| New model in OGS2.0 | DPOGS206820 |
|---|---|
| Genomic Position | scaffold1:- 3312146-3321498 |
| See gene structure | |
| CDS Length | 2952 |
| Paired RNAseq reads | 297 |
| Single RNAseq reads | 694 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012763 (0.0) |
| Best Drosophila hit | CG8193 (0.0) |
| Best Human hit | ND |
| Best NR hit (blastp) | phenoloxidase subunit 1 precursor [Bombyx mori] (0.0) |
| Best NR hit (blastx) | phenoloxidase subunit 1 precursor [Bombyx mori] (0.0) |
| GeneOntology terms | GO:0004503 monophenol monooxygenase activity GO:0005576 extracellular region GO:0006583 melanin biosynthetic process from tyrosine GO:0006952 defense response |
| InterPro families | IPR008922 Di-copper centre-containing IPR014756 Immunoglobulin E-set IPR005204 Hemocyanin, N-terminal IPR013788 Arthropod hemocyanin/insect LSP IPR005203 Hemocyanin, C-terminal IPR000896 Hemocyanin, copper-containing IPR002227 Tyrosinase |
| Orthology group | MCL10094 |
Nucleotide sequence:
ATGTCGAACGCCAAAGAAAACCTTCTGCTTTTCTTTGACCGCCCCACCGAGCCCTGCTTT
ATGCAGAAAGGCGAAGAAAAGGCTACCTTCGATTTGCCTGCTAACTACTACCCCGATAAA
TACAAGTCTGCGAGTGCGGCTTTGGCCAATCGCTTTGGTTCAGAGTCCAATCGACGTATT
CCAGTAAGAAACATAGCACTGCCCAACCTCTCCTTGCCCATGGAACTGCCTTACAACGAC
CAGTTCTCACTCTTCGTTCCTAAGCATAGGCAGATGGCTGGCAAACTCATTGATATTTTT
ATGAGTATGCGTAACGTTGAAGACCTCATGTCCATATGCTCGTACTGTCAAATGAGAATA
AATCCTTACATGTTCAACTACTGCCTCTCAGTCGCCATATTGCACAGGGATGATACCAAG
GGCCTGAACATACCAACCTTCGCGGAGACCTTCCCCGATAAGTTCATGGACCCGCGTGTC
TTCAGAAAAGCCCGTGAGGTCAGCACCGTTGTGCAGCCTGGAAACAGACTGCCGGTAGTG
ATCCCACAGAACTACACCGCAGCTGAGTTTGAGCCGGAACAGCGAGTGGCGTACTTCCGA
GAGGATATCGGCCTGAACCTACACCACTGGCACTGGCATCTTGTTTACCCTTTTGATGCA
GCAGACAGAAGCATTGTCAACAAGGACCGCAGGGGGGAGCTGTTCTACTATATGCATCAG
CAGATTGTTGCAAGGTATAGCGTGGAGCGCATGTGCAATGATCTGTCTCGCCCAAAACGC
TACAGTGACTTTCGTGAGCCCATCACTGAAGGATACTTCCCCAAACTGGATTCGCAGGTC
GCTAGTAGAGCGTGGCCGCCGCGTTTCGCTGGTTCAAAAATTCGTGACCTTGACCGTCCA
GTGGACCTGATCGCAGCGGATGTGTCCCAATTAGAGACGTGGAGGGATAGGTTTCTACAA
GCCATTGATGATATGGCCGTTTTACTACCAAACGGTCGTAAAATGACTTTGGATGAGGAC
ACCGGGATTGACGTTCTTGGTAACCTGATGGAGTCATCCATTATCAGTCGCAACCGAGCG
TTTTATGGGGACTTTCACAATATGGGACACGTGTTCATCAGTTATTCCCATGATCCAGAC
CATAGGAATCTGGAACAATTTGGAGTGATGGGCGACTCAGCAACAGCTATGCGTGATCCT
GTATTCTATCGCTGGCACGCGTACATCGATGACATCTTCCAGCTCTACAAGAACAAGCTA
GCACCATATCCCAATGACAGGCTTGATTTTCCCGGTATCCAAGTGCTATCCGTTAGTACT
TCGTCGGGCGCGGGACCGGACCGACTATTAACGCAATGGGAACAGAGCACAATGGAGCTA
GGGCGAGGTTTAGATTTTACACCACGTGGCTCCGTTCTCGCAACTTTCACACATCTACAA
CATGACGAATTTAATTATCTCATCGAGGTTAATAACACAAGTGGGGCGGGCGTAATGGGT
ACGGTGCGTTTGTTCATGGCGCCTGTCGTCGATGAAAATGGAACTCCCCTGACCTTCGAC
GAACAGCGGAAGCTGATGATGGAGTTAGACAAATTCACACACGCCATACCATCTGGTTCG
TCAACCATCCGTCGCTCGAGCACTCAGTCATCTGTTACCATCCCATACGAGCGTACTTTC
CGCTCCCAGGGTTCTCGGCCAGGCGATCCTGGTTCTGTAGAGGCGGCCGAGTTCGACTTC
TGCGGCTGCGGCTGGCCGCACCACTTGCTACTGCCGAAAGGAACCACAAGGGGGTACCCA
GTTGTACTATTCTGTATGATCTCCAATTGGAATAACGACGGAGTAGCTCAAGACCTAGTG
GGTAAATGTAATGATGCAGCCTCGTATTGTGGTATCCGTGACCGCAAGTACCCAGACCGC
CGTGCCATGGGCTTTCCCTTCGATCGTCCTTCCCCTGCCAGCTTGCTTCAGGATTTCCTT
ACTCCTAATATGGCCACCAAACCCTGTACCATCCTTTTCAGTGACAACGTTAGGATACTG
GTCTCATTGTTTCTCAGCATAGACGCAAAGGACTCTAAGGTCGTTAAGGGTGTAAAGGAT
GTTAAGAGTGTTAAGGGTGTAAAAGATGTTAAGGATGCCAAGAAAATAATTCCAGCGGAA
TCTGCTTCAAATCCGATTTACGGATCAGAGCAAAAGGGCAACTATGGCATTGGAGAAAAC
AAAGGATATAAATCAAGGGAAAGGTACAGAAGTTCAGGTTTGCTATCCCAAAATTATGGT
AATAACTATGGGTATGGCTACAATAACGGTAGAAATAATTACGAATATGGAAATAATTAT
GGAAATGGCAATAATAATTATGATTATGGAAACAATAATGAATATGGAAATAGTAACTAC
AGGTCTGGTAATAACAAGAATTATGGAGACGATTATGGATATGGTCAGGATAATATCGGA
TATGGCATCAACAAAAATGGATACGGTGTAAGTGACTACGGGTACGGTGGTTATAATTAT
GGATATGGCAATAATAATTATGGATATGGCAATAATAATTATGGATATGGCAATAATAAT
TATGGATACGGCATTAGAAGTAATGAATATGGCCATAATAACTATGGAAACAGCAATAAA
AATAATGGATATGGCAATAATAATTATGGATATGGAAATATTAATTACGGATATGGCAAC
AATGATTACGGTTATGACAACAACAATTACGGAGACGATGACTATAAAAGGAAATTGAGA
GGACCAGATGAGATTGGTTATTTTGCCAGAGACCCAGCAAGTAGACGTCTCTATGGCAGA
CGAAATTACCAATATAGATTGATCGGCAGGCATGGACTAGGATTTGACAAGCGGACCGTT
AACGCCTACAGTTACGTGGCCCCTATAACTCCTGAGCGGTTGGAAATAATTGGAAACCCT
TACAGAAATTAG
Protein sequence:
MSNAKENLLLFFDRPTEPCFMQKGEEKATFDLPANYYPDKYKSASAALANRFGSESNRRI
PVRNIALPNLSLPMELPYNDQFSLFVPKHRQMAGKLIDIFMSMRNVEDLMSICSYCQMRI
NPYMFNYCLSVAILHRDDTKGLNIPTFAETFPDKFMDPRVFRKAREVSTVVQPGNRLPVV
IPQNYTAAEFEPEQRVAYFREDIGLNLHHWHWHLVYPFDAADRSIVNKDRRGELFYYMHQ
QIVARYSVERMCNDLSRPKRYSDFREPITEGYFPKLDSQVASRAWPPRFAGSKIRDLDRP
VDLIAADVSQLETWRDRFLQAIDDMAVLLPNGRKMTLDEDTGIDVLGNLMESSIISRNRA
FYGDFHNMGHVFISYSHDPDHRNLEQFGVMGDSATAMRDPVFYRWHAYIDDIFQLYKNKL
APYPNDRLDFPGIQVLSVSTSSGAGPDRLLTQWEQSTMELGRGLDFTPRGSVLATFTHLQ
HDEFNYLIEVNNTSGAGVMGTVRLFMAPVVDENGTPLTFDEQRKLMMELDKFTHAIPSGS
STIRRSSTQSSVTIPYERTFRSQGSRPGDPGSVEAAEFDFCGCGWPHHLLLPKGTTRGYP
VVLFCMISNWNNDGVAQDLVGKCNDAASYCGIRDRKYPDRRAMGFPFDRPSPASLLQDFL
TPNMATKPCTILFSDNVRILVSLFLSIDAKDSKVVKGVKDVKSVKGVKDVKDAKKIIPAE
SASNPIYGSEQKGNYGIGENKGYKSRERYRSSGLLSQNYGNNYGYGYNNGRNNYEYGNNY
GNGNNNYDYGNNNEYGNSNYRSGNNKNYGDDYGYGQDNIGYGINKNGYGVSDYGYGGYNY
GYGNNNYGYGNNNYGYGNNNYGYGIRSNEYGHNNYGNSNKNNGYGNNNYGYGNINYGYGN
NDYGYDNNNYGDDDYKRKLRGPDEIGYFARDPASRRLYGRRNYQYRLIGRHGLGFDKRTV
NAYSYVAPITPERLEIIGNPYRN