| Name | A_BomaMG_comp24553_c0_seq4 |
| Scaffold_id | |
NCBI non-redundant (nr) | PREDICTED:_neutral_alpha-glucosidase_AB-like_isoform_X2_[Bombyx_mori] |
| Ontology |
| GO:0003824 |
F |
catalytic activity |
| GO:0004553 |
F |
hydrolase activity, hydrolyzing O-glycosyl compounds |
| GO:0005783 |
C |
endoplasmic reticulum |
| GO:0005794 |
C |
Golgi apparatus |
| GO:0005975 |
P |
carbohydrate metabolic process |
| GO:0008152 |
P |
metabolic process |
| GO:0016787 |
F |
hydrolase activity |
| GO:0016798 |
F |
hydrolase activity, acting on glycosyl bonds |
| GO:0030246 |
F |
carbohydrate binding |
| GO:0033919 |
F |
glucan 1,3-alpha-glucosidase activity |
| GO:0042470 |
C |
melanosome |
|
Transcript Level | FPKM:16.02 TPM:14.84 |
| ORF Entry | |
Sequence (Nucleotide) | ACAAAATTCACCGGTCTTTGTGTACATATATTAACTTATTTAAAATATTTTTATTCCAGG
ATGAAGGTCTTGGCCTTAGTCCTGGTCGCGGCATTTGTGATTATCGGCATTTCTGCGGTA
GACAAAAATAAATTTAAAACATGCAGTCAGTCCGGCTTTTGTAAAAGGCTCCGCCCTTTC
AAACCAGAAAAATCTCAGTATAGTTTGAATTTGGACAGTATTTTGGTTCACGGCAACGTT
CTATCCGCTGAGGTGGTTACCATTGACGCTGCGGATGAAAAGCGAACAGTTTTGTGGAAG
TATGCCTTCAAGTTATCAGCGCTGGCCGATGGCACGTTCCGTGTGGAGCTCGATGAAGCG
GATCCTCTATACCCAAGATACAGGACGCAGCTGGCTTTGGATGGGGAACCGAAGGCAGAC
GGATTAAAACTGATTTCGAAAGACGATGGAAAAGTGATTCTCGTCAACACGCAAGGGCAT
AAAGTCATCATAACATCCGAACCTCTGAAACTCGAATTCTTGGACCTGAATGGAGAAGTA
GCGGTCGTTCTCAACGAGAACTCTCAGCTGCTCGTGGAGCCTCTAAGGGCGAGAAGGGAA
AAGGAGGAAGGAACTTGGAGTGAGACCTTCCAGTCCCATCACGACTCCAAACCTCGGGGC
AACGAAGCAGTTTCGCTCGACGTTGTCTTCCCTGATGCGGATCACGTCTACGGTATACCG
GAGCACACGGACGGTTTGGCCCTGAAGACGACCACGTCCGGCGACCCGTACAGGCTGTAC
AACCTGGACGTCTTCGAATACATATTGGACAGCAGGATGGCGATATACGGCTCGGTCCCG
GTCATGTACGCACACGGCCCGAAACGGACCGTGGGCGTGTTCTGGCACAACTCCGCCGAG
ACCTGGATCGATGTGGTCAACTACGGGGAAGGGAACGTGGTCTCGTCGCTCGTCAACCTG
GTCACCGGGGGACAGAAGAAACGCGTCGATGCAAGGTTCCTGAGCGAGTCCGGCATCGTG
GACATGTTCGTGCTGATGGGCTCCACCCCCGGGGACGCGTTCCGGCAGTACACCGCGCTC
ACCGGGACCACGCCGCTGCCGCCAAAATTCTCGCTGGGCTACCACCAGTGCCGCTGGAAC
TACATGGACGAGGCGGACGTGCGCTCCGTCGACGAGAACTTTGACGTGCATGATATCCCC
ATGGACTCCATCTGGCTGGACATCGAGTACACCAACAAGAAGATGTACTTCACGTGGGAC
GTGGTCAAGTTCCCGCATCCGGCGGAAATGGTGGCCAACCTGACGGCCAAAGGAAGGAAG
ATGGTTGTCATCGTGGATCCGCACATCAAACGCGAACCTGGATATTTCTTACACGAGGAC
GCGACTGAATTAGGGTACTACGTCAAGGACAGAGACGGCAAGGATTATGAGGGTTGGTGC
TGGCCCGGCTCCTCCTCGTACCCGGACTTCTTCAACCCGGTGGTCAGCCGGTACTACTCG
GACCGGTACAGGTTCGAGAACTTCCCCGGGACTAGCAAGGACGTCCACCTGTGGAACGAT
ATGAACGAGCCCAGTGTCTTCAACGGTCCAGAGGTCACCATGCCCAAGGACTGTCGCCAC
TACAAGCCGCCCCAGGATGGTCTAGAGGGGCTGGCGGCTTACTGGGAGCATAGGCACGTG
CACAACGAATACGGGCTGTGGAACCTGCGCGCCACCAACACGGGGCTGCTGGACCGCGCC
GACGGCGTCTACAGACCCTTCCTGCTCACGAGGGCCGTGTTCGCAGGCACCCAGAGATAC
TCGGCGGTATGGACAGGTGACAATACGGCGGAGTGGTCGTTCCTTGCGGCCTCCGTGCCG
ATGTGCCTGTCACTGGCAATAGCCGGGAACAGTTTCTGCGGTTCCGATGTCGGAGGATTC
TTCAAGTATCCCGAAGCGGAGCTCATGACGAGGTGGTACCAGGCGGCCGCGTTCCAGCCG
TTCTTCCGGGCCCACTCGCACATCGAGACCAAGCGGCGCGAGCCCTGGCTGTACCCGGCC
GCCACCACCGCGCTCATCCGGGACGCCAACCGCAAGAGATACGCGCTGCTCGACTTCTGG
TACACTCTGTTCTACGAGCACACGGTGGACGGGCTGCCGGTCATGAGGCCCCTGTTCCAG
CACTACCCCGACGAGCCGGCCACCTACCCCATCGACGACCAGTACCTGCTCGGGGACGCG
CTGCTGGTGAAGCCGGTGACGACGGCTGGGGCGAGCTCCGTGGAGGTATACCTGCCCGGG
GACGGCCCGTGGTACGACGTGGACACGTACGTGCCGCATAAAGGACCCCGCATCACGCAG
CCTGTCACCATCTCCAAGATCCCGGTGTACCAGCGCGGCGGAACCATAGTGCCGCGCCGG
GAGCGCGTGCGACGCTCCTCCGCGCTGATGGCTGACGACCCCTTCACCCTGGTGGTCGCG
CTCGACGCTAACAACTCTGCTCGCGGCTCTCTGTACATCGACGACGGCGAAACCTACGAG
TACAAGAACAATAAGTACATCTACGCCAAGATCGAGTTCGGCCCCGACGAGATGACGTAC
ACGCTCGCGAACGAGGGCGCCCAGTACCCGACCGGGGCGTGGCTGGAGCGCGTGGTGGTG
GCCGGCATCAGGGCGGCGCCGCGGAGCGCCCGGCTGCAGCAGGACGGGCGGCAGACGGCG
CTGCAGATGACGCTGCACAAGGGCAACGACGTGCTGGTGCTGAGGAAGCCGGCCGCCAGC
ATGGCCAGACCCTGGACCATCACCTTCGCCTACTGATGCGACACTCGACGCTCTGATAGT
GTACGTGATCTGCATTCGTCGATCGCCACTTAGATTGGAATTAGCTCGAAATTTGACTGT
CAGATATATTGACATGTCAAATGAATTGACATATCCGAATTTCTCGGTTCACATACATAT
AATATTGGATCCGCGTCTATAGCTTCGTACTATTTGTATCACACAGACGCGGCGAATAAT
TCGCAGAGAAATTTAGATATATCGTAATAATAGGCAACCGGACAATATAGGCAAATAATT
AGGAAATAAATGTAAGTGGTTTTTGAAATTCGACTATAATGACAGACAACTCAAGGTCTA
GATTCGTTTGACATCTTTCTCTTTAGCTTTCTTAATGACGTTTAAACATAGACACATAGA
TGGCATCGGGGCATGTTCGATAACCCCTAGACGCGAACAAAAGATTTGGTCGAGAAACAA
CCGAGAAAATATTAGCGCACCGTTGTGCGGGTTCTTATTAGATCAAAACGAAAGATCATT
TAAAAAAAAACCACTAATTTAATAAATTATTATAATAATGATTAAATTTTTAATTCGCTG
TATAAAATTGAATAGCACAACGTTTTCTTAACTTCAAACAAACCGGCAACTTCAACGCGT
GATGTCACATGTGGTTTTTGATTGTGTTATGCGCACGATCTATGGTTAAAGGCTGTATGG
GTTTAGATACCCTTGCCTTTCCTAATAAGGAAAAATCGTACCAAAAAAAAAGATCTATCG
TTAGTTCCTGGATTTTGGCCGCAAATGACGTCACACGTACCGGAGTTGCGTTCGTGCGAT
ATTGCTTGGAATTTTGTACACCGAAAACTTTCCGATTGCCTATTGTTACGGAGTAGCACA
ACCATAAACATTGATTTATCGACAAAAGCGGATGATAAACACTAACAGAGTTGTCTAATG
TCTCTTAGAAATGTGTATTGTAAACTAATTTTATTGATATCATATGAATGACAGTGATTG
ATTGAATTTAGTTATAGATCAAACGGTCATCAGATGTCTGTATCGTTTACATGATATTTT
AAAACAATTTTTAATTTAATAAAAATATAAAATAAACCAATGCATTTAAATCACCGTTAA
AGTTATTTCAAATTGATGCACAATATTATCCTTTTGGATAAATAATCGATAATTATCAAT
GACACTGCCAATACCCGTATTAGAGAATGCAATAGATAATTGCATGATTACAGAATGTAT
ATTAAGAATTTAAATTACATAAGTAATTTTTTTACAAATATGCACGTGCAATGTTCTAAT
TGCGATGACATGGTTTTTAATCACTGAATTATTTTGAAAACTGATCGTGATGCTATGTCT
AATTAAGTGAGAGTACTTTAGTATGTGATTTCTGTAAATGATAATTTTCATAACTGGCAA
CACTGGTGTTGGTTTTACAACTTTTGTGGTTGTTACAAAAATATGTTTTAAGTTGAAATG
TGAGAGGTTCTTTGTGTTCTGTGATTGTCGAATATCCCTTTAGGAAAATATACAGTTTTG
TTTGTGAACGGTGAGATCCTGAAAGTATTTTGTCATTATATGACGGGTAATAGACGAGTT
CTCGTAATAAAAAAATTGTT
(4400 bp) |