New model in OGS2.0 | DPOGS202980  |
---|---|
Genomic Position | scaffold8:- 627282-631418 |
See gene structure | |
CDS Length | 3540 |
Paired RNAseq reads   | 34 |
Single RNAseq reads   | 103 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012324 (1e-149) |
Best Drosophila hit   | alpha-Man-IIb (1e-131) |
Best Human hit | alpha-mannosidase 2 (4e-87) |
Best NR hit (blastp)   | PREDICTED: similar to ENSANGP00000010944 [Nasonia vitripennis] (1e-163) |
Best NR hit (blastx)   | PREDICTED: similar to ENSANGP00000010944 [Nasonia vitripennis] (8e-160) |
GeneOntology terms    | GO:0000139 Golgi membrane GO:0004559 alpha-mannosidase activity GO:0004572 mannosyl-oligosaccharide 1,3-1,6-alpha-mannosidase activity GO:0008270 zinc ion binding GO:0030246 carbohydrate binding GO:0006013 mannose metabolic process |
InterPro families    | IPR015341 Glycoside hydrolase, family 38, central domain IPR011013 Glycoside hydrolase-type carbohydrate-binding IPR011330 Glycoside hydrolase/deacetylase, beta/alpha-barrel IPR000602 Glycoside hydrolase, family 38, core IPR013780 Glycosyl hydrolase, family 13, all-beta IPR011682 Glycosyl hydrolases 38, C-terminal |
Orthology group | MCL40738 |
Nucleotide sequence:
ATGGTGCAGAGACCTTACCACTACCACCTCAGCTTCACCAACGACTCTCGACCCATGCAA
CAACATTTCGTGTACCCAGGTTTTACACAAATGAAATCTATTATACATAAAATGCAGCGT
CCAAAAATGTCAACAATCCTAGCGTCACTGGACACGGGAAGAAGTAAATCAACGTACTCA
GGAATGAATATTGCCAAAAAATCCGGAATCCATCCGTTCGAGCTGAGACTCACAAGAAAT
ACCTTTAGTAACACCTCCAACCTTCCTCGCAATAAAGACGGTCATTTAATTTTTCCTGAT
TTAAACACTCTTGAACATTTCAATTATAACAATAGTAATCCGGTAGATACTTATGAGAAC
CACATTGGCTCGGTTCCAACCTCTAACTTTTTTCCCCTCGTTCAAAACAACCCTTCACGG
ACTACTGCACCAGAAGCTAGCGTAAGCGTCTTTCCTCTAGTAACTTCGTCGACCACGGAT
GTAACCGAGGATAGCGGTCTACTTATCAAAAGTATCTACAACTCTAGCACTAATAAAACC
GCTAATGATTTCGAAGTCCCGAAACAAAAATACACGATAGTAGATTTCGATCCGCAAGAA
GAAAAAGCGGACTTTTTAATAGAGGAACGTCCCATCGAGACGCTGGTGTCATCCCACAAT
TACAATACGAGTATGTCGACAGCACCCTTCATTTGTACACATAACTATGAGGCTAAAGCT
GACATAGATGCTCAAGAAAAATTTTCTGAATTTAACATAGAGGCACTTCGTAAACTAGTA
AAAGAAGGAAGATTAGAAATTACAACAGGCGCCTGGGTAGAAACAGACGAGGCTACCTCA
CACTTGTTTGGGATTGTTCACCAATTGATGGAAGGGCACCAGTGGTTGCAGTATAACTTA
AATTATTCGCCCGACGTGGCGTGGCTTACGAATAGCGTAACCCACAGCCCCACTCTGCCC
TATCTTCTATCAGCATCCGGGATAACCAGTTTGGTTGTAACAAATTTACATTTCGCTTGG
CAGCAATATTTAACAGAGTATCAAGAAACCAACTTCATGTGGATTCAAAACTGGGATACC
GACAAAACGACTCAGACAACTCTTAACGAAGCCCTTAAAAAAATAGGCAACGACCGGTTC
CAAAAACATTCTGTTTTAACACACTATCTACCATTTAATTCTGCCGGAGTCAGAGCTTCT
TGTCCTCAAGGTGATATTTGCAGCGAGGAATTTAATTTTGTGAATTCCGACAACCATCTG
GATATCAATTCTTTCAACGTTAAAGAAAGGTCTGAGAAAATACTTGAACAGTATTCTAAA
ACTGGAACAACGTCATCTCACAACGTGGTGCTGGCGCCTATAGGCAGCTCCTTCAGTTAT
GAATTGCAATCCGAATTTGACTTACAGTATAATAATTACCAGAAAATTTCGGAATTTGTG
AATGCGAATCAAGATATTTATAAAGCAACGATTGATTTTGGAACACCGAAAAATTATTTT
GAAAGTTTGTTTTCTAGTCCAACATCTTATCCCACTTTAAAAGGAGACTTCTTGAATTTT
GCTGATATCAGTGACGGCAGCCCAGCTTACTGGACGGGGTTCTTTACCACTAGACCTCAA
TTTAAGATTTTGCTGAGACGTCTTCAGGCAACATTACGCAGCTCAGAAATTTTATTTACC
TTCGCAATGAGCTATAACGTGTTGAAAAAAAATGACGTGTCTACATTGTTCGGCCGATTG
GTGAATGCTCGCGAAACTGTAGCCCGTCTCCAGGACAGGAACGTCGTCGGCGGCACTTTA
AAGGCAGTGGCGCTGCGATACGCTCACAGAGAGATAGTTAAGACAGCACAAGACTGCTGG
TACATACAAGAGGTAGCGGCCAGCTTGCTCAGCTCTAAACCTGACCAAAACACAACGTAT
CTGAAAAAATACGTCTATAGAGAGGGAGAATTTATTTCTTCTTTTAAGTCCGTCACGTCA
GGAGATCAAATATATATATTTAATTCTCTCAGTCACGAAAGAACTGAAATAGTAGAATTG
GTAAGTAGGTACTCTGGCATAAGAATTTTGGATCACAATAAGAAAGACGTTAGCCTTCAA
ATAAAACCAACCTTTAAGTATGGCTTTCAAAATGTCGTTAAGATATCCAAGCATTTTTTT
CGTATCATATTTGTTGCTGTCATTCCTCCGTTTTCATTTCAACTTTTTAAGATAAAAGAT
ACCTTTGATACGACACAGAGTCTCTCTACTTTATATTGTACGGCTTGCGTTGCCGAGGAG
GACGATGTCACTCCACTGTCTCCATTCACCTTGCATCCGGTCGAGACGGGAGACGTACAG
CTGGAGAACTATAAGTATCGTCTTATTTTTGATGAATACACAGGTTTTTTTAAGACGGTC
ACTGATAAGTCTACTAATATTGAAAAACAAATTTCGATTGAGTTCGGTGCTTTCAGAAGT
TCACATATAAACTCTGGTATGTTTTTATTTAATACAAATGTTTCAAAACCACTGGAGGAT
ATCTTATCTTCTTATAAACGAAATAATGGTTCAAAAGTTGTGATGATCATATCCGGATTC
ATTACCACCGAATTCATATTATTTTATGGCAAATTTTTATACCATAGTGTTACAATTTAT
AATTTAGTGCACAGTCCTTTGTCCAGCGCTATAAGAGTAGAAACAAAAATCGATTACGAC
CTGTCACCGAAACATCGGGAACTGGAGGTGTTTATGTCGATACAGACAGATATAAACAAC
GGCAACCCTCCGGAGATCGTTATTGATAATAATGGTTTTCAATACACTGCACGAACTATC
AACATGAGCAGAAGGGTGGAATCCAACATGTACCCTATGACGAGTATGGCCTTTATACAG
GATCACAAAAATCGTTTAACTATTATAACTGATCACGCACAAGGTGTGACAGCGTTTCAA
GAAGGTCAACTGATAATTATGATGGATCGAAGAATACTCTTCGACGACGGTCGAGGGTCG
AATGAAGGCCTCGCAGACAACACCGCCGCCTGGCAGACACATTACATACTGCTGGAGACC
TTTACCGCACCTTACACCAGCTATCAAAAAGAAGAATTGAAGATGTCCTTGATGTTACCC
AGCTTTTCAGCAATATATTTAGCCAACATTTTAAATTTTTTGATAGATATATACTTTATA
GATAATAACAGAACTCATTCTTGTCAATTTGCATTCTTGCCACTGGTTAAGATATCATTT
CCTTGTGACGTCACTGTCCTTAATTATAGAGCGATTCTAAATAGAGGAACTCCCGATTAT
TATATACCCAATATTGCATTATTGACACTACACAAACAAAGCTTCTCATGTCTAATAGAA
CACAATAGTTTTATTGATTGCAACGGGGATAGTTCGTTTATTTTGCAACAGATTTTACGT
AATGCCAAAGCTGTTTACCAGACCAACTTAGTGGGTACATCGGAGGGTGTACCTATAAGT
ATTTTAAATAAAGCCAACTTTCCACCCATGGAAATTTCAACTTTTAGAATACACTTTTAA
Protein sequence:
MVQRPYHYHLSFTNDSRPMQQHFVYPGFTQMKSIIHKMQRPKMSTILASLDTGRSKSTYS
GMNIAKKSGIHPFELRLTRNTFSNTSNLPRNKDGHLIFPDLNTLEHFNYNNSNPVDTYEN
HIGSVPTSNFFPLVQNNPSRTTAPEASVSVFPLVTSSTTDVTEDSGLLIKSIYNSSTNKT
ANDFEVPKQKYTIVDFDPQEEKADFLIEERPIETLVSSHNYNTSMSTAPFICTHNYEAKA
DIDAQEKFSEFNIEALRKLVKEGRLEITTGAWVETDEATSHLFGIVHQLMEGHQWLQYNL
NYSPDVAWLTNSVTHSPTLPYLLSASGITSLVVTNLHFAWQQYLTEYQETNFMWIQNWDT
DKTTQTTLNEALKKIGNDRFQKHSVLTHYLPFNSAGVRASCPQGDICSEEFNFVNSDNHL
DINSFNVKERSEKILEQYSKTGTTSSHNVVLAPIGSSFSYELQSEFDLQYNNYQKISEFV
NANQDIYKATIDFGTPKNYFESLFSSPTSYPTLKGDFLNFADISDGSPAYWTGFFTTRPQ
FKILLRRLQATLRSSEILFTFAMSYNVLKKNDVSTLFGRLVNARETVARLQDRNVVGGTL
KAVALRYAHREIVKTAQDCWYIQEVAASLLSSKPDQNTTYLKKYVYREGEFISSFKSVTS
GDQIYIFNSLSHERTEIVELVSRYSGIRILDHNKKDVSLQIKPTFKYGFQNVVKISKHFF
RIIFVAVIPPFSFQLFKIKDTFDTTQSLSTLYCTACVAEEDDVTPLSPFTLHPVETGDVQ
LENYKYRLIFDEYTGFFKTVTDKSTNIEKQISIEFGAFRSSHINSGMFLFNTNVSKPLED
ILSSYKRNNGSKVVMIISGFITTEFILFYGKFLYHSVTIYNLVHSPLSSAIRVETKIDYD
LSPKHRELEVFMSIQTDINNGNPPEIVIDNNGFQYTARTINMSRRVESNMYPMTSMAFIQ
DHKNRLTIITDHAQGVTAFQEGQLIIMMDRRILFDDGRGSNEGLADNTAAWQTHYILLET
FTAPYTSYQKEELKMSLMLPSFSAIYLANILNFLIDIYFIDNNRTHSCQFAFLPLVKISF
PCDVTVLNYRAILNRGTPDYYIPNIALLTLHKQSFSCLIEHNSFIDCNGDSSFILQQILR
NAKAVYQTNLVGTSEGVPISILNKANFPPMEISTFRIHF