New model in OGS2.0 | DPOGS214574  |
---|---|
Genomic Position | scaffold207:- 228046-240859 |
See gene structure | |
CDS Length | 3351 |
Paired RNAseq reads   | 1987 |
Single RNAseq reads   | 4509 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005142 (0.0) |
Best Drosophila hit   | alpha mannosidase II (0.0) |
Best Human hit | alpha-mannosidase 2x (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to mannosidase alpha class 2a [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | PREDICTED: similar to mannosidase alpha class 2a [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0000139 Golgi membrane GO:0004572 mannosyl-oligosaccharide 1,3-1,6-alpha-mannosidase activity GO:0006486 protein amino acid glycosylation GO:0006487 protein amino acid N-linked glycosylation GO:0005783 endoplasmic reticulum GO:0005795 Golgi stack GO:0004559 alpha-mannosidase activity GO:0030246 carbohydrate binding GO:0006013 mannose metabolic process GO:0008270 zinc ion binding |
InterPro families    | IPR000602 Glycoside hydrolase, family 38, core IPR013780 Glycosyl hydrolase, family 13, all-beta IPR011330 Glycoside hydrolase/deacetylase, beta/alpha-barrel IPR011013 Glycoside hydrolase-type carbohydrate-binding IPR011682 Glycosyl hydrolases 38, C-terminal IPR015341 Glycoside hydrolase, family 38, central domain |
Orthology group | MCL11709 |
Nucleotide sequence:
ATGGTGGAGCTGGATGATAATAAATGGACAGCATTTGAATCAAAACTTCAGAAAATAGAA
AAGGAGCTTGACCAACATCATGCCGTTGTTGGTGAGATTAAGAACGCCATGGATCAGATT
GTGGAACAATCCCAAGAGTTTTACCCACCACAGAAGAGACCAAAGGAGCGCAAGGAAAGT
AAAATACGAGAGTTCAAGGTTGTGGGAGATGAACCACCGAGAATGCATAAAAAGATTAAC
ATGTCCTGTCCAGCCATACAGACCTCAGCTAAGTCTGATATACAGATGCTCTCGATGTAT
GACCGAATCATGTTCGATAATGTTGATGGCGGAGTGTGGAAACAGGGCTGGAACATTGAA
TACAAGGATAACCAGTGGAGTAGCAAAAATAAGCTGAAGGTGTTCATTGTACCTCATTCA
CATAATGATCCTGGTTGGTTGAAGACGTTTGAGAACTACTACAAGACTCAAACAAGAGCT
ATCTTCACTAACATGGTTGAAAAGCTGAATGAAGGGGTCGGAAGGAAGTTCATATGGGCG
GAAGTGAGCTACCTCGCGCTCTGGTGGGCGAGTGACGCTACTGACAAAGAGAAACTTGCT
TTCCAGAAATTACTTAAATCTGGACAGATTGAGATCGTGACAGGAGGATGGGTTATGAAC
GACGAGGCCAACTCACACTGGTTGTCGATAGTACAGCAACTGACTACGGGTCACCAGTGG
CTGATGGATAACGTGGGATATATACCGAAAAACCATTGGTCGATTGACCCCTTCGGTTAC
TCTAGTACCCAGCCGTACCTGTTAAAACTGTCCGGTCTAGAAAACTCTGTGATACAAAGA
GTACATTACAGGGTCAAGAAGGAACTCGCCATGAATAGACAATTGGAGTTTAAGTGGAGG
CAGTTATGGGACGGTGTTGGTAAGACTGATATGTTCACTCACATGATGCCGTTCTACTCA
TACGACATCCCACACACATGCGGCCCTGATCCTAAGATATGTTGCCAGTTCGACTTTAAA
AGGTTGCCAGGTAATGGCGTAACCTGTCCCTGGGGAATACCGCCGAGAAAGATTATACAG
AAGAATGTTAACGAACGGTCGTCCATAATCCTGGACCAATGGCGGAAGAAGGCTCAGCTG
TATAGAAGCAACGTCCTGCTGGTGCCGCTGGGAGATGACTTCAGATATGACCGCGCCAAT
GAATGGGACAACCAGTACTCCAACTACGACATGATCATCAGCCATATCAATGAGAACGAC
TCCTGGAATGCTGAGGTACAATTCGGCACTCTATCAGACTACTTCAAGGCGTTGCACGAG
GAGGTGAAGCTGTCAGACTTCCCGGTGCTGTCCGGAGACTTCTTCACGTACGCCGACCGC
AACCAGCACTATTGGAGCGGATACTACACCTCGCGACCCTTCTACAAGAGAATGGATAGA
GTGCTACTGGCCTACGTCAGGGCGGCGGAAACAATCAGCATGCAGGTGTTCCTGTCGTCA
TCGACCAGGCAGCTGGTGTCTCTGCAGCTGGAGGAGCGCGTGGACGCCGCACGGAGAGCC
CTGGCGCTGTTCCAACATCACGACGGAGTCACCGGCACAGAGAGGGACGAGGTGCGAGAG
GACTACGCCAAGAAATTGTTACAAGCTATAAAGTACTGTCAGTCGGCGATCCAGCAGTCC
GCCTACCACCTGCTGCGGGAGCCGGTCCTCAAGGACCAGAAACAGGAGGATGTTTATTTC
GACGTGGACGACATCTGGCGGAGACATGACGAGATACCTTCTAGAATAACCATCACCTTG
GACGCGATGTTCCCTTCTAGAAGAATAGTGCTCTACAACGCGTTACCGTTCAGAAGATAC
GAAGTCCTAACGCTGATCGTCTCGTCACCACATGTTGAGGTGTTCGACCAGGAAGGTTCG
CCCCTGATGTCGCAGGTGTCCCCGGTGGTGGCGGGAGAGCGTCGCCTGGGCTTCGCTGCC
AACAAGTTCCAGCTGTCGTTCCCCGTCAGCGTGGGCTCCCTGGGCCTGGCCGTCTACAGC
GTGGCCTTGAGAGACGCCGCCTCCATCAACAAATACACGTCGTACTCCCACGTGCGTATC
TACAACGCGGACTACTGGTCGGTGGACCTGCCGAGGATGTTCGCGGTGGAGCAGCCGGCC
GGTCGCCTGGCTGATGATGTCACACTCCGTGCCAACAACACGCGCCTCGTGGTCACCAAG
GACGGACTACTGAAGGCTCTGGTGGGGCCGAACGGACGGACCACGCCCATACACATGGAC
TTCGTACAATACGACACCCAGAAAACACCTGATAACAACAGCGGCGCGTACCTGTTCATG
CCGGCGGGACCCGCGACGGACCTCAACACGGACCCCTACCCTGAGATAGTGATCATAGAG
GGACCCTACAAGGCCACCGTGTACACGGGACTCGTGGGTCCAAAGGAGGCCGAGATAGTC
CTGGCTATGTCAGTGTACACCAACCCGTCGTTGGGTCACAGCGAGGTGGAGCTGGACAAC
ACCTTCCAGCTGGACCAGGCGGTCGACGACCTGGAACTGGCGATAAGACTCTCCACTAAC
ATTAAGAACGGAGACACCTTCTACACGGACCTCAACGGCATGCAGATGATACGGCGACGG
TACTTCGATAAACTTCCCCTGCAAGCGAACTTCTACCCTCTGCCGGCGGCGGCCTACATC
GAGGACGCTGCGACCAGGCTGACAGTAGTGACGTCCACACCGCTCGGCACCGCCGCCCTG
CAACCCGGACAGATAGAGATAATGCAGGACCGTCGGCTGAGTCGCGACGACAACCGCGGC
GTGAACCAGGGCGTCCTCGACAACGTGCGCACAAGACACGTGTTCAGGGTCATCGTAGAA
CACTCGCAACCCAACTGCCAGTCTACAGCCGCGGACCGTACTAGCGGGCACCTGTCTCTG
GGCGCGGCGGTGTCTCAGCGGACGCTACAGCAGCCCCTGGTGGTGATGCAGTTCACATCC
GAGGAGGTTCCCCCCACCGCAGCGCCCCCGCACGGCGCCGCCGACGTCGAACTGGCCTCT
ATACGACCAGCTCGAGGGATGAAGGACGGCTCTAAACTGCAAGGTGTTGGGGCGACGTTC
AGACGACTACATTTTGACAGCTGCTATGGAAATGACATCGTCAGCAAATGGTACCGCGTA
GGAGACGGACAGATCTCACTCAACGATATGTTTGAAGTCCAACCTGACAAAGTGTTCGAA
AGTTCACTGACCTTCAACACCATAGGGAATCCCATCCCCGACGGCATCCTGACGTTATGT
CCCATGGAAGTGAGATCGGTATTCATCAATCAGACCATAAAACACGGGTGA
Protein sequence:
MVELDDNKWTAFESKLQKIEKELDQHHAVVGEIKNAMDQIVEQSQEFYPPQKRPKERKES
KIREFKVVGDEPPRMHKKINMSCPAIQTSAKSDIQMLSMYDRIMFDNVDGGVWKQGWNIE
YKDNQWSSKNKLKVFIVPHSHNDPGWLKTFENYYKTQTRAIFTNMVEKLNEGVGRKFIWA
EVSYLALWWASDATDKEKLAFQKLLKSGQIEIVTGGWVMNDEANSHWLSIVQQLTTGHQW
LMDNVGYIPKNHWSIDPFGYSSTQPYLLKLSGLENSVIQRVHYRVKKELAMNRQLEFKWR
QLWDGVGKTDMFTHMMPFYSYDIPHTCGPDPKICCQFDFKRLPGNGVTCPWGIPPRKIIQ
KNVNERSSIILDQWRKKAQLYRSNVLLVPLGDDFRYDRANEWDNQYSNYDMIISHINEND
SWNAEVQFGTLSDYFKALHEEVKLSDFPVLSGDFFTYADRNQHYWSGYYTSRPFYKRMDR
VLLAYVRAAETISMQVFLSSSTRQLVSLQLEERVDAARRALALFQHHDGVTGTERDEVRE
DYAKKLLQAIKYCQSAIQQSAYHLLREPVLKDQKQEDVYFDVDDIWRRHDEIPSRITITL
DAMFPSRRIVLYNALPFRRYEVLTLIVSSPHVEVFDQEGSPLMSQVSPVVAGERRLGFAA
NKFQLSFPVSVGSLGLAVYSVALRDAASINKYTSYSHVRIYNADYWSVDLPRMFAVEQPA
GRLADDVTLRANNTRLVVTKDGLLKALVGPNGRTTPIHMDFVQYDTQKTPDNNSGAYLFM
PAGPATDLNTDPYPEIVIIEGPYKATVYTGLVGPKEAEIVLAMSVYTNPSLGHSEVELDN
TFQLDQAVDDLELAIRLSTNIKNGDTFYTDLNGMQMIRRRYFDKLPLQANFYPLPAAAYI
EDAATRLTVVTSTPLGTAALQPGQIEIMQDRRLSRDDNRGVNQGVLDNVRTRHVFRVIVE
HSQPNCQSTAADRTSGHLSLGAAVSQRTLQQPLVVMQFTSEEVPPTAAPPHGAADVELAS
IRPARGMKDGSKLQGVGATFRRLHFDSCYGNDIVSKWYRVGDGQISLNDMFEVQPDKVFE
SSLTFNTIGNPIPDGILTLCPMEVRSVFINQTIKHG