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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_SariMG_comp29654_c0_seq5
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_neutral_alpha-glucosidase_AB_[Papilio_xuthus]
Ontology
GO:0003824 F catalytic activity
GO:0004553 F hydrolase activity, hydrolyzing O-glycosyl compounds
GO:0005515 F protein binding
GO:0005783 C endoplasmic reticulum
GO:0005794 C Golgi apparatus
GO:0005975 P carbohydrate metabolic process
GO:0006491 P N-glycan processing
GO:0008152 P metabolic process
GO:0015926 F glucosidase activity
GO:0016020 C membrane
GO:0016787 F hydrolase activity
GO:0016798 F hydrolase activity, acting on glycosyl bonds
GO:0017177 C glucosidase II complex
GO:0030246 F carbohydrate binding
GO:0033919 F glucan 1,3-alpha-glucosidase activity
GO:0042470 C melanosome
GO:0044822 F RNA binding
GO:0070062 C extracellular exosome
Transcript
Level		FPKM:0.89 TPM:0.90
ORF EntryO_SariMG12318_complete:A_SariMG_comp29654_c0_seq5
Sequence
(Nucleotide)
CGTAACGAGCGTGTTCGTTCACTGCAGTTTTTTCGTAAAAAATTAAATTGTTTTACCTAC
AAGGGCAATGTATATTTAGAAAATTCATAATAAGGCTTGCAGTAAAATTTCCTATTGAAA
AATTACATTTTGGCCAACTAGAATGAAGGCATTGGGGCTTCTTTTGGCCTTGACTATAAG
TAGTGTATATGGCGTGGATAGGAATAACTTTAAAACTTGCGATCAGTCAGGTTTCTGCAA
ACGTTTGCGGCCATTTAAACCTGAAAAATCTCAGTATAGTCTAAATTTGGACACTGTTTT
GGTTCATGGGAATGTATTATCTGCTGAAGTGGTTACCGTCGATACGGGAGCTGAAAAACG
TACCATTCTGTGGCATTACACATTACGGCTGTCAGCTCTAGTGGATGGGACATTCCGTGT
GGAGTTAGATGAATCTGATCCACTGTATCCTAGGTATAGGACTCAGTTAGCTCTGAATGG
AGAACCCAAGCCTGACAGTCTCAAACTTGTCTCCAACGAGAATGGAAGACTCACACTAAC
CAATAATCAAGGACACAAGGTCGTAGTAACGGCTGAACCATTGAAGATCGAGTTTCTGGA
TCGTTCGGGAGAAGTGGCTGTCGTTCTCAATGAAAACTCCCAACTCCTCGTCGAACCACT
AAGGGTGAGAAGGGAAAGAGTGGAAGATGAAGATGGAAATGAGAACGCTTTAGATGTTGA
GGATGAGAATAATTGGAGTGAGAATTTCAAGTCGCATCACGACAGCAAACCGCGTGGGAA
TGAAGCAGTGTCCCTCGATGTCTCCTTCCTTGATGCAGCCCAAGTATACGGTATCCCAGA
ACATACTGACGGTTTCGCGTTATCGACAACTAGTTCGGGCGAGCCGTATCGTCTCTACAA
CTTGGACGTATTCGAATACGAGCTGCTCAGTCGTATGGCTCTATACGGAGCTATACCGTT
TATGTTTGCACACGGGCCAAAGCGTAGTGCTGGGGTCTTCTGGCACAACTCCGCCGAGAC
TTGGATCGATGTCGTCAACTACGCGGACAGTACTGTCGTCTCATCTCTCGTAAACCTCGT
CACCGGTGGACAGAAAAGGAGAGTCGATGTCAGGTTCATGAGTGAATCCGGTGTATTGGA
TATATTCGTAATGCTGGGCGATACACCAGCTGATGTCTTCAGGCAGTACACCAAGCTAAC
TGGAACTACGCCTCTGCCACCTAAATCCTCACTGGCGTATCACCAATCCCGTTGGAATTA
CGTCGACGAAGCGGACGTCCGCGGTGTCGATGAGAACTTTGACGCACACGACATACCTTT
AGATTACATCTGGCTGGACATCGAGTACACCGACCACAAGAAGTACTTTACATGGGATCA
GGAGAAGTTCCCCCACCCTTCGGAAATGGTTGCGAACCTTACGGCAAAGGGACGCAAGAT
GGTCGTCATAGTTGATCCGCACGTTAAAAGGGAAGCCGGTTACTTTGTACACGAAGATGC
TATCGACAACGGATACTATGTCAAAGATAAAGACGGCAAAGTGTATGAAGGTTGGTGTTG
GCCGGGATCGTCCTCGTACATGGATTTCTTCGACCCGGTGGTATCGAAGTACTATTCAGA
ACGGTACAGATACGAGAACTTCCCGGGGACGAGCAAAGACGTACACATTTGGAACGACAT
GAACGAGCCTAGTGTATTTAATGGTCCGGAGATCACAATGCCGAAGGATTGCAGACATTA
CAAGACTCCGCAGGACGGCCATGAAGGATTGGCTTCCTACTGGGAACACAGGCACGTTCA
CAACGAGTACGGTTTGTGGAACATAAAATCGACGCACGAGGGTATGCTGAACAGAGACAA
CGGGAAGTATCGACCGTTCATACTCACAAGGTCAACTTTCGCCGGTACACAACGGTATGC
AGCAGTTTGGACTGGGGATAATATGGCCGAGTGGGGTTTCCTGGCTGCGTCAATATCGAT
GTGCTTGTCGCTAGCGACGGCCGGCATTAGCTTCTGCGGATCCGATGTCGGTGGATTCTT
CAAATACCCTGAAGCAGAGCTCATCACCCGCTGGTACCAGGCGGGCGCTTACCAGCCGTT
CTTCCGCGCTCATTCCCACATAGAGACGAAACGGCACGAGCCCTGGCTCTACGAGCCCGC
GACCACCGCGCTCATACGCGACGCGAACCGACGCAGATACGCCCTCATAGACTTCTGGTA
CACATTGTTCTATGAGTTATCGGTCGACGGTTTGCCAGTTATGAGACCGTTATTACAGGA
GTATCCTAAGGAACAAGAAACTTACACCATCGACAATGAATACCTTTTGGGTGACAAACT
GTTAGTACGTCCGGTGACTGAAGCCGGGGTGACCAGCGTGAAGGTGTACCTCCCCGGGGC
GGAGTCCCACACGCTCTGGTACGACCCGGACACCTACCAGCAGTACCAGGCTACCGGTTA
TATCAACCAGCCCGTCACTTTATCTAAGATCCCAGTGTACCAGCGTGGTGGTACAATAAT
ACCACGTAAGGAGAGAGTCCGCCGTTCCTCCGTACTAATGGCAGACGATCCCTACACACT
AGTCGTCGCTTTGGATGCTAACAAAACAGCTCACGGTACATTGTACATAGACGACGGAGA
GACTTACGAGTACCGCAACAACAGATACATTTACGCCAAGATAACTTACGAGCCCAACCT
CATGACTTACACGTTCGTAAACGAGAGAGCCAGTTACCCTACCAGGTCGTGGCTAGAGCG
TATAGTGATAGCTGGTATCAAGACACCGCCGAAGACCGCCAAGCTCCACCAAGGAGACAG
GCAGGTCGCCCTCCAGATGACCCTCCACAGAGGGAACGATGTCCTCGTCGTGAGGAAACC
CTCAGCCAGCATGGCGCAACCCTGGACTATCACCTTCACATACTAAATAACACCCATCCT
ATATCCCACCCGGTAAGATTGTGTTTGCTTATTCATATATCGATATTTAGTTTACACAAC
ACTATCTATATTGTATACGATACGATGTTCCGTTAAAACATAAATTTTAAAGCGATCTTT
AAAAGCTACCCAAGATTAGGAGTGAATATATCGATATTTTTTCTAGATGCATATCCCTAC
CCAAGACTATCTTAATTAAATGAGTTTACGGTTTAACATTAAGTTCTAAGATCTTAGCGT
GGGCAATAACGCCCCTATGTGTAAGTAGAAGACCCAGAGAAAATCACGGGGGCATCGGTA
GTCTAAAAAGATAAAAAAAAAATAAGATGCGGGACTTTTATTTTCAAAAATAAGGTTGCA
AAATAAGGTTGAGAAACTGTGCGTTAAACGGTGTAAAAATAAAACGTCGATAAAATTAAT
CTTGAGTGCAACCCTAACAGCAGCAAACAGTAGTCGATTTATTCGATTCTTTGTTATTCT
CTGTATCGTTCTACACCATGATTGATAGATAAGTGCCTGTGTCGATAATTGGGCACTACC
ATACAATGAATATTATTATCCCTCCCCCCCCCGCCCCTCACGATCGTTACATACTAACGA
CTTGGCGGGAAAGTGATACTGATTTACATTATTTAGTACGTAATGTGGGTAGACGAAAAT
TGAACAGTAATGTTAAGACGTTATTGTTGGTAGGGTAGGTGATAAAAGATGAGATAAATG
TGGAACATCGATATAGAAAATTGAACAGTAATGTTAAGACGTTATTGTTGGTAGGGTAGG
TGATAAAAGATGAGATAAATGTGGAACATCGATATA
(3756 bp)

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