| New model in OGS2.0 | DPOGS211080 |
|---|---|
| Genomic Position | scaffold93:+ 19704-30294 |
| See gene structure | |
| CDS Length | 4338 |
| Paired RNAseq reads | 801 |
| Single RNAseq reads | 2027 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002960 (0.0) |
| Best Drosophila hit | krotzkopf verkehrt, isoform C (0.0) |
| Best Human hit | ND |
| Best NR hit (blastp) | chitin synthase [Ostrinia furnacalis] (0.0) |
| Best NR hit (blastx) | chitin synthase 2 [Manduca sexta] (0.0) |
| GeneOntology terms | GO:0007443 Malpighian tubule morphogenesis GO:0004100 chitin synthase activity GO:0008362 chitin-based embryonic cuticle biosynthetic process GO:0016021 integral to membrane GO:0035158 regulation of tube diameter, open tracheal system GO:0035159 regulation of tube length, open tracheal system GO:0007424 open tracheal system development GO:0001838 embryonic epithelial tube formation GO:0006035 cuticle chitin biosynthetic process |
| InterPro families | IPR004835 Fungal chitin synthase |
| Orthology group | MCL10266 |
Nucleotide sequence:
ATGGCCAAATCCAGTGGGGGTTTTAAAGGACTTCCTGATGACAGTGATCAGTCTGACGCG
GAGTTCCAGCCGCTGTTTGATGATACTGATGATCTAGACCAAAGAACAGCACAAGAAGCA
AAAGGATGGAATCTATTTCGGGATCTCCCTGTGAAAAAGGAGAGTGGTTCAATGGTATCC
ACTGTTTGGATCGATAACAGCGTGAAACTTCTTAAAGTTCTGGCTTACATAATTATATTT
GTCAGTGTTCTTGGCGCTTCTGTTATTTCAAAAGGCTTGGCTTTGCTTACTGAGACCTTA
AGCACTATTGGATTAGCAATTCTATTATTGCTAGTGTTGCCAGAACTGGATGTCGTGAAA
GGAGCTATGTTAATGAACGCTGTATGCATAGTACCAGCTGTATTAAATGCATTCAGTAGG
GACCACAATCAACCTCGATATCCTATAATGCTAGTGATTGATGTTTTGGCAATATCTGCT
CAAGCCACCGCCTTTGTCGTATGGCCTCTTCTTGATGGCAACCCAGTTCTATGGTGTATT
CCAGTTGCATGTATATTTATTTCTTTAGGCTGGTGGGAAAATTTTGTTTCTTATTGGGGA
AGACACAATTCAGCTGCCATGATGTATATGTACGAAATACGCGACGGTATTAAAAAATCA
CGCTATTACACCCAAATGTTTTTAACACTTTGGAAAATATTCATTTTTATGGTCTGCATA
CTGATTTCATTATTAGTTCAGAATGACGATCCTTTAACGTTTTTCACTCACGCCAGTAGT
GCCTTTGGAGTACGAAGTTACAGCGTATATGAAATTCAAACGATATTGCAAGATTTATAT
AAAGGTTCAATTGAATATCAAATGTCGGGAGGTAGTTTTGAATTAGAGGCAAGTTCGACT
GCATCACTATGGGTGGTTTTAATCCAAGTCTTAACAGCGTATTTTGCCTACATCTGCGGG
AAGTTTGCCTGCAAAATTCTTATTCAGAAGTTCAGTTTCACATTTGCGCTCAATCTAGTA
GGACCTGTTACCGTTAATCTGCTTATATATGTTTGCGGAATCCAAAATGCCAACCCATGT
GCTTTCCGTTCGTTCATACCAGAAAATTTGTTCTTTGAAATACCACCAGTATATTTCTTA
AGGGACTACATAGGCCGAGAGATGACGTGGATATGGTTGCTCTGGTTGATCTCTCAGGCT
TGGGTGACAATGCATTGCTGGGTGCCACGTTGTGAGCGTCTCGCTGCCACTGATAAGTTG
TTCCAAAGGCCCTGGTACTGTGGGCCATTGATTGATCAATCTCTCTTGTTGACCAGAACC
AAGGACGAGCAGGATGTACCTGGCGATGACATGGATGATTATGACGGAGGTAGTAAGACC
TCTATTGGCAGCTCGCAGATCGTATCAAAAGATATCAAACCTTCGGATTCTTTATCAAGG
ATCTTCATCTGCGCAACAATGTGGCATGAAACGAAAGAGGAAATGATAGAATTTTTGAAA
TCTATAATGAGGCTGGATGAAGACCAAAGCGCACGTCGTGTCGCTCAAAAATATCTGGGC
ATTGTTGATCCTGATTATTACGAACTTGAAGCAAACATATTTATGGATGATGCATTTGAA
GTATCTGATCACAGCTCGGAAGACTCTCAGGTCAATCGTTTTGTTAAATGCCTAGTAGAT
GTGATCGATGAAGCAGCCTCGGAAGTCCATTTAGCTAATATAAGATTACGGCCACCCAAA
AAGTTCCCAACGCCATACGGAGGTAGATTAGAATGGACATTACCTGGAAAAAATAAGATG
ATATGTCATTTGAAAGATAAATCCAAAATTCGTCATAGAAAAAGGTGGTCGCAGGTGATG
TACATGTATTACTTCTTGGGACATCGCTTGATGGATTTGCCTTTATCAGTGGATCGTAAG
GAAGTCATAGCGGAAAATACGTATTTACTAGCATTGGACGGAGATATCGACTTCAAACCA
TCCGCGGTCTCTCTGCTGATAGATCTCATGAAAAAGGATCATAACCTTGGCGCCGCTTGC
GGCAGAATTCATCCAGTTGGGTCAGGTTTTATGTCTTGGTATCAAGTTTTTGAATATGCA
ATCGGTCATTGGCTGCAAAAGGCGACTGAACATATGATAGGCTGCGTACTTTGCAGTCCC
GGATGCTTCTCTTTATTCAGAGGGAAAGCTATCATGGATGACAACGTTATGAAAAAATAT
ACAACAACATCAAGCGAAGCGCGCCATTATGTACAATTTGATCAAGGCGAGGACCGTTGG
CTTTGCACATTGCTTCTCCAGCGTGGTTATGGCGTCGGCTATAGCGCAGCTTCTGATGCC
TACACACATTGTCCTGAGCGTTTCGACGAATTTTTCAATCAGCGTCGACGATGGGTACCC
TCAACTATGGCCAATATATTCGACCTGCTCGCAGACTCCAAGAGAACCGTGAAAGTTAAC
GACAATATATCAACTCTATATATTCTCTATCAGATGATGTTGATGGCAATTACAATATTA
GGTCCCGGGACAATCTTCCTCATGATGATTGGAGCCATGAACGCCATTACTGGTTTAAGT
AACACAAATGCTCTGTTAGTGAATCTGGTGCCCGTATCTATATTCTTAGTAGTTTGTATG
ACGTGTAGATCCGAATTTCAGTTGAAATTGGCCAATTTTATAACATGTATATACGCGATG
ATCATGTTGATGGTGATCGTGGGTATAGCGCTCCAAATAGTGGAGGACGGTTGGTTTGCT
CCCTCCAGTATGTTCTTCGTATTAACGATCGCAGTGTTCTTTATAACAGCAGCTCTGCAT
CCCCAGGAGTTCTCGTGTTTGATGTATATTCTCATATACTATATAACTATACCTAGCATG
TACATGTTGCTTATAATATATTCACTATGTAACCTTAATAATGTGACCTGGGGTACTCGT
GAGGTTGCCCAGAAGAAAACACTTAAGGAAATGGAAATGGAAAAGAAAACAGTAGAAGAG
ACGAAAAAGAAAATTGACACCAACATTCTGTCTAGATGGTTTGGTAAATCTGAGGAGACA
TCTGGTTCATTAGAGTTCAGTATATCGGGGCTATTCAAATGTATACTCTGCACTAACCCT
AAGGACCATAAGGAAGATTTGCATCTACTGCAAATTTCACACAACTTGGAAAAAATTGAA
AAGAGATTGGACTCACTGGGTGCTAGTCAAGAGCCAGAGAAGATTCCACGTCGTCGAAGC
TCGATGGGTCTGCGTGGTGATACACTGTCCGTGCTACCAGAGTATGAGGATAGCGAGGAC
TCGACAGAAATACCGCGGGAGGAGAGAGATGATTTAATCAACCCGTATTGGATAGAGGAC
CCAACATTGCAAAAAGGAGAAGTAGACTTTCTTACAACAGCAGAAACTGAGTTCTGGAAA
GATTTGATTGACGTGTACCTAAGACCTATCGATGAAAATAAAGAGGAAAAGGAACGTATT
GCAACTGATCTGAAAAATCTTCGCGACACAATGGTGTTTGCGTTTTTTATGGTGAATGCT
CTGTTCGTTCTTTTAATTTTCCTCTTACAATTGAGACAGGATGTGTTGCATCTCCAATGG
CCATTTGGTCAGAAGGTTAAAATTGAGTATGACAACGGAAATAATCTGGTACGGATAGAA
CAGGACTTTCTTCTCTTAGAGCCTATTGGATCGATATTCTTGATCCTATTCGGTTCTGTA
CTCATTGTACAGTTTGTGGGCATGCTGTTCCACAGATTTGGCACACTGACTCATTTATTG
TCTACAGTCCAACTTAACTGGTATTTCACAAAACAGGCTGATGAAGTGACAGAAGACGCT
CAATTCGAGAGGCGAGCTGTAGAAATAGCTAAGGATCTTCAGAAATTAAACGTAGATGAT
ATTGAACAGAAAGGTGTAGACACAACTGATGTAACTCGCCGAAAAACGCTACATAACTTA
GAAAGGTCAAGAGAAAATAAGCAGACCGTAATAAATTTGGATGCGAACTTCAAAAGGAGA
CTCACTATCTTACAGAATGCTAGTCCAGATACAGCATCCCGCCTTCCATCTCTCGGCGGT
AGTCCGTCATCTCGACGAGCTACGTTCCGTGCACTAATGACGCGCCGCGACTCCGTGCTA
GCTGAAAAAAGACGGTCTCAACTTGGCAGAGACTCTACCGGATATATATACGACGAGCCC
ATGAGTGCGCTGAACATCTCCATGTCTGGTCGTCCGTCAGGGGCTTACGTCAACAAAGGC
TATGAACCAGCTCTCGACAGTGACGAAGACTTGCCGCCCAGACGAAGCACCGTCCGCTTC
AGAGACGCGTATCTGTGA
Protein sequence:
MAKSSGGFKGLPDDSDQSDAEFQPLFDDTDDLDQRTAQEAKGWNLFRDLPVKKESGSMVS
TVWIDNSVKLLKVLAYIIIFVSVLGASVISKGLALLTETLSTIGLAILLLLVLPELDVVK
GAMLMNAVCIVPAVLNAFSRDHNQPRYPIMLVIDVLAISAQATAFVVWPLLDGNPVLWCI
PVACIFISLGWWENFVSYWGRHNSAAMMYMYEIRDGIKKSRYYTQMFLTLWKIFIFMVCI
LISLLVQNDDPLTFFTHASSAFGVRSYSVYEIQTILQDLYKGSIEYQMSGGSFELEASST
ASLWVVLIQVLTAYFAYICGKFACKILIQKFSFTFALNLVGPVTVNLLIYVCGIQNANPC
AFRSFIPENLFFEIPPVYFLRDYIGREMTWIWLLWLISQAWVTMHCWVPRCERLAATDKL
FQRPWYCGPLIDQSLLLTRTKDEQDVPGDDMDDYDGGSKTSIGSSQIVSKDIKPSDSLSR
IFICATMWHETKEEMIEFLKSIMRLDEDQSARRVAQKYLGIVDPDYYELEANIFMDDAFE
VSDHSSEDSQVNRFVKCLVDVIDEAASEVHLANIRLRPPKKFPTPYGGRLEWTLPGKNKM
ICHLKDKSKIRHRKRWSQVMYMYYFLGHRLMDLPLSVDRKEVIAENTYLLALDGDIDFKP
SAVSLLIDLMKKDHNLGAACGRIHPVGSGFMSWYQVFEYAIGHWLQKATEHMIGCVLCSP
GCFSLFRGKAIMDDNVMKKYTTTSSEARHYVQFDQGEDRWLCTLLLQRGYGVGYSAASDA
YTHCPERFDEFFNQRRRWVPSTMANIFDLLADSKRTVKVNDNISTLYILYQMMLMAITIL
GPGTIFLMMIGAMNAITGLSNTNALLVNLVPVSIFLVVCMTCRSEFQLKLANFITCIYAM
IMLMVIVGIALQIVEDGWFAPSSMFFVLTIAVFFITAALHPQEFSCLMYILIYYITIPSM
YMLLIIYSLCNLNNVTWGTREVAQKKTLKEMEMEKKTVEETKKKIDTNILSRWFGKSEET
SGSLEFSISGLFKCILCTNPKDHKEDLHLLQISHNLEKIEKRLDSLGASQEPEKIPRRRS
SMGLRGDTLSVLPEYEDSEDSTEIPREERDDLINPYWIEDPTLQKGEVDFLTTAETEFWK
DLIDVYLRPIDENKEEKERIATDLKNLRDTMVFAFFMVNALFVLLIFLLQLRQDVLHLQW
PFGQKVKIEYDNGNNLVRIEQDFLLLEPIGSIFLILFGSVLIVQFVGMLFHRFGTLTHLL
STVQLNWYFTKQADEVTEDAQFERRAVEIAKDLQKLNVDDIEQKGVDTTDVTRRKTLHNL
ERSRENKQTVINLDANFKRRLTILQNASPDTASRLPSLGGSPSSRRATFRALMTRRDSVL
AEKRRSQLGRDSTGYIYDEPMSALNISMSGRPSGAYVNKGYEPALDSDEDLPPRRSTVRF
RDAYL