New model in OGS2.0 | DPOGS203940  |
---|---|
Genomic Position | scaffold2:- 38995-65453 |
See gene structure | |
CDS Length | 4197 |
Paired RNAseq reads   | 1118 |
Single RNAseq reads   | 3306 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000748 (0.0) |
Best Drosophila hit   | CG2930, isoform D (2e-114) |
Best Human hit | solute carrier family 15 member 2 isoform a (2e-91) |
Best NR hit (blastp)   | Oligopeptide transporter, putative [Pediculus humanus corporis] (4e-177) |
Best NR hit (blastx)   | Oligopeptide transporter, putative [Pediculus humanus corporis] (3e-171) |
GeneOntology terms    | GO:0005215 transporter activity GO:0005515 protein binding GO:0005624 membrane fraction GO:0005887 integral to plasma membrane GO:0006857 oligopeptide transport GO:0015031 protein transport GO:0015293 symporter activity GO:0015334 high affinity oligopeptide transporter activity GO:0016020 membrane GO:0042891 antibiotic transport GO:0042895 antibiotic transporter activity GO:0042936 dipeptide transporter activity GO:0042938 dipeptide transport |
InterPro families    | IPR016196 Major facilitator superfamily, general substrate transporter IPR000109 Oligopeptide transporter IPR006994 Basic helix-loop-helix, Nulp1-type IPR018456 PTR2 family proton/oligopeptide symporter, conserved site |
Orthology group | MCL10348 |
Nucleotide sequence:
ATGTCCCTGCGCAATGTACGTAAGCTTTATGGTGCAACAGCTCTCCCTCCTCCAAATGAA
AGTTCTGATGAAGAGTATGAACCCCTTTATGCAAAAAATTCTGCACGTAGTGCTTATGCA
GGGTTGTTGTTGAGTTCAAGTTCTGAAGATCATGAATCACCACTGGTTAGTGGAAATAAC
TCTGGAGCTGAAGATATGAAAAAGAAAAAAAAGAAAAAGAAGAAGAGGCAAGATAAAATA
AAACGATCATCACAGAATTCTTTTAATGGTGGCAAGTTGGATGAGATTGATAAATCCTTA
ATGGAAGTCAATGCACTGCTTGGTGAACCTGAGCTGGAGGCTTCATCGGAGTCAAAATTT
AAGCCAGACTTACTACATATTCTTTTCTCGGTCAAATATAAACATCTTAATGTCTCCAAT
GAACTATTGAAAATGTTTGGGCCCGAGACACCTGAGGAGACACCACGACGCGTTGTTCAT
GGCCGACAACCTAATTTGAAACGTATCCAGAAGTATTCTATAATTCCTCAGGAATTTAAT
TTCAAGAAATTGGGTTTGTCAATGTCTGTTGACCGCCGTGATCATGGCATTAGCTATTTC
GTTTATGATCACAGCAGGGAATACCAACGTGTTCACAAAGAATTCATGGTGATGCTTACA
CAGAGGGCTACCCACCTCATGACACCATTTGAGACATCTTTGAAAAACATGCATGTTGAA
GGATTGCTGGAGGCTTCCGATGTGATGTTCCGCTTAGAAGATTACTCTGCTGGTAATAAA
ATCGTGGAACAAGTAATAGCATACATGCAGTTTGTTGCACATCCATCATTCAATGTCACC
GATATGCGAGTACGTCTCGAATACAAATATTTGGAAAACAGACCGTTCCACATTGCTTTG
CTAAAGTACTTACATCTTCTTACAAATAAGGCTTGCCATCGCACAGCTCTTGAAATAGCA
AAGCTGATGCTAAACTTGGACCCTTCCGATCCTTTGGCGGTCATCTTCATTATTGACACT
GTTGCTCTCAGGGCTAGGGAACACCAATGGCTTATAGATGCCATAGATTATCTGAACAAG
GAAAGGGAGGCTGGATTCATGTTTAATATTCAGTTCTCATACGCCCTTGCGTATTTCCAT
GTCCTTACCAAGAACAAGCAAAGTATCAAGAAAGCCGATGAGCTACTACAAAAGGCCATG
GCAGGGTTCCCGTGGGCCTTAATGCAAATACTGCACAGTGCCAACTACACTCCCGATGAA
CGTCTACGAGCTCATCCGCTCTTTAACAGCTACGCTTTTTCCACGACATGTAAGAACCTC
AAAGACCTTATACTTCTTTATGCCACCTTCACCGGAGCTCGCTGGCGTGAACCGCCAGTT
ATGGAGTGGCTAATACGGAACGCCAACGAATTGGCTGATAGATATGACGTTGACTCATCC
ATCAAGGAGCAAACCCAGGGTCTGCAACAGGTGCGTCAAGTTCTATTCCGCGGCTGGCCG
GAGCAAGTTTATCGTCACCTCAGTGTCATCAAGACACTCTCCAACCTTCTGGTTGATGGG
GCGGTGCCACGTGTAGCGGCTACACGCTGCTACGACCCTGTCCCGCCTCGCGACGGCGTC
AACCGTTACGGCTACACTCTCATACCGCACACACACATCAACCTCGGTAACGCTATACTC
ACCGACTTCTTCACATCCCTGTTACCGAACTACGACATACCGCCCGAGGATGAACATCTG
AACCACCGTTTCCGGCCATCCATACTAGATTACCGTCTACCGCAAGAGAACAGAGCAGCT
GACTCCGACGATGGCGACGACGAGGGCGTCGGCCAGACGGATTCAGACGACGACTTTGAT
TTGGACGACGACGACAATAACGATAACCCAGAGATCGTGAATGCTGTGCGCGTCTTCGTA
GACTCTGCCAACATCGACTCCGACGACACTGACGAATCCGACGACATTGATGACTCCGAC
GATATCGATGACTCCGACGACATCGACGACGACGGACCTATATTATCATTATATTTACGA
AACATTTTATGTCTTCATGAGAATGCCGCTACTGTGGTATACCATATATTTATTATGATG
TGTTATACCATGCCGCTGATGGGAGCCGTATTGGCAGATAATTTTATTGGTAGATATCGG
GTAATTCTTTATTTTTCTGTAATTTATTTTATTGGTACAATATTAATATGCTGTTCTGCG
ATCCCGCCGCTTTGTCTTCCGTCAACGTCAACATCTATGATCGGTTTGGCTCTTATAGCA
ACTGGGACTGGTGGCATTAAACCATGTGTTGCGGCATTTGGTGGCGATCAGTTTCGCTTG
CCTAAAGATACGGAAAGGTTGCAGCGTTTTTTCTCAACTTTTTACTGCACCGTTAACTTT
GGAGGATTTATGGGAATGGTGGTGACTCCGGCTCTTCGCAGAAGCTACATGTGCTTTGGG
GATGATGCTTGTTACGCTCTTGGATTTGGTTTTCCGGCTGTTTTAGTTCTCTTATCGATC
ATTATATTTGTGATGGGAAAACCATGGTATAGAATAAAAAAACCACGGGATAATATTACC
ATAAAATTTGTTTCTTGTGCCTGGTACGCTTTCAAAAGGCGTTTAAGATACGATAAAAAT
ATAGATGGTCCCCCTCACAAGCATTGGTTGGATTATTCTATCGATAAGTATGGTGCCAAG
CTAGTTTCTGATATGAAGGTGGTGTTCTCTATTTTGTATTTATATCTCCCTGTGCCAATT
TATTGGTCTTTATTTGATCAACAAGGTTCGCGTTGGACTTTCCAAGCTTCGAGATTAAAA
AGCGAAGTACTCGGAATAACTCTGATGCCTGATCAATTGCAAGTAATGAACCCTGCCATG
GTGTTACTGATGATCCCCGTATGTCCCGGTGGAGCCTGGCCCTTATTGCCAGATCTGGGG
CCTTTACATAAGATGTTTGCTGGCGGCATTCTGGCTGCAATGGCCTTTGTGTGTGCTGGT
ATTTTGCAAATAAGTATTGAGCGTTCTACACTTCAAGTACCAGGACACCAGCAGACTGGG
ATAATCATTATGAACACTCTCGATTGTCCTGTTGATATCGCCGTCAGTGGAGAGGGTATG
GCTCGTGTTGATATTCACGGTACAGCGCTGATGACACCGCTACCAAGTCGGACTTATGGT
ATTGTAGTGTCCTGCCCTCGTGATTGTGCCGGCAGAATAATGAAGAAACATAATTTTGAA
ACTAAATTAAAGACCGTTTCCGAAATGTTTATGCCAATAATTGTCGGTCAGAATTCAGAT
GATGAAATATCCTTATATTTTATGGATCCCGGACCGTACATAAAATCAATGACAGGGAAA
CCGAAATTAAAGGTCGTGTATGTTGGAGATACAGGTCCTAATAAGAATGTTTCGATATGC
GTTGAAACGGAAAAACGTTTGAATGATATTTATTACGTATCAGACTCCCCTATCGATCAC
ATCGGAGAGTCGGCTTACATGTGCCTTCAAACAGGAAAGTTTACTTGGCGTGCTGATAGT
ACAGGGGGTGAAGTATCGGGTGCGGGTGAAGGCTATTTGCGAACCGGAGGAGTTTATGTT
TTATGTCTGAGGGAGCGACTAGGCCGGTTGGATACAGCTGTGCTCCATGCACCAAATCCT
CCTAATGAACTGCACCTGGCGTGGATCGTTCCCCAATACTTGCTTGTGTCTATGGCGGAG
ATCATGTTCGCGGTGTCCGGTCTTGAGTTTTCTTTTACACAAGCTCCGAAAAGTATGAAG
ACGATTACAATCGCAACTTGGTACATGTCAGTGGCTATTGGTAATCTAATTGTCATTCTA
GTGGCTCAAACAAAAGTTTTTGAATCAAGGGCTACCGAATTCTTTGTATATGCAGGCGTG
CTAACGGGCGCTATGTTGATATTCCTATGGATGGCACAAGGCTATTGTTCTAGAACAATG
GAAGAAGACGGATCCTCCACTGAGAGCCGCCCTTTATTACAAAAGCATTCCAGGGTAATA
TCAATACACTCTATGTCTACAAGAAGTATAGCGTACAGTGCTCCTGGAAGTAGTGCAGCA
TCTTGTTTGGGGCTCATGGAGAAAACAGAAGCTGCTGCGTGGCCTTCTCATGGCCTTATA
CACGTGGCAACACCCAGCACCAGCGACATCAAAGCAACAACTCTTGCGAAAGATTAA
Protein sequence:
MSLRNVRKLYGATALPPPNESSDEEYEPLYAKNSARSAYAGLLLSSSSEDHESPLVSGNN
SGAEDMKKKKKKKKKRQDKIKRSSQNSFNGGKLDEIDKSLMEVNALLGEPELEASSESKF
KPDLLHILFSVKYKHLNVSNELLKMFGPETPEETPRRVVHGRQPNLKRIQKYSIIPQEFN
FKKLGLSMSVDRRDHGISYFVYDHSREYQRVHKEFMVMLTQRATHLMTPFETSLKNMHVE
GLLEASDVMFRLEDYSAGNKIVEQVIAYMQFVAHPSFNVTDMRVRLEYKYLENRPFHIAL
LKYLHLLTNKACHRTALEIAKLMLNLDPSDPLAVIFIIDTVALRAREHQWLIDAIDYLNK
EREAGFMFNIQFSYALAYFHVLTKNKQSIKKADELLQKAMAGFPWALMQILHSANYTPDE
RLRAHPLFNSYAFSTTCKNLKDLILLYATFTGARWREPPVMEWLIRNANELADRYDVDSS
IKEQTQGLQQVRQVLFRGWPEQVYRHLSVIKTLSNLLVDGAVPRVAATRCYDPVPPRDGV
NRYGYTLIPHTHINLGNAILTDFFTSLLPNYDIPPEDEHLNHRFRPSILDYRLPQENRAA
DSDDGDDEGVGQTDSDDDFDLDDDDNNDNPEIVNAVRVFVDSANIDSDDTDESDDIDDSD
DIDDSDDIDDDGPILSLYLRNILCLHENAATVVYHIFIMMCYTMPLMGAVLADNFIGRYR
VILYFSVIYFIGTILICCSAIPPLCLPSTSTSMIGLALIATGTGGIKPCVAAFGGDQFRL
PKDTERLQRFFSTFYCTVNFGGFMGMVVTPALRRSYMCFGDDACYALGFGFPAVLVLLSI
IIFVMGKPWYRIKKPRDNITIKFVSCAWYAFKRRLRYDKNIDGPPHKHWLDYSIDKYGAK
LVSDMKVVFSILYLYLPVPIYWSLFDQQGSRWTFQASRLKSEVLGITLMPDQLQVMNPAM
VLLMIPVCPGGAWPLLPDLGPLHKMFAGGILAAMAFVCAGILQISIERSTLQVPGHQQTG
IIIMNTLDCPVDIAVSGEGMARVDIHGTALMTPLPSRTYGIVVSCPRDCAGRIMKKHNFE
TKLKTVSEMFMPIIVGQNSDDEISLYFMDPGPYIKSMTGKPKLKVVYVGDTGPNKNVSIC
VETEKRLNDIYYVSDSPIDHIGESAYMCLQTGKFTWRADSTGGEVSGAGEGYLRTGGVYV
LCLRERLGRLDTAVLHAPNPPNELHLAWIVPQYLLVSMAEIMFAVSGLEFSFTQAPKSMK
TITIATWYMSVAIGNLIVILVAQTKVFESRATEFFVYAGVLTGAMLIFLWMAQGYCSRTM
EEDGSSTESRPLLQKHSRVISIHSMSTRSIAYSAPGSSAASCLGLMEKTEAAAWPSHGLI
HVATPSTSDIKATTLAKD