| New model in OGS2.0 | DPOGS209793 |
|---|---|
| Genomic Position | scaffold83:- 90394-98399 |
| See gene structure | |
| CDS Length | 2901 |
| Paired RNAseq reads | 325 |
| Single RNAseq reads | 871 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008018 (0.0) |
| Best Drosophila hit | CG14516, isoform A (5e-51) |
| Best Human hit | thyrotropin-releasing hormone-degrading ectoenzyme (2e-33) |
| Best NR hit (blastp) | AGAP002508-PA [Anopheles gambiae str. PEST] (6e-65) |
| Best NR hit (blastx) | BtS-APN1 [Ostrinia furnacalis] (2e-62) |
| GeneOntology terms | GO:0004177 aminopeptidase activity GO:0008270 zinc ion binding GO:0008237 metallopeptidase activity GO:0006508 proteolysis |
| InterPro families | IPR014782 Peptidase M1, membrane alanine aminopeptidase, N-terminal IPR001930 Peptidase M1, alanine aminopeptidase/leukotriene A4 hydrolase |
| Orthology group | MCL40218 |
Nucleotide sequence:
ATGTCTTTAATATTATATATTGATACGAGAAGTCTTCCGATAAGTGAATACAGTGTGAAA
GTAACTGAAAATCAATATTCCAATGAAGGTGTTTCACAGCTAGGAGAACAAAAAACAATT
TATCAGAAGAAAGTAAATAATGTTGAAGAATCTAATGTGATAAATAAAGAACAATCAATT
ATTAAGGCAACTCTAGAATCGAATATTCGGAATTCTAATGTCAGACCGGGCCAAACAGTA
AGATCGTATGCAGTTTCTATAACAAGAAATGGAAACAACTTCAATGGAATTGCAACAATA
GATTTAGATTTGACTGAACAGACCAGGGACAATGCTATAAGATTTAATATACTAGACATG
AATGTACAATCTGTGAAAGTCGGAGTCTTAACAGATGCAAATGCTATTAATACTAATTTC
AATATAAACAACAATAACTTAGTAATTCAACCAAGTCAATCAGGAACTCGTTTTGTTGTA
ATTATTGAATACACCGGACAGCTGCGGAGAGATGGTAATGGACTGTACTTAGGACAATAT
GATAACAGTGACTATGTAGCAATGAATCTTCATCCAATGAATGCAAGAAGAGTATTCCCT
TGTATGGACGAGCCTTCTCTTAGATCAAGGATAACGTTCACGTTCAATAACATGGAATAT
GAGACTATGGTCTCAAACAGTTTATTGCAAGCTGAAAGCCAGACAGCATTCAGAGCCTTA
GAAACTCCCTCTCATGTCTGGGGTATGGTGGCTCATAATTTAGTTAGCATTAGTGTACCA
GTGGGAAATGTGATAATATATGGACGGCAAGGAATAGGAAATCAGGATGCTCAAGCGGCT
GCAGCGATAAACTATTACTTTAATGCATTTTACGAATGGACTCAAACATCTTATTTCCAA
ATCGTTAACGAACAAGACAATAGGTTGCATATTATGGCTGTTCCTGATATTAATAGGGAA
TGGTACGCGTTATCTACAATCTGCATTTGGGAACCCTACATTTTTATGACAACCAACCAT
GCGGTCAAACAAAGGAAAATTGCTCTTGTCACAATAGCGGAGGCAATGTCACGACATTGG
TTCGGATATGTTGTTTATCCTGAAAATTGGCGTCACCAGTGGGTCGTTACAGGTTTAGGA
AGCTACGTAGCATATGATATTGTAAGAGAGTTCCAAACATCGTCAGATCCAGAAGAAAAT
GCAAACATGCTGGACGTCAATACAATATTTACTACTGACATCATTCAGGAGAGTCTTCTT
CAGGATGCTTATTCCATTTACGATCCACTACTTGTAGGAAATAATATCTTTCAAAACAAT
GCCGTACGTTTCCATTTGAACAGTCTGCTAAAATATAAAGCACCTGCAATAATACGAATG
TTAAGTGGGGTTCTGGGAGGTGATACGGATTTAGTCAAAAATATAACCAGGGCCTTAATC
CCTGCAAATCATTTGGAGGCAGTTTCTACCCAAAGTTTATTTAACGCTGTCAATAGCGTC
TTCTCTGGGAATAATATACTTAATAATGCTCAGGAGTTTATTACAAATTGGATAGATAAA
ACTGGTTACCCCGTGATTCGGGTCGTACATAGACCAGGAGGAGTTCAAGTTACGCAGGAA
CATTTTAGTTTTACGACTTCTTCAAGACCATCAAACTTCCGAATTCCTTTGACATATACA
ACAAGAAATGAGCCCAATTTTAATAACCTATTTCCATCAGAAATTATGGATTTAGTGAGC
GTGGTTACTACGAACCTTGGGGAAGATGATTGGATAATATTTAATATACAAGGACAGGGT
TATTATCGAGTTAACTATGATGATGTTTTATGGCAGAGGATTATCAATGCATTACAGGAT
GAAGAGCAAAGAGAGAAAATACATCCGCTTAATCGTGCTTCTATTTTAGATGACGCTCTT
AATTTAGCAAGAGCTGGAAAATTGGATTACAGTATAGCGTTTGAAATAGTCCTAACTATG
GAATTGGAAACAGATTACGGTGTTTGGAAGACTTTCGTTAGAAATATGGACTTCATAAGG
AAACGATTAATGACATTTGCAAACGATAACGACAGAGATAGTCAAGCCTATGCGAAACTT
TTGGAGAAACTTATTGTGTCAGTTGAAGAGAAATTAGGTTTTGAGCCACAAAATTCGGAC
ACAGCAATGGTATCACTCACAAGAGCCTTGGTGATGGAGCATGCATGTGTATCCGGCTAT
GAACCTTGTATTGCTGCAGCCGTTGATATGTTTTATGATCCAAACAATGATGGCGAAGTG
AATCCCGAAATACCGTTAGAAATAAGGCCAGTTGTATATTGTACAATGGCTAGAGAAGGA
GATGAAGAAGTGAGAGCAGCCCTCAGAAGACGCTTAGAACAAGAAACATCCAGGTACGAG
CGACTGGTTATATTGGAGTCTTTTGCCTGTTCAGAAGATGCTGCGTTTATTGATGGGTTA
CTGGCAGATACAATTGCGGCGAACAGCCCTTACGTTATTGAAGAGAGGTTCAAGATATTT
GTCGCAGTCGCCTCCTCTAGTTTTAGAAATACAAATCGCGCACTAAACTTTTTGAGGCAA
CGAACAAATGAAATAAGAAATATGTACGGTGGCGGTGAAAAACTCGATCAGGTTATATTG
ATTATGGCAGAAAATGCAGTGAATCAACAGATAGGGGAAGATTTTACCACATGGGTGAAT
TCGCAACCGGTGATTAATAACCTTGAAGATTCCAGCATGGTCGCTGTTAAAGCAAGGAGT
TTAATAGCAGAAAACGTAAGTTGGAAAAATGCACATCTGTCGAATGTATACGATTGGGTA
GAGCAAAATAATGGAAACACCTTTTTGGTGTCTTTTGCTTTGCTAGGTCTATCTTTGATC
GTTACCATTTTTAATAATTAA
Protein sequence:
MSLILYIDTRSLPISEYSVKVTENQYSNEGVSQLGEQKTIYQKKVNNVEESNVINKEQSI
IKATLESNIRNSNVRPGQTVRSYAVSITRNGNNFNGIATIDLDLTEQTRDNAIRFNILDM
NVQSVKVGVLTDANAINTNFNINNNNLVIQPSQSGTRFVVIIEYTGQLRRDGNGLYLGQY
DNSDYVAMNLHPMNARRVFPCMDEPSLRSRITFTFNNMEYETMVSNSLLQAESQTAFRAL
ETPSHVWGMVAHNLVSISVPVGNVIIYGRQGIGNQDAQAAAAINYYFNAFYEWTQTSYFQ
IVNEQDNRLHIMAVPDINREWYALSTICIWEPYIFMTTNHAVKQRKIALVTIAEAMSRHW
FGYVVYPENWRHQWVVTGLGSYVAYDIVREFQTSSDPEENANMLDVNTIFTTDIIQESLL
QDAYSIYDPLLVGNNIFQNNAVRFHLNSLLKYKAPAIIRMLSGVLGGDTDLVKNITRALI
PANHLEAVSTQSLFNAVNSVFSGNNILNNAQEFITNWIDKTGYPVIRVVHRPGGVQVTQE
HFSFTTSSRPSNFRIPLTYTTRNEPNFNNLFPSEIMDLVSVVTTNLGEDDWIIFNIQGQG
YYRVNYDDVLWQRIINALQDEEQREKIHPLNRASILDDALNLARAGKLDYSIAFEIVLTM
ELETDYGVWKTFVRNMDFIRKRLMTFANDNDRDSQAYAKLLEKLIVSVEEKLGFEPQNSD
TAMVSLTRALVMEHACVSGYEPCIAAAVDMFYDPNNDGEVNPEIPLEIRPVVYCTMAREG
DEEVRAALRRRLEQETSRYERLVILESFACSEDAAFIDGLLADTIAANSPYVIEERFKIF
VAVASSSFRNTNRALNFLRQRTNEIRNMYGGGEKLDQVILIMAENAVNQQIGEDFTTWVN
SQPVINNLEDSSMVAVKARSLIAENVSWKNAHLSNVYDWVEQNNGNTFLVSFALLGLSLI
VTIFNN