New model in OGS2.0 | DPOGS201893  |
---|---|
Genomic Position | scaffold22:+ 101465-105249 |
See gene structure | |
CDS Length | 1686 |
Paired RNAseq reads   | 107 |
Single RNAseq reads   | 271 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006066 (2e-53) |
Best Drosophila hit   | larval visceral protein H (9e-133) |
Best Human hit | neutral and basic amino acid transport protein rBAT (5e-71) |
Best NR hit (blastp)   | alpha amylase [Bombyx mori] (2e-152) |
Best NR hit (blastx)   | alpha amylase [Bombyx mori] (2e-145) |
GeneOntology terms    | GO:0004558 alpha-glucosidase activity GO:0006006 glucose metabolic process GO:0005975 carbohydrate metabolic process GO:0043169 cation binding |
InterPro families    | IPR013781 Glycoside hydrolase, subgroup, catalytic core IPR017853 Glycoside hydrolase, superfamily IPR006589 Glycosyl hydrolase, family 13, subfamily, catalytic domain IPR006047 Glycosyl hydrolase, family 13, catalytic domain IPR015902 Alpha amylase |
Orthology group | MCL10053 |
Nucleotide sequence:
ATGGTGTCTTGTGTGAAAGCGGTCGGTGTCTCCGTCTTGGTGCTGGTGGTTTTGGGAGTG
GTTGTGGGAAGTATCACCTGGGCGGTTCTCGCATCCCAAGGACCAGCCCCGCCGGAACTG
AAACCCTTGGACTGGTGGGAACATACCATCATCTACCAGATCTATCCGAGATCCTTCAAG
GACAGCGATGGAGATGGAATTGGGGACATAAGAGGCATCATAATGGAGTTGGAACATCTC
GCTGACATCGGCGTCGGCGCTATCTGGATGTCACCGGTGTTCGTCTCTCCGATGGTTGAC
TTCGGCTATGATATCAGTGACTTTTACAACATCCACAGTGAATATGGGACCATGCAAGAT
TTTGAAAGCTTAGTGCAAAAGGCACACGAACTCGGTATAAAAGTTCTTCTAGATTATGTC
CCGAACCACGCAAGTACCGAATCTAATTATTTTAAGAAATCAGAAGCAAGAGAGCCTGGA
TACGAAAACTATTTTGTTTGGGCTGATCCCATTATTGATCCGAATAACGCCAGCAACCGC
CTGGTTCCATCCAACTGGATCAGTCAATTCGGTGGCACCGTTTGGGAATGGAACGAGGCG
AGACAACAATATTATTTGCACCAATTCGCTATCGAACAAGCAGATTTCAACTTTAGGGAG
AAGGCTGTTAGAGATGAGATGATAAATATAATGAGGTATTGGTTTAATAAGGGAGTTGAT
GGTTATAGATTAGACGCTATCCCGCATCTCTTTGAAGCAGACCCTAATGATCACGGAGGA
GTGTACCCAGATGAGCCTTTGAGCGGTAACATGTTTTTAAATCCCAATCAACCCGGCTAC
ACCACTCAAGTTTATGTCAGAGATCGAATAGAACTGTACGATGTTGTTTACGAATGGAGA
GATTTCGCTGATAACTTTAAGAAAGATAACGGGACGGAGACGAAGATTCTTTTGGCGGAA
GCCTATGCCAATATTACGATGACTATGTTGTACTATGGCAACGAGAAAGATAGACACGGA
GCCCATTTCCCTTTCAATTTCGATTTCATAACTAGCTTGTCAGCTCAATCCAACGCTCGA
GACTTCGTGTACGTTATTCAACGCTGGTTAACATACATGCCGGCGGGTAGAGTCGCTAAT
TGGGTGTTTGGTAATCACGATCAAAATAGAATGCCATCCAGGTTCAGACATAATATGGTG
GATGGTTTGAATTCATTAAATATGATGCTGCCGGGAGTGGCTATAACATACCAAGGGGAG
GAAATTGGTATGAGGGATGGTTATGTGAGTTGGGAGGATACCGTGGATGTAAATGCTTGT
AACCAGGGAAACCCTGACAACTATTTAGATTACTCCAGGGATCCAGCTAGAACTCCTTAT
CAGTGGGATAATACGACTAATGCAGGATTCTCGAGCAGTTCAAAGACCTGGTTACCGGTA
GCCCAAGATTACGTGGAAATAAACCTACAAGCACAAAGAGAAGCAGAACGAAGTCATTAC
AAGGTGTATAAAACCATGAGCAATTTACGTAAAGAACCGACTCTATCACACGGAAACTAC
TACGCGAAGGCTCTGTCTGAACACACCTTCGTTTTGGTGCGGCATTTGATTACGGATCGT
GTTCCCCGAGTGAATATAACACTCGGCGCGGGAGAAGCGATCGTGCTGCGAGCTCCTCCG
ACCTAA
Protein sequence:
MVSCVKAVGVSVLVLVVLGVVVGSITWAVLASQGPAPPELKPLDWWEHTIIYQIYPRSFK
DSDGDGIGDIRGIIMELEHLADIGVGAIWMSPVFVSPMVDFGYDISDFYNIHSEYGTMQD
FESLVQKAHELGIKVLLDYVPNHASTESNYFKKSEAREPGYENYFVWADPIIDPNNASNR
LVPSNWISQFGGTVWEWNEARQQYYLHQFAIEQADFNFREKAVRDEMINIMRYWFNKGVD
GYRLDAIPHLFEADPNDHGGVYPDEPLSGNMFLNPNQPGYTTQVYVRDRIELYDVVYEWR
DFADNFKKDNGTETKILLAEAYANITMTMLYYGNEKDRHGAHFPFNFDFITSLSAQSNAR
DFVYVIQRWLTYMPAGRVANWVFGNHDQNRMPSRFRHNMVDGLNSLNMMLPGVAITYQGE
EIGMRDGYVSWEDTVDVNACNQGNPDNYLDYSRDPARTPYQWDNTTNAGFSSSSKTWLPV
AQDYVEINLQAQREAERSHYKVYKTMSNLRKEPTLSHGNYYAKALSEHTFVLVRHLITDR
VPRVNITLGAGEAIVLRAPPT