTACAATCTGGAGAAGTTGCTGCGTGATGCCATCGCTGGTATAACGGTG
GGTCTAACGTCAATACCGCAAGGGATAGCGTACGCACTTGTAGCAGGACTTCCGCCACAG
GTGGGCCTGTACTCCAGTATATTCCCCGGCGTCATGTACGCTATATTCGGCAGCTGTAAG
CAGGTGACTGTTGGCCCGACGGCCATATTGGCAGCGTTATTGACCAAGTACGTAGCACAA
TCAGAAGATTTTGCGTACTTGGCATCCTTTTTGACTGGCTGTGTTATATTACTACTTGGT
GTTTTGCAATTAGGTTTCCTTTTAGATTTCATATCAAAGCCAGTTATAAGCGGGTTCACT
GCGGCCGCCGCCTTGCAGATATCAGCTTCACAATTAAAATCGTTGTTCAACACGACCGGT
AGTTCCGGTGGGACGTTTATAAAGGCTGTTATAAATTTCTTCTCAAATATAAAATCAGTT
CAGCTGTGGGACACCTTACTAGGCGTCCTCACCATCGTATCTCTGTTTCTTCTTAAATGC
TGCTCCCCCTCCTCCCCCCTCTCGTGTTGTGCCACGTGTCGCGTGCACTCGGTCCGCGCT
CGTAACGCCGTAGTGGTGTTCGCGGCTACGGCCGTGGCGTACTTGTTCTACATCTACGGC
ATGACGCCGTTCAAACTAACCGGTAAAATAGAGGGTGGTTTGCCTAAATTCGGTCTACCT
CCATTCCAGACTGTAGTAAATAATAATACTATTGGTTTTGATAAAATGTTGGATGTCTTA
GGCCCGGAAGGTCTCGTGATGCCGCTAGTAGCTATACTGGAGAGTATCGCTATTGCTAAA
GCCTTCGCCGGCACAGCATCAGTGGACGTCACGCAGGAGATGATAGCTGTGGGTATGTGT
AACATAGTGTCGTCGTTCGCGCAGAGCATGCCGGCCACGGGCTCCTTCACACGGACCGCC
CTCAACCACGCCAGCGGGGTCATGACGCCAGCCGGCTCCCTGTTTAAAGCGGCGTTAGTG
TTACTGTCAGTGACGTACTTGTCCGAGGCGTTCCGCTTCATCCCTCGCTCGACCCTGGCC
GGCATCATCATGGTGGCGATGGTGTCCATCGTCGACTTCTCTATTCTACCGCCACTATGG
AGACACAGCAAGTCGGAACTGTTCGTCTGGTTTCTGACCGTCGTGGTGGGTGTGACAGCC
GGTCTGGAGTACGGGATAGCGGCCGGCGCGGCGGGTGACGCTCTAAGAGTGCTGTACTCC
GCCTCCCGACCGCGGCTGGTGACTAAACAGTTCAAGGTAGGCGCGGTGGATGTGGCGCTG
GTGGCTCTACCGGAAGTTGTTTGTTACGCGAGTGTGGAGCACGTGGGGAGAGTGCTGAGG
ACCGTCCGCGGGCACGTTGTTGTATTGGACGGAAGGACCAACATACACGCGGATGTAGGA
GTTATAGAGACCGTGAACTCTGTGATCTCTGACGCCGAGGGTGGAAAGCGTCGTTTTCTT
CTGTGGTGTGTTGAGGAAGGTCACGGCTTCGACGGAATCAACGCGACCCTCGTCACCGGA
GATGACCTCCAACGAATAGTCACAGAACACTGTATTGATAACAGAAGAGTATCTTCACTA
AGCGGTGTGAGCTGA
Protein sequence:
MDFDDPRQPLLGCPPRSKWRRGVSRMCNVESWRRRVPITIWLPQYNLEKLLRDAIAGITV
GLTSIPQGIAYALVAGLPPQVGLYSSIFPGVMYAIFGSCKQVTVGPTAILAALLTKYVAQ
SEDFAYLASFLTGCVILLLGVLQLGFLLDFISKPVISGFTAAAALQISASQLKSLFNTTG
SSGGTFIKAVINFFSNIKSVQLWDTLLGVLTIVSLFLLKCCSPSSPLSCCATCRVHSVRA
RNAVVVFAATAVAYLFYIYGMTPFKLTGKIEGGLPKFGLPPFQTVVNNNTIGFDKMLDVL
GPEGLVMPLVAILESIAIAKAFAGTASVDVTQEMIAVGMCNIVSSFAQSMPATGSFTRTA
LNHASGVMTPAGSLFKAALVLLSVTYLSEAFRFIPRSTLAGIIMVAMVSIVDFSILPPLW
RHSKSELFVWFLTVVVGVTAGLEYGIAAGAAGDALRVLYSASRPRLVTKQFKVGAVDVAL
VALPEVVCYASVEHVGRVLRTVRGHVVVLDGRTNIHADVGVIETVNSVISDAEGGKRRFL
LWCVEEGHGFDGINATLVTGDDLQRIVTEHCIDNRRVSSLSGVS