| New model in OGS2.0 | DPOGS203031 |
|---|---|
| Genomic Position | scaffold8:+ 614475-622487 |
| See gene structure | |
| CDS Length | 3441 |
| Paired RNAseq reads | 2568 |
| Single RNAseq reads | 6416 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA012267 (0.0) |
| Best Drosophila hit | alpha-Man-IIb (0.0) |
| Best Human hit | alpha-mannosidase 2 (8e-144) |
| Best NR hit (blastp) | alpha-mannosidase II [Spodoptera frugiperda] (0.0) |
| Best NR hit (blastx) | alpha-mannosidase II [Spodoptera frugiperda] (0.0) |
| 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 | MCL16187 |
Nucleotide sequence:
ATGCCCGAGTATATAAAATTCTCTATCAAGCGTTTGAGCCTGTTCAGAGTTACTTGTTAC
TTTGACACGGCAAGTTTTGGGTGTGACCGTCAACAGAGAGTGCCGAGTTGGTTACGAAGT
AAGGAGTTTTGGGACAAATCCTTTGAAGATCGCTACGAGAAAATGAAGAACGACTCCCGC
CGTCCGAGACTCAAGGTGATCGTGGTGCCGCACTCCCACAACGACCCCGGCTGGCTGAAA
ACCTTCGAGCAGTACTTCGAGTGGAAGACCAAGAACATCATCAACAACATGGTCACCAAG
TTGCACCAGCTCCCCAACATGACTTTCATCTGGAGCGAGATATCGTTCCTTAACGAGTGG
TGGGAACGGTCGCATCCCGTTAAGCAGAAGATAGCGCTGGTGGCTGGCGGCTGGTGGCTG
GCGGCTGGCGGCTGGCGGCTGGTGGCTGGTGGCTGGCGGCTGGCAGGCTGGCGGCTGTCG
GCTGGCGACCGGTCGCCGGTGGAGGGTTTAGTGACGGTAGCCGTGGTAGCGTGCACTGCG
CTGAAGAAGTTAGTTAAAGAAGGTCGGCTGGAGATAACGAGCGGCGGCTGGGTCATGCCG
GACGAGGCCTGCACACATATATACGCACTCGTCGATCAGTTCATTGAAGGGCACCAGTGG
GTGAAGACGAACCTGGGGACTGTTCCGCGGATAGGATGGTCCATCGACCCGTTCGGTCAC
GGCCCCACGGTCCCTCACCTCCTGGAGCTGAGCGGGCTGGAGGGAGCTATCATACAACGG
ATCCACTACGCCTGGAAGCAGTGGCTGGCGAGGAGGCAGATAGAGGAGTTCCACTGGGCA
CCGGGCTGGAGCTCGCGCAGGCCCACGCTGGTGGTCCACAACCAGCCGTTCGACATCTAC
TCCATCAAGAGCACGTGCGGACCTCACCCCGCCGTCTGTCTCGGCTACGACTTCCGCAAA
ATCCCCGGCGAGTACTCCGAGTACACGGCCAAGTACGAAGAGATCACCGACCAGAACGTG
CAGAGCAGAGCGCGCACGCTCCTCGAGGAGTACGAACGCGTCGGCTCCCTGACGCCTCAC
AACGTGGCGCTGGTGCCGCTGGGGGACGACTTCCGCTACGAGCACGCCTCGGAGTTTGAC
GCCCAGTACAACAACTACATGAAGATGTTCAACTACATCAACGACCGTAAAGACATCTTC
AACGCCGACGTCTCCTTCGGAACTCCCCTCGACTACTTCAACGCTATGAAGGAGAGACAC
GACAACATCCCCGTCCTCAAAGGAGACTTCTTCGTCTACTCCGATATATTTAGTGAAGGC
AAACCGGCCTACTGGTCGGGCTACTTCACGACGCGTCCTTATCTCAAAATTTTGACGCGA
CAGTTCGAGCATCATTTACGAACGGCGGAGATTCTGTTCACTCTCGTCTCGAACTACGTG
TCGCAATCTAAAAACAAGAAACTCATTGCCTCCGAGAAACGACTGGAGAAGCATTACGAG
CAGTTGGTGACCGCGCGCAGGAACCTCGGCCTCTTCCAACACCACGACGCCATCACCGGC
ACCTCCAAGTCCACGGTGATGACCGACTACGGCACCAAGCTGCTCACCAGCCTCTACCAC
TGCATCCGCCTTCAGGAGACGGCTCTCACCACTCTCATGCTGCCCGACGAGTCCCTGCAC
TCCCAGAGCGTGCTACAGAGTCAGATGGAGTGGGAGTCGTACGGCAAGCAGCCGCGTCAA
CTGCAAGTGTCGCACGTGGACAAGAATCAGGTGATTTTGTTCAACCCTCTGACCGAAGAG
AGGACGGACGTCATATCGCTCAGGTCCAACACCACCAACATACGGGTGTACGACACTCGC
AGGAAGGAATACGTCCAGTATCAAATTATGCCCAATATAGAGATCCGTGAAAACAAAAAG
TTCGTCATCAGCGACATGAACTTCGACATCCTGTTCGTGGCGACTCTCCCGGCGCTGACG
GCGGTGACCTTCCGCCTGGAGGATCACAGCAACATCTCCCAGCACGCGGTGGTGTTCTGC
AACAGTTGTGACCACCGCGCCACCTCGCAGCGACCCTCAAACTTCGCCTACAAGAAGATG
ATGCCCGGCGACATCCAGCTCGAGAACTCAGTGCTGAAGCTGCTCATCGACCGCAACTCC
GGCCTCCTGAGGCAGCTCTACAGAAAAGACATACGCAAGAGAAACGTAGTCGAGATACAG
TTCGGGGCCTATCAAAGCGCGCAACGACATTCTGGAGCTTACCTGTTCATGCCTGACTAT
GATTCTCCCGAGAAAAACGTTTTGAACTCTTACACGAACGGTGAGAGCTTGCAGGACGAC
AACATAGTCATCATCTCGGGGCCGGTCTCCACTGAAATAACAACTTTTTACTTGCCCTTC
TTAGTTCACACTTTGAGGATTTACAACGTAGACGACCCCGCTCTGCTGCGTGCTGTACAG
ATTGAGAACATCGTGGATTTCGAAAGCCCGCCCAAGAACAGGGAGACCGAGCTGTTCATG
AGGTTCCAGACCAACATACAGAACGGGGAAGTACCAGAGTTCTATACGGATCAGAACGGG
TTCCAGTACCAAAAGAGAGTCAAGGTGGACAAGTTGGGCATCGAGGCCAACTATTACCCC
ATCACAACAATGGCTTGGCTGCAGGACGAGGAGAGCCGTCTGACGGTGGTGACCGACCAC
GCGCAGGGAGCTTCCGGCTTCGAGCCCGGGCGGCTCGAGCTGATGATGGACCGCCGCACC
TTGTACGACGACCATCGCGGCATAGGAGAAGGCGTCGTCGACAACAAGCCCACCGTGTTC
AGGAACTGGCTGCTGGTGGAGCCGACAACCTCAACCCCCCCCGACTCGAGCGACCGCGCC
AACACTGCACGCGACAAGCGAGACGCTCACGTGTCCGGCGTCCTCAGCGAGCGTCACTTC
CGGCCGGGGCAGGTGGGCAACGAGTACGAGCTGCCGTCGCTCGCCGCCGGGAAACTCAGT
CGTCACCTCAACTACCCGGTGAACGTGTACCTGGTGGACTCCAGCGAGGTGGAGGGCGGC
GATGTGGTCACCCGACACGAGCACGTGTTCGTCCAGGATTTCCCTCGAGACATCCACCTC
CTCACCTTGCGCACCTTGTCGGACCCTGCCCTCGACCAGCTGCCGACCGACACCGCGCTC
CTGGTGCTGCACCGCCCGGCCCACAGCTGCTCGGTGGGGGAGCGCCCCCCCTACTCCTCC
CCCTCCACCGGCGACACGCCCACTCCCCGCTCCCCCCCAGCGAGCGCACGCTTCACCCGC
GCCACGCGCTTCCCTCCCCTGCGCGTGTCTAACGTGACGTCTGTGAGCCTGACGGGTGTG
GTGGAGCGCCGTGTGCTGACAGGCCTGCAAGACCTGCACGTGGAGCCGCTCGAGATCAAA
ACATATAAGATACGCTTCTAA
Protein sequence:
MPEYIKFSIKRLSLFRVTCYFDTASFGCDRQQRVPSWLRSKEFWDKSFEDRYEKMKNDSR
RPRLKVIVVPHSHNDPGWLKTFEQYFEWKTKNIINNMVTKLHQLPNMTFIWSEISFLNEW
WERSHPVKQKIALVAGGWWLAAGGWRLVAGGWRLAGWRLSAGDRSPVEGLVTVAVVACTA
LKKLVKEGRLEITSGGWVMPDEACTHIYALVDQFIEGHQWVKTNLGTVPRIGWSIDPFGH
GPTVPHLLELSGLEGAIIQRIHYAWKQWLARRQIEEFHWAPGWSSRRPTLVVHNQPFDIY
SIKSTCGPHPAVCLGYDFRKIPGEYSEYTAKYEEITDQNVQSRARTLLEEYERVGSLTPH
NVALVPLGDDFRYEHASEFDAQYNNYMKMFNYINDRKDIFNADVSFGTPLDYFNAMKERH
DNIPVLKGDFFVYSDIFSEGKPAYWSGYFTTRPYLKILTRQFEHHLRTAEILFTLVSNYV
SQSKNKKLIASEKRLEKHYEQLVTARRNLGLFQHHDAITGTSKSTVMTDYGTKLLTSLYH
CIRLQETALTTLMLPDESLHSQSVLQSQMEWESYGKQPRQLQVSHVDKNQVILFNPLTEE
RTDVISLRSNTTNIRVYDTRRKEYVQYQIMPNIEIRENKKFVISDMNFDILFVATLPALT
AVTFRLEDHSNISQHAVVFCNSCDHRATSQRPSNFAYKKMMPGDIQLENSVLKLLIDRNS
GLLRQLYRKDIRKRNVVEIQFGAYQSAQRHSGAYLFMPDYDSPEKNVLNSYTNGESLQDD
NIVIISGPVSTEITTFYLPFLVHTLRIYNVDDPALLRAVQIENIVDFESPPKNRETELFM
RFQTNIQNGEVPEFYTDQNGFQYQKRVKVDKLGIEANYYPITTMAWLQDEESRLTVVTDH
AQGASGFEPGRLELMMDRRTLYDDHRGIGEGVVDNKPTVFRNWLLVEPTTSTPPDSSDRA
NTARDKRDAHVSGVLSERHFRPGQVGNEYELPSLAAGKLSRHLNYPVNVYLVDSSEVEGG
DVVTRHEHVFVQDFPRDIHLLTLRTLSDPALDQLPTDTALLVLHRPAHSCSVGERPPYSS
PSTGDTPTPRSPPASARFTRATRFPPLRVSNVTSVSLTGVVERRVLTGLQDLHVEPLEIK
TYKIRF