EntryView

Bombyx mori Assembled RNA-Seq Entry

Name

A_SariASG_c36603_g1_i2

Scaffold_id

NCBI non-redundant
(nr)

filamin-A_[Helicoverpa_armigera]

Ontology

GO:0001664	F	G protein-coupled receptor binding
GO:0001948	F	protein binding
GO:0002576	P	platelet degranulation
GO:0003779	F	actin binding
GO:0004871	F	obsolete signal transducer activity
GO:0005515	F	protein binding
GO:0005576	C	extracellular region
GO:0005634	C	nucleus
GO:0005730	C	nucleolus
GO:0005737	C	cytoplasm
GO:0005829	C	cytosol
GO:0005856	C	cytoskeleton
GO:0005884	C	actin filament
GO:0005886	C	plasma membrane
GO:0005911	C	cell-cell junction
GO:0005925	C	focal adhesion
GO:0005938	C	cell cortex
GO:0007195	P	adenylate cyclase-inhibiting dopamine receptor signaling pathway
GO:0008134	F	transcription factor binding
GO:0015629	C	actin cytoskeleton
GO:0016020	C	membrane
GO:0016479	P	negative regulation of transcription by RNA polymerase I
GO:0017048	F	small GTPase binding
GO:0017160	F	small GTPase binding
GO:0019900	F	kinase binding
GO:0030030	P	cell projection organization
GO:0030168	P	platelet activation
GO:0030334	P	regulation of cell migration
GO:0030863	C	cortical cytoskeleton
GO:0031267	F	small GTPase binding
GO:0031523	C	Myb complex
GO:0031532	P	actin cytoskeleton reorganization
GO:0031852	F	mu-type opioid receptor binding
GO:0031941	C	filamentous actin
GO:0032403	F	protein-containing complex binding
GO:0034329	P	cell junction assembly
GO:0034394	P	protein localization to cell surface
GO:0034988	F	Fc-gamma receptor I complex binding
GO:0042177	P	negative regulation of protein catabolic process
GO:0042384	P	cilium assembly
GO:0042789	P	mRNA transcription by RNA polymerase II
GO:0042803	F	protein homodimerization activity
GO:0042993	P	obsolete positive regulation of transcription factor import into nucleus
GO:0043025	C	neuronal cell body
GO:0043066	P	negative regulation of apoptotic process
GO:0043113	P	receptor clustering
GO:0043123	P	positive regulation of I-kappaB kinase/NF-kappaB signaling
GO:0043198	C	dendritic shaft
GO:0043234	C	protein-containing complex
GO:0043433	P	negative regulation of DNA-binding transcription factor activity
GO:0044319	P	wound healing, spreading of cells
GO:0044822	F	RNA binding
GO:0045184	P	establishment of protein localization
GO:0046332	F	SMAD binding
GO:0048365	F	small GTPase binding
GO:0048471	C	perinuclear region of cytoplasm
GO:0050821	P	protein stabilization
GO:0051015	F	actin filament binding
GO:0051020	F	GTPase binding
GO:0051220	P	cytoplasmic sequestering of protein
GO:0051764	P	actin crosslink formation
GO:0070062	C	extracellular exosome
GO:0070527	P	platelet aggregation
GO:0071526	P	semaphorin-plexin signaling pathway
GO:0090307	P	mitotic spindle assembly
GO:0097440	C	apical dendrite
GO:1900026	P	positive regulation of substrate adhesion-dependent cell spreading
GO:2001046	P	positive regulation of integrin-mediated signaling pathway

Transcript
Level

FPKM:41.03 TPM:39.73

ORF Entry

O_SariASG12051_complete:A_SariASG_c36603_g1_i2

Sequence
(Nucleotide)

TCCGATCTGGACCCTCCAGCCGAACCTGCTGCCTCCGTCACTCCTCGCGGCTAGTGCCTC
CGCCTCGGCCGCGCACGCTCAGTGCGCACACTTATTCTACCCATCAAACACGAACTATTG
TGAACTAAAATCCTAAAAGCAAACGATCAATCAGTGTATCGATTGTGAAGTGACAGAAAG
AACTAATAATGTGTTTATAGAAATAGATAAATAAGATGACAACGATGTACCGTGCCAAAG
AATATGAGTGGACTATTTTAAGAAATCGTAAATAACTGTCAATATGGAAGGTTTGAGGGT
GACTCATCAAGGAGTCAAAGCCCATTCGACTGAAGGTTCGGCAGGGCGAATTACTCAAGC
TGGACTTGCCGCTCGTAGCCCTGAAGGGACAGCTGCAAAGGGCATGGCTATTAAGGGACA
CGAAGATCTCTGGGTGGAAATTCAAGCTAATACCTTTAGAAATTGGGTTAACGAAACACT
AAAGCCTATGAATATAAAGGTTGTAGATTTGGTAGAAGATCTTCGTGATGGTACGGTGTT
GTGTTCGTTGGTAGAAGCATTACAAGGGCGACGACTGAAGGGTTGGAATCCGAATCCCAA
CAATCAACACCACAAATTGGAAAACGTAACCAGTGCCCTGCAAGCTATCGAAGATGACGG
AGTCAAGCTTGTTAATATTGGTAATGTTGACATCGTTAACGGAAATTTAAAGTTAATTTT
AGGCTTGATTTGGTCGCTAATTGTGCGCTACCAAATAGGCAGAAGCAAATTTCCACCGAG
AAAGTTGATGTTATCGTGGCTGCAGACAGCACTGCCTGAGTGCCGCGTCAACAACCTAAC
GACGGATTGGAACAGCGGCGTACTGCTCTCAGCCCTCGTCGACTATTGCAAACCAGGCGT
TTTCCCTCACTGGCGCGAGCTCAATCGACACGAAGCAATAGAAAACTGTAGACGGGCCAT
GAGACTGGCACAGCGTGAACTCGACGTTCCCATGATCTTGGAACCGGAGTACTTAGCTTC
TCCGTGGCTGGATGAACTATCGGGCATGACCTATTTATCTTACTTCATGAAGCCAGGATC
AGCTGGATTCAAATCTACATTAGATTGGGTCAACTCGAGATTGGAGAGAGGGATTGCAAA
CTTTACGACTGACTGGAACGATGGTCGTGTCGCAAATGAATTGGTGCGGGCTGTTGGTGG
TCCAGCGCCACCGCCAAGCCGGCTTCGTCGGGACCCTGCGAAGTGGGAAGAAAACAATCA
AATGGCTATTGATGCAGCCAAGAAACTTGGGGTACAGCCGGTTTTGTCGGCGCGCGATAT
GAGCCAAAGTGATGTCGAGCATTTAGGAGTGATGGCATGGGCCACGCAATTCCGGCACGT
GGCACCGCGTCCGCCCGTGCATGATATGCTACGAGTCGCACTCGACTCCACATCCGGCAG
GGTTGGCGAGCCGACCTATATAAAAGTGGAAAGTATAGTCAATGAACTATCCGTCACAGA
CGTGAAAGTATCAATTATCAATCCTCTGGAACAAGAGTCGAGGCTCAAATTAGACACACG
CGGTGCAGGAGAATTCGTGCCCGAGCATGCTGGAATGCACGAGATTGTACTTACCGTTGA
TGATATAAGAGTAGATGGGAGATACTTCTTCCGAGTATTGCCACGTTTGGTAACGGTAGC
ACCTCCAGGAATGGCGCCTTGTGCGGCTGGTAGTATTGTTGAAGTCCTAGTTAGCGCAAC
AGGAGCACCAAGAAGACAAGATATAGATGTAACAGCTCATTCTCCTAGTGGACATTCAGT
CCCGCTAGAGGCTCGTCATCCACCACCCTCAGCGCCAGGCACTACTGCCTCGAGTGCTAC
CTTCGAACCAGATGAAGCCGGCACGTGGACTATAGCCATAACTTACAAAGGCGAGCATAT
TCAGGGTGGTCCATTCACCTGTGAAGTGTTCGATCCGGCCGGAGTCCGGCTTAGTCCGGG
AGCTTTGGAAGGCGCTGAGCCTCTAAAGCCACACTCTTTCGAGCTAGACACAAGCGGATG
TGGTGTCAAAGGAGATTTACAATTGGATATCGTCCACGATAAGCGCAGTGTAATGTGCGC
TCTAGAAAAATTATCAAATACCAAATATCGCGCTACTTTTATGCCTAAGGCACCTGGAAA
ACATAGATTGTACATATATTTCAACGGGTACGATGTTCACGGCTCGCCACACATATTCAG
AGTGGGATCACGGTCTAAGAAACATCGTGACAGCTCTAGTCCATCGTCACCCGCTTACGC
TAGAATATCTAGTCCAGTAAGTCGATTGCGATCTGAGAGCCCAAAGAATCAGTACAATAC
TTACGATTCGATAACGAAGCACAGCACGAGCTCGATCGACAGACGGGAAGACAAAAGAGA
TTCGAGCGATTATTACAAAGCGTCCTATGGTTCGGACATCAAAGAAAAAATCTACGACGT
TACCGATTCAGCGTATTCGACTTCAAAGATGAGCAGAAAGGATGGTTTCGGTACACGATA
CGGTTCGGAAAGCCCTAGGAATAGGACGGCGAGTCCTATAACATCAAAACATTTAGGAAA
CGGGTCTCGGTTGGAAATCAATCGATCGAACAGTCCTTATAGAGGAGGAAGTCCTCATCG
AGCAACAAGTCCAGTTGGCCGAACAACCAGTCCCCTGACGAGAAAAGACAGCCCATTGAA
TAGAACGGCCAGTCCAATTAACAGAGTAAGCAGTCCGTCTGAGCGCTACAGTCCGGTGAC
AACGACAAAGCACGTATTAGAAAAACGATCCAACTACAAGATGTACAGCTCCTACAGTGG
TTCCCAAGATAATCTTGATGGAAGTCCGTATTCTTCACTTGAAACCGATCGCACAAGACG
ACTGGGGAGTCCAAGTGCAGGCGACCCTGGTGGAAAAACATATCACACGCGAAAAGACTC
ATGGGATGCTGTTGAGAAGACCCGACAAATGTTGAATACTAACAGCCTCGAGTCAACCAA
CAGCCCGTCTGATCGCTACCACACAGAAAGCACTCTAGACAGGGAGACAAAACGCAACAC
CCAACTCAACAAGTTTATCGACTACTCCAGGGAGTCGTTCAACCGTCAACTAGATCGGTT
GGCAGACGACCACGATTCTGAAACTTACACTACTAGGCAAGAGATTATGAAGCGTGAAAT
TCGCGAAAGTTCTTACGTAGTACGGGATTCATCGCATAGCAGTGTAGAGGAGAAAGAACA
ACAGAAACAGTCTTTTTTATCCAATAGGCCCCCCCGTGACCCTACCGGGGGGGCCCACAC
TGAAACAGACGCGGCACACGCGCGTTTCAGGCCAATACAAAGGGATAACAATAGAGGTGC
CAAAGGTATAATCGTAAAACCAACATACAGAGGAGTCGTCGGACAACCTGTTGAATTTAT
TGTGGACGGAAACAATGCTGGCCCGGGTCATTTAGAATTGGAGGTTTCGGGAGGTAAAGG
CGCTTTAGTAGCCAGCTCCGTGCGATCTCTCGGAGGGAATCGGTACACAGCTTCGTTCAC
TCCTCGCGTGTCCAATCCGCACGTAGTACGTGTTACTTTCAACGACGAACATGTTCCTGG
ATCTCCGTGGACAGTCGAGGTGATGGCAGGGCCGGTGGGCGGCGGTGGAGGGGAGCCCAC
TAGGCTAATCCCCGCACGAGTGCCTGCCGTTTTCGAGATATCCACTTCTGGAACGGCTAC
ATTCAACAAAAACGATATAAACGTTACGGTGACTGCTCCGTCTCGCCGACCCGTGAACGT
TCGAGTCTTGGATGTTGACGAAAGACCGGAACTTTACCGTATAGAATTCACACCTGCAGA
AGTCGGCACGCATCTAATTGATGTTTCGATTGCTGATGATAAATTTGGTAGTGGCCCGCT
GATAGCAAAAGTGTACGATTCCAGCCTTATTAAAGTCACTGACGTAGGCAATGCTGTTGT
GGGTCAACAGTGTCAATTTAAAGTGGACGCCAGTGCTGCCGGCGAGGGACAGTTAGAGAT
TTCTATTAATGAGGGAGAGGTCCCTAATCACGTACAGGTGGTTGGTGGAGGGAAGTGCTT
GGTGTATTGGAGACCGGAGGCGCCGACGCCCCATCGCGTTGACATAAAGTTTAACGGAGA
GCCCGTTCCTTCATCGCCTTTCGTGTTTCATGTGGCACCAGCACAGAGAGTTACGATCGA
CACTTCACAAATAGAGCTAGTGCCAGTTGGTGAAACAGCATCATGTTCAGTAAGAGTGGA
AGGATCAGCTGGTGGAGAACTCACTGTGACTATACGTGGCCCGCGTGGCGAAATTCCTGT
TCGACTTACCGGAGATGCAGTCACCGGTCTTGTAGCGAGCTTTACACCTAAAAATGTTGG
ACCTCATACACTCACTGCACATTATAATAATCAACCGGTGCCTGGTACACCTTTTGTGAG
CAAAGCATATGATGGAAAATTAGTAAGTGTGAATGGTGGCACATCAGCCCGAGTAGGAGT
TCCTGTGCAGTTAGCAGTAGATGCTGCACAGGCTGGTGAAGGTAATCTGGAAATCACAGT
TGCTGCTAGAGGATTAAACATTCCTACTCAAGTGCATCCACAAGGTAATGCACGCTTCAC
AGTATCTTTCACCCCAACAGAAGCCTGTGAACATATTGTTAATGTTTCATTCAATAAGAT
GCGTGTACCTGGTTGCCCGCTTGTTATTGATGTAGCCGAAGGCAGTGGGAGTGGGGCAAG
AGTTACGGTACCAGGACCTGCACCATTACACCAAACAGCAGTTCTCACACTTCATCATCC
AACCGCCACTCTTGATCAAATTGAAGTTAACATTGAGGGTCCAAACGGTGCGTCGGTACC
GGCTGCCGTCTCCTCAGCGGGGCCAGCAGTCTTCAGAGCTGAGTTCGTTCCACGAGCGGT
TGGTGAACATAGACTTAACGTGCTGGTCGACTCTGTGCCCATACCCGCTAGCCCGTTCCA
CTTGAAAGTTTATGACGTCGCAGCCATAAGAGTAAAAGATGTCGCACATGGTACAGTCGG
TAAATCAGTCACATTTTTGGTGGAAACTATGGCGGCCGGTCCGGGTAATCTGGAAGTAAC
AGTGAACGGTGGACGCGTACCCACTGCAGCAGCAGCCCAAGGTGCACACACATATGCCAT
AAGCTTCACCCCAAGAGACCCAAGACCGCACACTGTTGAGCTCCGTTTCAATGGTGATCA
CGTACCTGGTAGTCCATTCGTATGCCATGTGTCTGCACCCGCCCGGGTGATAGGCGCCGG
TTCTAGTGAATCTCCAGACAAAGTGTCTGTAGGTGATGCTTACACTTTCAGTGTAGACTC
CCCGACTTCACCTCACGTGGAAGTGTTAGGACCTGCACGACGTCCTGTATCAGTCCAAGT
TTCCGCTGAAGAAACAGTTGGAGAGAATGAAGCTAGCAAGAGATATACCATATCGTTTGT
TCCTGTTGATGTAGGAGATCATAGTATAGAGGTTCGCGCAGGTGCTATGGGTGGCCACGT
GGAGGGAAGTCCATTTTTAGTAAAAGCCTATAGCGCTGCTCGAGTTAACGTTACTGACAT
CTCACCGGGTGTTGTTGGGAGACCCGTCTCGTTTACTATAAACGCATCACATGCCGGGGC
TGGCAACTTGGAAATTATCGTAGCTGTTAATGGGAGAAATGTTCCAAATTATGTGCAAAG
TGAAGGCAATGCCAGATTCAAGGTTAATTTCAAGCCTGTCGAAGCGGCTCCGCATATATT
ATCGGTTCGGTTCAACGGGCACGCGGTTCCGGGTTCGCCATTCACGTGCGCCGTGTCCGC
GCCCGTAGCGGCAGCGGACGCGCGCGCAGCCGGACCCGGCCTTACATCCGCACCTCGGGG
AGAATCCACCGAGATACAGCTTACCGGTTTCCACACTGGCGAGCCAACAGTATACGTTAC
TGGTCCGGGTGGTGCTAACGTTCGTACACGCGTGTCGCCGGCCGGCGATGGTCGTTACAC
TGCGACGTACACGCCCGAGGCGGTGGGCAGACACAGTGTCCAAGTCACTTGCACCGGGCG
ACACGTGCCGGGCTCCCCTTTCACTTGCAACGTCTACGATGTACGCCGTGTTCGAGTCAC
TGGCCTCGGTCCGGGAGAACTTGAAGGCACATTAGAAGGCCTCAGTATGGAGGATGGAGC
TGAAGAGGAAAGAAGTGTAGAAGTGGGCAAACCAGTCACCTTCAGTGTTGATGCAGCCGG
TGCTGGAGAAGGCACTTTAGAACTAGTCGTATCCACTCCAACCACGACGGTCAAAGCTGA
AGTGGTAGCGGTAGCCCGCGGTCTATACGATGTTACATTCGTGCCCGTATCGCGCGAGCC
GCACCGCGTTTCAGTGACGTTCAACGAACAAGCCGTGCCCGGTAGTCCGTTTGTGTGTCG
AGTCAATGAACCACACACCTATGTTCAGATCGGCGGCATAGCAACTGTAGAGATAGACGA
GAGTCTCACGGAAGTGGACGTCGTGTCACCGACTGGGGCACTGGTTCCCGAAGTCAATCT
CGAGGACACCGGGCTGTTGACGTTCCCCGCGAACCGTGTCGGTAGATATTTAGTACGCGG
CGCCAAAGGACCGGTCGCCGAGGTGGAAGCTGTCGACGCTTCCGCTGTCAAAGTACTGTC
CATTGGTGACGCTGTCGCTCACCGGCCTGCTATACTTACAATTAGTACGAGTAACGCGGG
CGCGGGTCGTCTGTCGGGTCGAGTTAGTTGCGGCGGGGCGGTAGTGCCGCACTCGGTGCG
ACGTCGCGGCGGCGCTCGACAGGAGCTAGTGTGGCATCCGGCTAGAGCTGCCCCTCATAG
ACTGACATTACTATGGAGTGGCACACCGGTCTCCAGAGATCCGTTGCTAATAGACGTCCA
CCCCCCACATCACGGACAAGAGGTAGCCGCTTCAGGCTTAGGTTTGTATCAAGCACAAGT
GAACAAGTTGGCATCGTTCAGTATCGACACGCTGGGCCGGCCGGCGAGAGAGTTCGACGT
TGTCGTGTCGGGCCCGGGGTCCAGGGCCCTTCCCGTCAGATGTTACCAAACTAAATCGGG
ACTATTGCAGGCTGAATTTACAATCACCGAAGTCGGGCAAAGCACTATAGAGGTTCTACA
CCTTTTGAAACCAGTATCGGGAAGTCCTTTTACATGTGAATCCTTCGATCCTAACAGAGT
GATTATATCTGGCTTACCAACGGGTAATGTTGTCGCGCAAACACCAATAAACTTCACAGT
CGTAACGAAAGATGCGGGCGTGGGAGAGTTAGAGGTAGTGTGTGAGGCGAGCGGAGAGGG
AAGAGTTCGCTTACCAGTCGATATAAGGGAGGATGGACACACGCATCGAGTTCGACTGAG
GCCGACGGTACCAGCGCACTATCGCATCTACATCACATATGGAGGTACACCGGTATCGGG
GAGTCCGATATCGCTGGGTATACTGAGTGGTCGTAGCAGTAGCGCGGCGCGGTGTGCGGG
CACTGGGCTCGCGCATGCGCACGTCGGTAAAGAGGCTGCCTTCACGATACACTGCGTTGA
AGATACCACCCCTACCGTGCAGGTCGAAAGGCTATCGAACGATAAGGAAGACAATACGGA
CACTGGGCTACTGGAGTGTATGGTGGTGGGGGGTGCGCCGCGGGAGTGGCTTTGCGCCTA
CATACCGCTAGTCGTCGGACTGTACGAAGTTAGAATATTTACACCCACAGGACCATTGCC
TGGAAGCCCATTCTCAGTGAAAGTGATTGATACGTCTGCTATCGTACCTGTGGGTGGTTG
GGGCACGGACAACGCGGGCCGAGTACGCGCTCCATCCAAGTTAGTACTGGACACGAGCAA
TGCAGGTCCGGGAACGCTCGAATGCTTACTCGCCGGTCGGCATCAACGTGTAGAGACGGT
CTCGGGTCGTGCGGTCGTATCGTTGGCGGCCGCTGAGGGCGTCAGCGGTGAACAGGAGTT
AGAGTTGACGTACAACGGGGCGCTGGTCGCGGGCGCACCGCGTCGCGCACTCGTGGCGTC
CGGTAACTCCGCGGCCGATAGGGTGACGCTAGCGGGGCGCGGATTAGCGCACGCCGCGCC
TCAAGTACCCGCAGTATTCACTATCGATGGCAGTGCCGCTGGACCCGGTGCTCCGGAAGC
TTCCCTGTCTGCACCAGATGGTGAAAACATCACTGTGGGACTAGCAGCAGCTGGACCTGG
ACTATGGAGAGCTCTCTATACGCCTAAACGATCTGGTGATCATCAGCTTCGTGTTCTCTG
GGCCGGTCGACTAGTCAAAGGATGTCCGCTGACGGTGAAAGTGTCAGGTGGTTCGGAGAG
CGGAGACGCGTCGCGTGTGGTGTGCTCCGGAGTCGGTCTGGAGGGGGGAGTCGTTGGGAG
GGAGATCCGTTCCTGGATAGACACGAGGCTGGCCGGTCCCGGGGAACTGACCGCGCACTG
CACGGGACCAAACAAGGTGGCGTATTGCGAGCTGTACGAGCACGGCGACGGCACGTTCAC
TCTGAACGTGAAGCCGGCGGAGGCGGGCCGGCACGTGCTCAGCGTGCAGTTCGCGGGCGA
GCACGTGCCCGGTTCACCGTTCATGCTCAAAGTGGCAGGCGCGCCTGACCCCTCCAAGGT
CCGCGTGTACGGGCCGGGCGTGGAGCCGGGCGTGCTGGCGACGTTCCAGTCGCGGTTCGC
GTGTGACACGCGCGGCGCCGGCGCCGGCCAGCTGACGGTGCGCGTGCGCGGACCAAAGGG
CGCCTTCCGCGTCGAGATGCAGCGCGAGACACAAAAAGACCGGACTATATTATGCAAGTT
CTCCCCCACCGAGCCTGGCGACTACCGTGTGGAAGTGAGATGGGCCGGCAGACACGTGCC
CGGTTCACCGTTCCCTGTAATGATATTCGACACGCAGGAAGAACTACGTCGGTATTTACA
GGCCTCCGCTACCAACTGAACATTTACTAACAACAACAATACACAAAAAGACCGGACTAT
ATTATGCAAGTTCTCCCCCACCGAGCCTGGCGACTACCGTGTGGAAGTGAGATGGGCCGG
CAGACACGTGCCCGGTTCACCGTTCCCTGTAATGATATTCGACACGCAGGAAGAACTACG
TCGGTATTTACAGGCCTCCGCTACCAACTGAACATTTACTAACAACAACAATACACAAAT
AGGAATAATATATTTAATAATACTTTTGTAATATATTATACTTTTAACTGCCATTAAAAC
TGCTAAATGTTTTTCAAGTATTTTTTTTGTTTTGTTAACGACTCCATTAAAGGCGCATCG
CCATTAAATTTGTTTTATGTCATGTATTTGTCATTAATTTTTTTTTTGATCCATATACGT
GTCATTTATTGTTGAAAGTGTGACGTAACAATTATATTCTTTTTTTTTTTCAAAATGGAC
TCTTATTTATCTATCATTCAATAACATGCAATATATGATATAATTACTTAAATTAATAAA
GCATTGAATTAAATGTACATTTGCTAAATGAAAATTTTCATGAATTCAGCATTATCCGTG
AATATAAAAAATGATTTAATTAAAACATATTTATAAAAATTAATCAATGCCCAATATATC
ATCAAATCATTTGCGGCTGATTTCAGTACAAGTCTAGTAATAACAATTGAAATGAAACAC
GAATCTCATGTAGTAATTGATTCTATAACCGTTAATTGTAGAATACATAAAAAAATCTAT
CCAATGTATTTTAATAAGCTAATTTAGGTTAAAATTACAATGACACACTTTCACGTATGA
TGCATTATAATAATGATACGATTTTTTTTACATACACAATATTAAATTAAACCTAATTTC
AAGCATTGAATTAACTTTTTTTAATCCTATTTACATCAGTATGTCTGTCACTTAATAGTG
TTGTCAGCGTAAAAAAAAACAAAAATTTGGTTTAAATTATTGGTGATCGGTGAGAAGTAT
CAAAGGAATTTAGTTCAATTAGGGAGATCGGAAGAGCGTCGTG
(10003 bp)

- SilkBase 1999-2023 -

SilkBase

Bombyx mori Assembled RNA-Seq Entry

Bombyx mori

Bombyx mandarina

Trilocha varians

Ernolatia moorei

Samia ricini

Documents