DPGLEAN09802 in OGS1.0

New model in OGS2.0DPOGS214574 
Genomic Positionscaffold207:- 228046-240859
See gene structure
CDS Length3351
Paired RNAseq reads  1987
Single RNAseq reads  4509
Migratory profilesQuery via corresponding ESTs
Best Bmobyx hitBGIBMGA005142 (0.0)
Best Drosophila hit  alpha mannosidase II (0.0)
Best Human hitalpha-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 groupMCL11709

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