New model in OGS2.0 | DPOGS202361  |
---|---|
Genomic Position | scaffold1550:+ 12649-15420 |
See gene structure | |
CDS Length | 2772 |
Paired RNAseq reads   | 475 |
Single RNAseq reads   | 1160 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013995 (0.0) |
Best Drosophila hit   | CG14476, isoform D (3e-13) |
Best Human hit | neutral alpha-glucosidase C (4e-26) |
Best NR hit (blastp)   | glycosyl hydrolase [Enterococcus faecalis TX0104] (0.0) |
Best NR hit (blastx)   | glycosyl hydrolase [Enterococcus faecalis HH22] (0.0) |
GeneOntology terms    | GO:0016787 hydrolase activity GO:0016798 hydrolase activity, acting on glycosyl bonds GO:0008152 metabolic process GO:0005975 carbohydrate metabolic process GO:0004553 hydrolase activity, hydrolyzing O-glycosyl compounds GO:0004558 alpha-glucosidase activity GO:0005575 cellular_component GO:0006006 glucose metabolic process |
InterPro families    | IPR000322 Glycoside hydrolase, family 31 IPR011013 Glycoside hydrolase-type carbohydrate-binding IPR017853 Glycoside hydrolase, superfamily |
Orthology group | MCL40935 |
Nucleotide sequence:
ATGGAAAATAAAGAGGAGATGATAGGTGCTGTGAAAAGCATCACAAAGGTCACTAAGTAC
TACCAAATTAATTTCTCGACTGGCGAGGAAGCGAGGTTGTATGTCCTCAATGATCATGTT
TTCAGATACTACGTGTCACCCAAAGGAATCTTTCTAGACTATCCGGAACCCATGAACCCA
GAACATGAAGCCAGAATCGTTTACAAACACGAAGACGCATACGGCTTACAAGCATTCAAA
GAGTCCACTTTAAAAGACGACGATTCCCGTTACATCATAGAAACTAAAGATGTGAAAATT
ATATTTCATAAAACGCTTGGTACTATGGAGGTACACGATTTGAGAAGGGGCAAGGAAGTA
TTCGGCGAATTAAGGCCTTTGTCGTATAAAAATTGTCACTCTATGCAAACCCTTCGTCAG
AGACGAGATGAGTATTTTTTTGGGGGCGGCATGCAGAACGGCAGATTCACCCACAAAGGA
GAAGTCATAGAGATAGTCAACACCAACAAGTGGAACGACGGAGACGTCGCTTCGCCTTGC
CCATTTTATTGGTCCTCGTCCGGCTATGGCGCACTGAGAAACACTTTTCGACCAGGCGAA
TACGATTTTGGGATAAAATCTATGAGTTACATAGAAACAACTCATAACGGCGTAGATTTT
GATGCGTTCTACTTCATAAATGAACTGCCGAGAGACATTTTAAACGATTACTACGAACTA
ACAGGGAAACCGATACTGTTGCCAGAATACGCGTATTATGAGGCACATTTGAACGCGTTC
AATCGAGATTATTGGGTCAAAGTAACATCCGACATAAATGGCGCCATACTATTCGAAGAC
GGACAATACTATAAATGCTTTCAGCCAAATCAAATCGGTGACAAGACGGGGATTTTGGAG
TCTTTGAATGGAGACGAGAATAATTATCAATTTTCCGCCCGCGCTATGATAGATAGATAT
AAAAAGCACGATTTACCGCTGGGCTGGTTTATACCCAACGACGGCTACGGCTCAGGATAT
GGACAGACTGATTCTATGGATGGTGACATACAGAATTTGAAACGTTTCTCTGATTACGCG
TTACAAAATGGCGTAGAGTGTGCTCTGTGGACGGAGAGCAACCTGACACCCAAGGATCCT
TTGAACCCAAAAAAGGGAGAAAGAGATTTATCCAAAGAGGTGGGAATCGCTAATGTGGTA
GCATTAAAATGCGACGTAGCCTGGGTGGGCAGCGGATATTCGTTCGGACTCTCAGCTATA
GAGAACGCGACGGACATATTCGTTAAAAGCACGAGAAATAATGTCAGACCCTTCATCATC
ATGGTGGATGGATGGGCTGGATGTCAACGCTATGCGGGTATATGGAGTGGAGACCAGAAG
GGCGGGGAGTGGGAGTACATAAGGTTTCATATACCGACTTATATCGGTGCTGGGCTCTCT
GGAATACCGCTCGTCGGTTCAGATATGGATGGCATCTACGCCGGGGGTGATAAGGAAATT
AACATACGAGAATATCAATGGAAAACTTTCACCCCGATACAACTTAACATGGATGGGTGG
GGTCACGTACAAAAGACGCCATTCACGTTCGGCGAGGAAGCGACATACATAAACAGGGGA
TATTTGAAATTAAAATCAATGTTGATCCCATACAACTACAGCATTGGCTATGAATCGATC
CACGGCCTGCCCATGGTTAGGGCCATGTTCTTAGAATATCCAGGAGAAGTAACGGCTTAC
ACTTTAGAATCCCAATACCAGTACATGTGGGGTCCGAATATTTTGGTTGCTCCTATATAC
AGCGGCGAGAAATTAGGCAAAGACTCACTACGTGATGGAATCTACTTGCCAGATTCCAAT
CAGATATGGATAGACTTTCTAACCGGCGAGAAATATCAAGGGGGGAAGATTTACAACAAC
ATTGTATCACCTTTATGGAAAATACCTGTTTTTGTTAAGGACGGCGCCATAATACCAACC
ACAAATCCGAACAACAATCCTTACGAAATAAAACGAGATCTTAGAGTATTCACCGTGTAT
CCCAACGGCACGTCTAGCTTTATCGTATACGAAGACGATGGAATTACGTCCGATTATCTA
AAAGGTTCGTACGCCACGACCAAAATCCATGCCAGTGGTCCTGTGTCTAATAAAAATGGG
GATTTAATTATAAAAATACACAAAACTAAAGGACACTATAAGAACATTGTGAAGGAAAGA
CGTACTTTGATACAAGTAATGTGCTCCAGAGCGGTCGGACGGATAAAGGTATCAGCCAAC
GAAAAATCTATCAGATTAAAGAAAGTTCGTAACTCAGACGAGTTCGCTAACAACGACGAC
TGTTTCTATCACGATGAGAATTTCCAATTCAACCCCTACCTTAAAAACTATGCCGAGACG
AAGCAAAAATTCCTACTAATAAAACTTAGTAAATTAGACGTCACAGCGTGTGAGATAATC
ATAAAGATCAAAGATGTATCTAATAAAAGTGCTGTTTACGGCAAAATTGATGTCGACAAC
GGAATTGAAGTCCCGAAAAATGTTAAAGAAGTGGAACATGGGACCTCAACCATAGGTTTG
CAATGGGATAACAGCAATTACGATTATAACGAAGTAGAAAAAGACGGTGTTATATACACA
AATATAAAAAACAATTCGTTCATATTTAATCATGCGGACGGCGTACATGAATGTAGAGTC
CGTTCAGTAGTAGGCGTAAAAGCATCTAAATGGAGTGAGAAAGTAATTTTAAATAATCAG
AATGTACTATAA
Protein sequence:
MENKEEMIGAVKSITKVTKYYQINFSTGEEARLYVLNDHVFRYYVSPKGIFLDYPEPMNP
EHEARIVYKHEDAYGLQAFKESTLKDDDSRYIIETKDVKIIFHKTLGTMEVHDLRRGKEV
FGELRPLSYKNCHSMQTLRQRRDEYFFGGGMQNGRFTHKGEVIEIVNTNKWNDGDVASPC
PFYWSSSGYGALRNTFRPGEYDFGIKSMSYIETTHNGVDFDAFYFINELPRDILNDYYEL
TGKPILLPEYAYYEAHLNAFNRDYWVKVTSDINGAILFEDGQYYKCFQPNQIGDKTGILE
SLNGDENNYQFSARAMIDRYKKHDLPLGWFIPNDGYGSGYGQTDSMDGDIQNLKRFSDYA
LQNGVECALWTESNLTPKDPLNPKKGERDLSKEVGIANVVALKCDVAWVGSGYSFGLSAI
ENATDIFVKSTRNNVRPFIIMVDGWAGCQRYAGIWSGDQKGGEWEYIRFHIPTYIGAGLS
GIPLVGSDMDGIYAGGDKEINIREYQWKTFTPIQLNMDGWGHVQKTPFTFGEEATYINRG
YLKLKSMLIPYNYSIGYESIHGLPMVRAMFLEYPGEVTAYTLESQYQYMWGPNILVAPIY
SGEKLGKDSLRDGIYLPDSNQIWIDFLTGEKYQGGKIYNNIVSPLWKIPVFVKDGAIIPT
TNPNNNPYEIKRDLRVFTVYPNGTSSFIVYEDDGITSDYLKGSYATTKIHASGPVSNKNG
DLIIKIHKTKGHYKNIVKERRTLIQVMCSRAVGRIKVSANEKSIRLKKVRNSDEFANNDD
CFYHDENFQFNPYLKNYAETKQKFLLIKLSKLDVTACEIIIKIKDVSNKSAVYGKIDVDN
GIEVPKNVKEVEHGTSTIGLQWDNSNYDYNEVEKDGVIYTNIKNNSFIFNHADGVHECRV
RSVVGVKASKWSEKVILNNQNVL