New model in OGS2.0 | DPOGS214663  |
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Genomic Position | scaffold1015:- 1823-6459 |
See gene structure | |
CDS Length | 1563 |
Paired RNAseq reads   | 235 |
Single RNAseq reads   | 624 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001876 (0.0) |
Best Drosophila hit   | amyrel (5e-156) |
Best Human hit | alpha-amylase 2B precursor (6e-129) |
Best NR hit (blastp)   | alpha-amylase 2 [Diatraea saccharalis] (0.0) |
Best NR hit (blastx)   | alpha-amylase [Anagasta kuehniella] (0.0) |
GeneOntology terms    | GO:0004556 alpha-amylase activity GO:0005509 calcium ion binding GO:0005975 carbohydrate metabolic process GO:0003824 catalytic activity GO:0043169 cation binding |
InterPro families    | IPR006047 Glycosyl hydrolase, family 13, catalytic domain IPR006048 Alpha-amylase, C-terminal all beta IPR015902 Alpha amylase IPR006046 Glycoside hydrolase, family 13 IPR017853 Glycoside hydrolase, superfamily IPR013781 Glycoside hydrolase, subgroup, catalytic core IPR013780 Glycosyl hydrolase, family 13, all-beta IPR006589 Glycosyl hydrolase, family 13, subfamily, catalytic domain |
Orthology group | MCL10148 |
Nucleotide sequence:
ATGCACTTGGACACAACACTGGCACAGATAGCCTCATTGCAGGCTGGGTTAACAATTCTA
GTTGTATTAGCTTTGGCAACCGGACTAAATGCTTATAAGAATCCACACTATGCGCCGAAT
AGATCTGTGAACGTTCATTTGTTTGAATGGAAATGGGATGACATAGCGGCTGAATGTGAA
CGGTTCTTAGGACCTAAAGGGTTCGGAGGTATTCAGGTATCACCGCCCAATGAGAACGTC
GTTCTTCGTAACAACAATCGTCCCTGGTGGGAGCGGTATCAGTCCATGTCATATAAGCTG
GTGACCAGATCTGGCAATGAACAGCAGTTTACCAACATGGTCAGACGGTGTAACGCGGCT
GGAGTTAGGATTTACGTGGATGCTGTCATCAACCACATGACAGGAGAGCCAGTGGAGAAT
GTAGGGACAGGGGGAAGCACTGCTGTGTTCCGGGATTTTTACTACCCAGCTGTGCCTTAC
ACCAGGGATCACTTCAACTGGCCAACGTGCGGTATTAATGGGGAAGACTATATGAACAAT
GCGTGGAGGGTCCGCAACTGTGAGCTGGTCGGTCTGAAGGATTTGGATCAGAGCAACGAA
CATGTCAGACAAATGATAGTCAATTATATGAACAAACTCATAAGCCTCGGTGTCGCTGGA
TTCAGAATCGACGCAGCGAAGCACATGTGGCCGGAAGACTTGAGAGTCATTTTCAGCAGA
CTCCGAAATCTGAACACTGAGCACGGTTTCGCCCCGAACTCCCGACCATACATATACCAG
GAGGTTATCGACTATGGCGGTGAGGCCGTCAGCAGGGACGAATACACACCCATAGGGGCT
GTCACAGAATTCAAAGCTGGCTTGGAACTTAGTAACGCCTTCAGAGGAAGCAACCAACTG
AGATGGCTTTCCTCGTGGGGCCCACAATGGGGTTTGCTAGCTAGCGGTGACGCTTTGACA
TTTATAGACAACCATGATAACGAGAGAGGTCACGGAGGCGGTGGGGGGATATTGACGTAC
AAGGAGCCCAGAGCATACAAGGCGGCTATAGCGTTCCTCCTGGCGCATCCTTACGGGGAA
CCACAGATAATGAGCAGTTTTCAATTCCTGGACTCCGAAATTGGACCACCGATGGACTTT
AACCAGAATATTATATCACCCTCTATCAATTCCGATGGATCTTGCGGCAACGGCTGGGTC
TGTCAGCACCGTTGGAGACAGATCTACGCGATGGTAGGATTCAGGAACGCGGCTGGCAAC
AGTGGCATCAACGATTGGTGGGACAACGGCTCTAATCAGATCGCGTTCTGCCGCGGAAAT
AAGGCTTTCATCGCATTTAACAATGACAACTGGACTTTAAATCAAAATTTGCAGACCTGT
CTGCCCGCGGGTACTTACTGCGACGTCATCTCGGGAGACAAAGTGAACAACTCCTGTCGC
GGTAAGACTGTGAACGTGGACGGTAACGGTCGCGCTAACATTATACTTGGCAACAATGAG
TACGACATCATGATGGCTATACATGTTGGTCCGGAGGTAAGCACTGATTATAAAATTTCT
TAA
Protein sequence:
MHLDTTLAQIASLQAGLTILVVLALATGLNAYKNPHYAPNRSVNVHLFEWKWDDIAAECE
RFLGPKGFGGIQVSPPNENVVLRNNNRPWWERYQSMSYKLVTRSGNEQQFTNMVRRCNAA
GVRIYVDAVINHMTGEPVENVGTGGSTAVFRDFYYPAVPYTRDHFNWPTCGINGEDYMNN
AWRVRNCELVGLKDLDQSNEHVRQMIVNYMNKLISLGVAGFRIDAAKHMWPEDLRVIFSR
LRNLNTEHGFAPNSRPYIYQEVIDYGGEAVSRDEYTPIGAVTEFKAGLELSNAFRGSNQL
RWLSSWGPQWGLLASGDALTFIDNHDNERGHGGGGGILTYKEPRAYKAAIAFLLAHPYGE
PQIMSSFQFLDSEIGPPMDFNQNIISPSINSDGSCGNGWVCQHRWRQIYAMVGFRNAAGN
SGINDWWDNGSNQIAFCRGNKAFIAFNNDNWTLNQNLQTCLPAGTYCDVISGDKVNNSCR
GKTVNVDGNGRANIILGNNEYDIMMAIHVGPEVSTDYKIS