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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_ErmoMG_comp36557_c0_seq2
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_LOW_QUALITY_PROTEIN:_myosin_heavy_chain,_muscle_[Bombyx_mori]
Ontology
GO:0000166 F nucleotide binding
GO:0003774 F cytoskeletal motor activity
GO:0003779 F actin binding
GO:0005516 F calmodulin binding
GO:0005524 F ATP binding
GO:0005703 C polytene chromosome puff
GO:0005737 C cytoplasm
GO:0006936 P muscle contraction
GO:0007298 P border follicle cell migration
GO:0007427 P epithelial cell migration, open tracheal system
GO:0007517 P muscle organ development
GO:0007527 P adult somatic muscle development
GO:0008152 P metabolic process
GO:0008307 F structural constituent of muscle
GO:0016459 C myosin complex
GO:0030016 C myofibril
GO:0030017 C sarcomere
GO:0030239 P myofibril assembly
GO:0030241 P skeletal muscle myosin thick filament assembly
GO:0030898 F microfilament motor activity
GO:0031033 P myosin filament organization
GO:0031672 C A band
GO:0032982 C myosin filament
GO:0040011 P locomotion
GO:0042623 F ATP hydrolysis activity
GO:0042692 P muscle cell differentiation
GO:0042803 F protein homodimerization activity
GO:0045214 P sarcomere organization
GO:0050821 P protein stabilization
GO:0060361 P flight
GO:0071689 P muscle thin filament assembly
Transcript
Level		FPKM:25.88 TPM:19.04
ORF EntryO_ErmoMG13512_internal:A_ErmoMG_comp36557_c0_seq2
Sequence
(Nucleotide)
GACTTCAAGAAGGATTTGGTAGCGCAAGTGAACCCGCCTAAGTACGAAAAATGCGAGGAC
ATGTCCAACTTGACATACCTCAACGACGCCTCAGTTTTGTATAACTTGAAGCAGAGATAT
TACCATAAACTCATTTACACGTACTCCGGTCTCTTCTGTGTGGCTATCAACCCTTACAAG
AGATTCCCAGTATACACGACACGATGTGCCAGACTTTACCGTGGCAAGCGTCGTTCCGAA
GTACCACCCCACATTTTCGCCATTTCCGACGGCGCCTACGTCAACATGTTGACCAACCAC
GAAAATCAATCTATGTTGATTACTGGTGAGTCTGGTGCTGGTAAGACTGAGAACACGAAG
AAGGTAATTGCGTACTTCGCCACCGTCGGTGCCTCCCAAAAGAAGGACCCCAACCAGGAG
AAGAAGGGCTCCCTGGAAGACCAAGTAGTACAGACCAACCCTGTGCTTGAAGCGTTCGGT
AACGCCAAGACCGTCCGTAACGACAACTCTTCTCGTTTCGGTAAATTCATCCGTATCCAC
TTCGGCCCATCCGGTAAACTTGCTGGAGCTGATATCGAAACCTACCTGCTTGAGAAGGCT
CGTGTCATCTCCCAACAGGCTCTTGAGCGTTCCTACCACATCTTCTACCAGATGATGTCT
GGTTCCGTCAATGGCCTTAAGGGCATCTGTCTTTTGTCCAACGACATCATGGACTACAAC
ATCGTCTCCCAAGGAAAGACCAGTATTCCCGGTGTCGATGACGGCGAGGAAATGATAATT
ACCGACCAAGCTTTCGACATCCTTGGGTTCACCCAAGAGGAGAAGGACAATGTATACAAG
ATCACTGCCGCTGTCATGCACATGGGTTGCATGAAGTTCAAGCAGAGGGGTCGCGAGGAA
CAGGCTGAAGCCGACGGCACTGAGGACGGTGACAAGGTTGCCAAGCTCCTTGGTGTTGAC
TGCGCTGACCTGTACAAGAACTTGTTGAAGCCCCGCATCAAGGTCGGAAACGAGTTCGTG
ACCCAGGGTCGTAACAAGGACCAAGTCACCAACTCCGTCGGTGCCCTCTGCAAGGGTATC
TTCGACCGTCTCTTCAAGTGGCTCGTCAAGAAATGTAACGAGACCCTAGACACCAAACAG
AAGAGGCAACACTTCATCGGTGTGCTGGATATCGCTGGTTTCGAAATCTTCGACTTCAAC
GGTTTTGAGCAACTCTGCATTAACTTCACAAACGAGAAACTGCAGCAGTTCTTTAACCAT
CACATGTTCGTTCTCGAGCAAGAGGAGTACAAGCGTGAAGGCATCGAATGGACTTTCATT
GATTTTGGCATGGATCTCCAAAATTGCATTGACCTTATTGAAAAGCCCATGGGTATCCTC
TCCATCCTTGAGGAAGAGTCTATGTTCCCGAAAGCCACTGACCAGACCTTCGTTGAGAAG
TTGAACAACAACCACTTGGGCAAGTCTGCTCCTTACCTGAAGCCCAAACCCCCCAAGCCT
GGTTGCCAAGCCGCTCACTTCGCTATTGGTCACTACGCCGGTAACGTCGGCTACAACATC
ACTGGATGGCTTGAGAAGAACAAGGACCCGCTTAACGACACAGTCGTTGACCAGTTCAAG
AAGGGTCAGAACAAGCTTCTTATCGAGATCTTCGCTGACCACCCTGGTCAGTCTGGTGAT
GCTGGTGGTGGCGGTGGCAAGGGCGCTGGTGGCAAACGCGCTAAGGGTTCTGCCTTCCAG
ACCGTATCATCACTCTACAGGGAACAACTTAACAACTTGATGACAACTTTGAGGTCCACC
CAACCTCACTTCGTACGTTGTATCATTCCCAACGAATTGAAGCAGCCTGGTCTCATCGAC
TCTCACCTTGTGATGCACCAGCTGACCTGTAACGGTGTGCTTGAGGGTATCCGTATTTGC
CGTAAAGGCTTCCCCAACAGGATGGTCTACCCCGACTTCAAGCTCCGCTACAAGATCCTG
GCCCCTAAAGCTGTGGACAAGGAATCTGATCCTAAGAAAATTGCTCAAGTCATCTTGGAG
GCAACGGGCTTGGATGTCGAGTCCTACCGTCTCGGTCACACCAAGGTATTCTTCCGCGCT
GGTGTTCTGGGTCAGATGGAGGAGCTCCGTGATGACAGGCTTTCCAAGATTGTCTCATGG
CTCCAGGCCTACATCCGTGGTTACTTGTCCCGTAAGGAGTACAAGAAGCTGCAGGAACAG
AGGTTGGCTCTCCAAGTTGTCCAGCGCAACTTGCGCAAGTACCTGCAACTCCGTACCTGG
CCCTGGTGGAAACTGTGGCAGAAGGTCAAGCCTCTCCTCAACGTCACCCGTATCGAGGAT
GAGATCGCCAAACTCGAGGAGAAGGCACAGAAGGCCCAGGAGGCTTTCGAGAAGGAAGAG
AAACTCCGTAAGGAAGTTGAGGCCCTCAACGCCAAGCTTCTTGAGGAGAAGACCAACCTG
CTCGCCAACCTTGAAGGAAACCAGGGCAACCTTGCTGAGACCCAGGAGCGCGCTAACAAG
CTCCAGGCCCAGAAAACCGACCTCGAGAACCAACTCAGGGACACCCAAGACCGCCTTACT
CAGGAGGAGGATGCCCGCAACCAGCTCTTCCAAGCCAAGAAGAAGCTCGAGCAGGAAGTC
TCCGGCCTCAAGAAGGATGTCGAGGACTTGGAACTTTCCGTCCAGAAGTCCGAACAGGAC
AAGGCCACCAAGGACCACCAGATCCGCAACTTGAACGACGAGATCGCTCACCAGGACGAA
CTCATCAACAAGTTGAACAAGGAGAAGAAACTCCAGGGAGAATCCACCCAGAAGACCTCT
GAGGAACTCCAGGCCGCCGAAGACAAGGTCAACCACCTCAACAAGGTTAAGCAAAAGTTG
GAACAGACCCTTGACGAGCTCGAGGACTCCCTTGAGCGCGAAAAGAAACTGCGTGCCGAC
GTCGAGAAGCAGAGGAGGAAGGTTGAGGGAGACCTCAAGCTTACCCAGGAAGCCGTCTCA
GACCTCGAACGCAACAAAAAGGAACTCGAACAGACCATCCAGCGCAAGGACAAGGAAATC
TCATCTCTCACCGCCAAGCTCGAAGACGAACAATCCCTGGTCAGCAAGCTCCAGAAACAG
ATCAAGGAACTCCAGGGCCGCATCGAGGAACTCGAAGAGGAAGTCGAGTCCGAGCGCCAG
GCTCGCGCTAAGGCTGAGAAGCAGCGCGCTGACCTCGCTCGGGAACTCGAGGAACTCGGC
GAGAGGCTCGAGGAGGCCGGTGGTGCCACCTCCGCTCAGATCGAGCTCAACAAGAAGCGC
GAGGCTGAGCTCAGCAAGCTCCGCCGCGACCTCGAGGAGGCCAACATCCAGCACGAGGCT
ACCCTCGCCAACCTCCGCAAGAAGCACAACGATGCCGTCTCCGAGATGGGCGAACAGCTC
GACCAGCTCAACAAGCTCAAGGCTAAGGCTGAGAAAGAACGCGCTCAATACTTTAGCGAA
GTCAATGACCTCCGTGCCGGTCTCGACCACTTGTCCAACGAAAAGGCTGCCCAAGAGAAG
ATCGTCAAGCAACTCCAGCACAACCTCAACGAAGTCCAAGGCAAGGCTGATGAGGCTAAC
CGCACCCTCAACGACCTGGACGCTGCCAAGAAGAAGCTGTCCATTGAGAACTCTGACCTT
CTCCGCCAATTGGAGGAGGCCGAGTCCCAAGTGTCTCAGCTTTCCAAGATTAAGGTGTCC
CTCACCACACAGCTCGAGGACACCAAGAGGCTCGCCGACGAAGAATCCAGGGAACGTGCT
ACCCTTCTTGGCAAGTTCCGCAACTTGGAACACGACCTGGACAACATCCGCGAACAGGTC
GAGGAGGAAGCCGAGGGCAAGGCTGATCTTCAACGCCAACTGTCCAAGGCCAACGCCGAA
GCCCAATTGTGGCGCTCCAAGTACGAGTCCGAGGGTGTTGCTCGCTCCGAGGAACTCGAG
GAGGCCAAGCGCAAGCTCCAGGCCCGTCTCGCCGAAGCCGAGGAATCCATCGAATCCCTC
AACCAGAAGGTTGTTGCTCTCGAGAAGACCAAGCAGCGCCTCGCCACCGAGGTCGAGGAC
CTGCAACTCGAGGTCGACCGTGCCACCGCCATTGCCAACGCTGCCGAAAAGAAACAGAAG
GCATTCGACAAGATCATCGGAGAATGGAAACTCAAGGTCGACGACCTTGCTGCCGAACTC
GATGCCAGCCAGAAGGAATGCCGCAACTACTCCACCGAATTGTTCCGCCTCAAGGGTGCC
TACGAAGAAGGCCAGGAACAGCTCGAAGCCGTCCGCCGCGAGAACAAGAACCTCGCCGAC
GAAGTCAAGGACCTCCTCGACCAGATCGGCGAAGGTGGCCGCAACATCCACGAGATCGAG
AAGGCCAGGAAGCGCCTCGAAGCCGAGAAGGACGAGCTCCAGGCTGCCCTCGAGGAAGCC
GAAGCCGCCCTCGAACAAGAGGAGAACAAGGTCCTCCGTGCTCAACTCGAGCTGTCTCAA
GTCAGACAGGAAATCGACAGACGCATCCAAGAGAAGGAAGAGGAATTCGAAAACACCCGC
AAGAACCACCAACGTGCCCTCGACTCCATGCAGGCTTCCCTCGAAGCCGAGGCTAAGGGC
AAGGCTGAGGCGTTGCGCATGAAGAAGAAGCTCGAGGCTGACATCAACGAGCTTGAGATC
GCCCTTGACCACGCCAACAAGGCTAACGCTGAGGCACAGAAGAACATCAAACGCTACCAG
(4740 bp)

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