| New model in OGS2.0 | DPOGS205833 |
|---|---|
| Genomic Position | scaffold318:- 17496-29503 |
| See gene structure | |
| CDS Length | 4980 |
| Paired RNAseq reads | 9357 |
| Single RNAseq reads | 23274 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA010888 (2e-58) |
| Best Drosophila hit | CG9485, isoform B (0.0) |
| Best Human hit | glycogen debranching enzyme isoform 2 (0.0) |
| Best NR hit (blastp) | PREDICTED: similar to CG9485-PA, isoform A [Apis mellifera] (0.0) |
| Best NR hit (blastx) | PREDICTED: similar to glycogen debranching enzyme [Nasonia vitripennis] (0.0) |
| GeneOntology terms | GO:0004134 4-alpha-glucanotransferase activity GO:0004135 amylo-alpha-1,6-glucosidase activity GO:0005978 glycogen biosynthetic process GO:0043169 cation binding |
| InterPro families | IPR010401 Amylo-alpha-1,6-glucosidase IPR006421 Glycogen debranching enzyme, metazoa IPR008928 Six-hairpin glycosidase-like IPR017853 Glycoside hydrolase, superfamily IPR013781 Glycoside hydrolase, subgroup, catalytic core |
| Orthology group | MCL13378 |
Nucleotide sequence:
ATGCTCGCAAGAGAGATGACCGAGTACGCGAGGAAGGCGGAAAAAATCGCCATCGAAAAG
AGGCAGATGGCAGTGGAGAGTCGCGAGGCGGAGGGGGGGTCGGCGCCCGAGGCCAGCGGC
GAGGGGGCGGGGGAGGGGCAGGTCGTCCGTGCGATCACGCTCAATCACGGAGAACATCAA
GACGCTACTCTCTATAGGTTTGAAAAAGGATGCCGTTTACAGTTCAGCCCCGGTCCGAGC
ATGCTCGGTCGGAAGGTGTTCCTCTACACAAATTATGTCGTCTCAGAAAATTCGGAAGAC
AAGAGCGAGCCAGCGTTCGTACGCAACCAGTACTATGCTCTCGAGTGGAGGAAGGACGAG
GATTCGGAGTCTCTCGGTACCGGCCTCCTGGTCACTGACACGGAGTTCTACTGCGAGCTG
AAACTGGCTAAGGCTGGCTCATTCCACTACTACTTCGTTTACGACAGCCCCGAGTCCCGG
GTGGGTCCTCAAGGCTCGGGCTGGTTCCACGTGGCTCCGAGCCTCTCCGCGGGGGGAGTT
CAGGTTCCGCTGGACGGCGTCATGTGTCAGACGGTGCTGGCCAAAAGTTTGGGACCCCTG
TCACGGTGGATGAAAACCCTGAGAGTGGCTCACGAAGCTGGTTTCAACATGATACACTTC
ACTCCCGTTCAGGAGCTGGGCGCGTCTAATTCAAGCTACAGCCTGGCGAACCAGCTCAAG
CTGAACCCTCGCTTCAACGACATCAATTCTGGCAGGGATGCCACTTTCGCTGACGTGGAA
AACATCATCGCCAAAATGCGCAACGATTGGAAGATGCTGTCGATATGTGACGTCGTGTTG
AACCACACGGCCAATGAGAGTGAATGGCTGACGTCACATCCGGAAGCCACTTATAATTGC
ATCACATGTCCCCACCTGAGGCCCGCCGCCCTCCTCGATGCTGTACTGGCCAAGTTGGGG
GAAGACATCGCATCGGGACGGGAAACTCGCCTGCCCACTAAGATTAACACACATCAACAA
ATTGAGATGATCCGCGACATCCTGCTGAACGAGCGTCTCCCGGAAGCGAAGCTGCACGAG
ATGTACATCTGTAACGTGGACGAGACGGTCGAGAGGTTCTACCACATGGCGAGGAATAAG
GCCGACTGCTACGACGAGGATGCTCGTGTGAAGCGTTGCTGTGAGGAGTTCCGCGTGAAA
CTGGAACAGTTGAACGAGGCCGCCATACACACCGTCAACGATCACCTGAGAGCCGCTGTG
CAGAACTGTGTAGCGGGAATGAGTTACTTCCGTCTTCAGTCAGACGGCCCTAAGATAGAG
GAAGTTAGCGAGAAAAATCCTCTCGTACCAAGATATTTCACGTTCCCTGGTCCGCTGGGT
GGTGTCGCGGACATGGAAGGCGTGATATACGGCGAGGCGGGCCGCCTGGTGATGGCGCAC
AACGGCTGGGTCATGAACTCCGACCCGCTGCAGGACTTCGCTGACAAGGAACACGACGGA
CGGGTTTACTTCAGGAGGGAACTCATCGCTTGGGGAGACAGTGTCAAACTCAGGTACGGC
GAGAAGCCGGAAGACAGTCCATTCCTTTGGCGCCACATGCGGCAATACGTAGAACTAACA
GCCGAGGTCTTCGATGGAGTCAGACTGGACAACTACGGCCCTAAGATAGAGGAAGTCAGC
GAGAAAAATCCTCTCGTGCCAAGATATTTCACGTTCCCTGGTCGGCTGGGTGGTGTCGCG
GACATGGAAGGCGTGATATACGGCGAGGCGGGCCGCCTGGTGATGGCGCACAACGGCTGG
GTCATGAACTCCGACCCGCTGCAGGACTTCGCTGACAAGGAACACGACGGACGGGTTTAC
TTCAGGAGGGAACTCATCGCTTGGGGAGACAGTGTCAAACTGAGGTACGGTGAGAAGCCG
GAAGACAGTCCATTCCTGTGGCGCCACATGCGGCAGTACGTAGAACTAACAGCCGAGGTC
TTCGATGGAGTGAGACTGGACAACTGTCACTCAACGCCATTACATGTCGCGGAGTACATG
CTGGACTGTGCTCGGAACGTCAAACCCGACTTGTATGTAGCGGCGGAGCTGTTCACTAAC
TCCGACCACGTCGACAACATATTTGTCAATAGACTTGGTATAACGTCGCTGATACGAGAA
GCCCTATCAGCATGGGACTCCCACGAGCAGGGTCGACTGGTCCATCGTTTCGGAGGTCGC
GCCGTGGGGTCGTTTTTCACCCCTCAAGTGACCCGCGCCCAACCTCAAGTGGCCCACGCT
TTGTTCCTTGACCTCACACACGACAACCCATCGCCGATCGATAAGAGGAGCGTGTTCGAT
CTACTCCCGTCCGCGGCGCTGGTGTCGATGGCCAGCTGCGCGATCGGTTCCACTAGAGGA
TACGACGAGCTCGTGCCCCACCATATCCACGTGGTGGACGAGGCTCGTTTGTACGCGGAG
TGGGAGGAGGGGGAGGGGGAGGGGGTGAACGCGTCCACCGGCCTTATAGCAGCTAGGCGG
GCGCTCAACGATCTACATTTACATCTAGCAGCCTCCGGATACTCGGAGGTGTACGTCGAT
CAAATGGATGCTGACGTGGTGGCTGTGACGAGACACGAACCACATTCGAGAAAGTCTGTT
ATTTTGGTCGCCTTCACCGCCTTCAAGGCCCCCGACGAGTCTTCCACCGGCCGCTACGTG
AAGCCGTTACGGTTCGAGGGACAACTGGAGGAAATTATTTTGGAGGCGGTGCTGAGACAC
AAGGACCACAGAAGCACGGGTCGCCCGTTCCAGACGTGCGGAGGGTTCTCTCGTCACCCG
CAGCACATCAACGGTCTCAGCGACTACGAGGCCAGCGTCCGCTGCGGCGTTCCGTTGGCG
CAGTCCAACGTGTTTGTTAGTGAACGCCGTGACGGTCCCTATACTGTGCTGGAGTTCGGC
GTGCTACCCCCCGGGACGGTGGTCGCGGTGCGTGTGGCTCCACATTCCTCGCAAGCGGGA
GCGTTGGCGGCTCTCAGACGAGTGACCTGCCAGCATCCAGCCACAGATCCCCTGGGTCTA
TCGCCGGCACTCACTGACCTCGATCTAGGAGATTTCAACGCGTTGCTATATTGCTGTGAC
GCGGAGGAACGTGAGCGCTGTGGGGGCGGAGTGTACGACGTGCCCGGTCACGGTCCGCTC
GTATACGCTGGGCTGCAGGGCGTGGCTTCACTGCTGGAGGAAGTCGCCCCACGTGACGAC
CTCGGACACGCGCTATGTGACAACCTCCGCGCTGGCGACTGGCTGCTCGACTACCAATGG
CGGCGCTTAGAGTCTGACCCGCGACTGTCCGCCCTGGCGACGATCTATAGAGAAGCGTTG
AGGCCGGTCGGTGAATTACCGCGTTTTCTGGTGCCGGCCTACTTCGAGGTCACCGTCCGT
TGTATGATAGCTGCCGTGAAGCGCGCGGCCCTGGCTCGTCTGGGAGGCGTCGCGTTGAGT
TCGGGAGTCGCTCGTGAGTTGTCACTGACCGGGGTCCAGCTGGCCGGTGCGGTGTCGTCC
GCTCGTTTGCCGGCCATGTCTCCCTCTCTGCCGATGCTCCGCCCGGCTCGTCCTTTGTCC
CTGTCGGCCGGTCTGCCTCACTTTGCCGTGGGCTACATGAGATGCTGGGGTCGAGACACC
TTCATCGCTCTGAGAGGGATGTTCCTACTCACGGGCCGTTATCAAGACGCGCGCTTCCAT
ATACTAGGATTCGCTGCTTGTTTAAGACACGGTCTGATACCTAATTTATTGGACGGAGGC
CGCAACGCTAGATTCAACTGTCGCGATGCGGTGTGGTGGTGGCTGCAGAGCATCAAACAG
TACTGCACGGAGGCCCCTCAAGGCTACTCTATCCTGACGGACCCGGTGTCTCGTATATTC
CCGAAAGACGACAGTGAGCCTGCACCCCCAGGGGCTGCGGACCAACCGCTGCATGACGTT
ATGCAGGAAGCCTTGGACGTTCACTTTCAGGGTCTCGTCTTTCGTGAGCGCAACGCCGGC
CGACAGATAGACGCACACATGTCCGACAAGGGTTTCAACATCCAGATCGGCGTGGACCCC
GAGACCGGGTTCCCGTTCGGAGGAAACGAAGCCAACTGCGGGACGTGGATGGATAAGATG
GGTTCGTCGGAGACGGCCGGCACGCGGGGGAAGCCCGCCACGCCGCGCGACGGCAGCGCG
GTGGAGCTCGTCGCGATGGCGTACTGCGTCGCGTCCTGGCTGGCGGCACAGCATCGCTCC
GCTAAGTATCCGTACCCGGGCGTGGCGAGGCGGCACCGAGACGGATCCCTCACCGCCTGG
ACGTACTCCCAGTGGGCGGATCGAATACGACGCTCCTTCGAACGACACTTCTGGGTCCCG
GCCGCGCCCTCGGCCGCCGACCAGCGCCCAGACCTCGTGCACCGCCGCGCCATCTACAAG
GACACGCACGGCGCCTCGCAGCCCTGGGCCGACTATCAACTGCGCTGCAACTACGTCGTC
GCCATGGCTCTGGCGCCGGAATTGTTCGACCCGCGACACGCCTGGCTCGCCCTGGACAAT
GTCGAGAAACTGCTGGTCGGGCCTCTCGGTCTCAAAACCCTCGACCCCGAGGACTGGGCC
TACCGTCCCAACTACGACAACTCGGACAACAGCTCGGACCCGAGCGTTGCACACGGCTTC
AACTACCACCAGGGCCCGGAGTGGACGTGGCCGCTCGGCTTCTACCTCAGAGCGCGGCTC
GCCTTCGCTCACGACAACGGTCAGTTCTCCAAGACCGTGGCGGCGGCATACGCGGCCCTC
GCCCCGCTTGTGGCAGAGATGCGTTCGTCCCCGTGGCGCGGCCTGCCCGAGCTGTCCAAT
GCCGGAGGCGCATTCTGTAAGGACTCGTGTCGCACCCAGGCCTGGAGTTCGTCCTGCATG
CTAGAGGTGCTCCATGATCTCGAGCTGTCGCGCCGAGCTCGACCGCTCCCTCTCGACTGA
Protein sequence:
MLAREMTEYARKAEKIAIEKRQMAVESREAEGGSAPEASGEGAGEGQVVRAITLNHGEHQ
DATLYRFEKGCRLQFSPGPSMLGRKVFLYTNYVVSENSEDKSEPAFVRNQYYALEWRKDE
DSESLGTGLLVTDTEFYCELKLAKAGSFHYYFVYDSPESRVGPQGSGWFHVAPSLSAGGV
QVPLDGVMCQTVLAKSLGPLSRWMKTLRVAHEAGFNMIHFTPVQELGASNSSYSLANQLK
LNPRFNDINSGRDATFADVENIIAKMRNDWKMLSICDVVLNHTANESEWLTSHPEATYNC
ITCPHLRPAALLDAVLAKLGEDIASGRETRLPTKINTHQQIEMIRDILLNERLPEAKLHE
MYICNVDETVERFYHMARNKADCYDEDARVKRCCEEFRVKLEQLNEAAIHTVNDHLRAAV
QNCVAGMSYFRLQSDGPKIEEVSEKNPLVPRYFTFPGPLGGVADMEGVIYGEAGRLVMAH
NGWVMNSDPLQDFADKEHDGRVYFRRELIAWGDSVKLRYGEKPEDSPFLWRHMRQYVELT
AEVFDGVRLDNYGPKIEEVSEKNPLVPRYFTFPGRLGGVADMEGVIYGEAGRLVMAHNGW
VMNSDPLQDFADKEHDGRVYFRRELIAWGDSVKLRYGEKPEDSPFLWRHMRQYVELTAEV
FDGVRLDNCHSTPLHVAEYMLDCARNVKPDLYVAAELFTNSDHVDNIFVNRLGITSLIRE
ALSAWDSHEQGRLVHRFGGRAVGSFFTPQVTRAQPQVAHALFLDLTHDNPSPIDKRSVFD
LLPSAALVSMASCAIGSTRGYDELVPHHIHVVDEARLYAEWEEGEGEGVNASTGLIAARR
ALNDLHLHLAASGYSEVYVDQMDADVVAVTRHEPHSRKSVILVAFTAFKAPDESSTGRYV
KPLRFEGQLEEIILEAVLRHKDHRSTGRPFQTCGGFSRHPQHINGLSDYEASVRCGVPLA
QSNVFVSERRDGPYTVLEFGVLPPGTVVAVRVAPHSSQAGALAALRRVTCQHPATDPLGL
SPALTDLDLGDFNALLYCCDAEERERCGGGVYDVPGHGPLVYAGLQGVASLLEEVAPRDD
LGHALCDNLRAGDWLLDYQWRRLESDPRLSALATIYREALRPVGELPRFLVPAYFEVTVR
CMIAAVKRAALARLGGVALSSGVARELSLTGVQLAGAVSSARLPAMSPSLPMLRPARPLS
LSAGLPHFAVGYMRCWGRDTFIALRGMFLLTGRYQDARFHILGFAACLRHGLIPNLLDGG
RNARFNCRDAVWWWLQSIKQYCTEAPQGYSILTDPVSRIFPKDDSEPAPPGAADQPLHDV
MQEALDVHFQGLVFRERNAGRQIDAHMSDKGFNIQIGVDPETGFPFGGNEANCGTWMDKM
GSSETAGTRGKPATPRDGSAVELVAMAYCVASWLAAQHRSAKYPYPGVARRHRDGSLTAW
TYSQWADRIRRSFERHFWVPAAPSAADQRPDLVHRRAIYKDTHGASQPWADYQLRCNYVV
AMALAPELFDPRHAWLALDNVEKLLVGPLGLKTLDPEDWAYRPNYDNSDNSSDPSVAHGF
NYHQGPEWTWPLGFYLRARLAFAHDNGQFSKTVAAAYAALAPLVAEMRSSPWRGLPELSN
AGGAFCKDSCRTQAWSSSCMLEVLHDLELSRRARPLPLD