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Last updated: 2022/11/18

Bombyx mori Assembled RNA-Seq Entry

NameA_TrvaMG_comp26509_c1_seq1
Scaffold_id
NCBI non-redundant
(nr)		PREDICTED:_protein_hu-li_tai_shao_isoform_X1_[Amyelois_transitella]
Ontology
GO:0000212 P meiotic spindle organization
GO:0003779 F actin binding
GO:0005737 C cytoplasm
GO:0005811 C lipid droplet
GO:0005856 C cytoskeleton
GO:0005884 C actin filament
GO:0005886 C plasma membrane
GO:0007275 P multicellular organism development
GO:0007282 P cystoblast division
GO:0007294 P germarium-derived oocyte fate determination
GO:0007411 P axon guidance
GO:0007527 P adult somatic muscle development
GO:0008302 P female germline ring canal formation, actin assembly
GO:0016020 C membrane
GO:0016328 C lateral plasma membrane
GO:0030154 P cell differentiation
GO:0030721 P spectrosome organization
GO:0030723 P ovarian fusome organization
GO:0030724 P testicular fusome organization
GO:0031987 P locomotion involved in locomotory behavior
GO:0035183 C female germline ring canal inner rim
GO:0045169 C fusome
GO:0045170 C spectrosome
GO:0045172 C germline ring canal
GO:0045214 P sarcomere organization
GO:0045478 P fusome organization
GO:0048134 P germ-line cyst formation
GO:0048135 P female germ-line cyst formation
GO:0048477 P oogenesis
GO:0051297 P centrosome cycle
GO:0061572 P actin filament bundle organization
GO:0070050 P neuron cellular homeostasis
GO:0072499 P photoreceptor cell axon guidance
Transcript
Level		FPKM:16.05 TPM:13.51
ORF EntryO_TrvaMG12928_complete:A_TrvaMG_comp26509_c1_seq1
Sequence
(Nucleotide)
ATACAGGGTGGATCTGTAACTTTACATCAGCTGAAATAAATTACCTGTCGAAATCAAACT
TAAGACCACTTTTATTTTTGGAGTCGGTTAAACTTTTTTTTATAGTCGTACATACCCTAT
GCAATGTCAGAAAAAAGTTTACCCAAACTTACAGATCCACCCTGTATATGCATACATTAT
GAAAATTTTGACCCAATTTGGACCATAGAACAAGACAATGACACGCCCTTTGTACTAAAC
TCTAGGCGCAATTAGGTCATTACGAATTTACAAGTTTGCCTTTCGGTCTGAAAACTGCCC
CAGTCCCATTTGTGACTAAAATCCGCGATTCGTACTTTACATAAAAACGTCAATAAATCG
CTTGAAAACTTAACATATTTATTAAAGAAATAAGAGCATTTTATTTAATAAAAAATTCAA
CATTTCATAGAGTTGATTAGCGGCTTCTTCATAAAACATTGCAAATTTAGCGACTTAAAT
AATAAAAAAATATATTTTTTGTTTTTTTTTAGATAAAATTATGTACATCCCACCGCACTA
GTGAAAAAAAGCTGATTTTAGATTACACGTTATTTCTGTATTTAATTTTATTTTTAATAT
AGTTTTTTTATAATAATAATATAATAAAATTACAAGTAATTCTGAAGCGAAATGGCAGTG
CAGCTATGTGGGTTTATCTCTAGGCAGGTTGCGGTGTGCTCGATTTCTCCTTCTTCTTCT
CCTTCTTTTTCTTCAAGAACGAAGGTGTCCTCAGTCCCTTCTTCTTCTTCTTGTCCTTCT
TAGGAGAATCTTCGGTGGAAACCTCCTTAGATGGAGAACCCTCTTTACTGCTGTGCGAGA
ACGTGCTCTGGTGGGCGTCAGAATGGTCACCGTTCACGGTGTGGTCACCCCTGCCAGCGA
CTCGCTGTATCACAGCGTGCTGGGCTCGCACGACCACCGGCTCGGAGACTGGTGACGTCA
TCGATGACGTCACAGTCGACGCAGCCGAGTCAAGGAAGACTTCATCATCGGACAACAGAT
TTGGGTCCCGAGATGGGTCTTCAATTTGAACATATGACCTCACGATGACCTGACGTTGAG
GCGGACCCGGCCTCAACACTAAGGCCTCATCATTAGACAGTACGTTCGAATCTCGAGTCG
AGACTCTAGTACTATCAACATGAGCCCGTTCTGCATTCAAGAAATCGGTCGTATCGACAT
CACTGAGAACGACTTCCGGTTGGCTTCGGACCGGAACCTGTTTAGTTTCTATTCTCAGAA
CACGGTGTTCATCACGCGACTCCTCCTCGGTCTCGGAGGGAGCGCTGGCTGGTGACGTCA
TCTGAGCCGCGCTGATGGCTTCAGACTCGGATAGATCGGTGTCATACTCGTTCCCGCGTC
TCTTCCTCTCGACGTCCCTCTTGTACTCGTCGATCTCGTTGTCGGTGACGTGGTCGAAGG
GGTTCCGTGCGTAGGGCGCGCTGTACACGGTCGCGTTGTGTTGGTAGCCGCGTTGTATGA
TGCCCTTTGACGCGGCGCCCATTAGCACCACGTGGTCACCAGTGTGCGTGTTAACAGCAT
CCTCGCCGACCACCTTGCTGGCTTCGTCCCATGTGACTCCTTCCAGGATATGAGACTGGG
GTCCGGCGCTTATCTTGTCGGCGCGACGGTTCTCTTTAATTTGCTGCTGTAGTTTCTTAA
ATTCCTTCGGATTCGTATTTTTCGGCACAAATTGCAACGTGTCAATCTTAACGGGCGTAC
TCGAGTGGGCGGGGGAGCCATCTTGGATCCACTCTTCGTTGTTAACGTCGACCCACTTGG
TTATTTTCTTGGGGTCGTTGGTTCCCGTCTCCAGCACCTCCACCTTCTGGTAGACGTTCG
GCGAGTTCAACCAGCGAGTGCGCTCGCCCACCTTGCCGTGGCCTTTACGCCATAACCCTT
GCTTGTACAGCTCTTCTTCTTCTAGAAGATAACCGAGAGAAGAAACAGCGGGAGGAACTT
CTACGTCATTCTTAGGACGAGGAACGTCGTTCTTGATGAGCGGATGTCGGTATATGTATC
CGGTGCGGAACCCTGCGTTGTCCAGCATCCTCATGAGCGCTTCGAATTCTTCTCCTCCGA
CGCGCCATTTTGTGGCATCGGCCGGCGGTTTGCGGGACGCTTCGAACATCTGTCTCTGTG
TCTCCTCGTCCAGCAGTATCAGGTCATCGAGCGGAGTAGAAGCCAGCTTGAGCTGAGCGT
CAGTGGCGGCCGTGAGGAGCCTGGCGTGGTAGAAGGCCTCCTCGAGAGTGGCCCCGCAGC
ACAGGGCGCCGGCGCCGCTGAGGACCACCACTTTAGCGTGGGGTCCGAGGGCACGCACTA
GCTTATCGCGCTCGGCATTGTCGAGGACTCCGTAAGGCAGAGTATGGTACGCTATCTCTC
CCAGCAGAGCGGCTTCCTGACATATGGGGAGCACTCCTCGCCTGGTGGCGGACACGGCGA
GGGCGGAGGGGGCCCGCACGTGCAGCACGCACCGGATGTCCGGGCGGGCGGCGTGGACCG
ATGCGTGCACTGAGAAGCCTTCAACATTGACAGGGAAGTTGGTAGTTCCCTGGTCTTGGA
CTACTCCTTGCATATCCACCTTGACGAGAGACGAGGCGGTGACCTCGTGCGGGAGCAGAC
CTCGGGGCGAGGTCAGGACCTGCTCCTCCGCGGTGTTGAGACGGGCCGTTATCTGACCTG
TTACTCCGGTGGTGGTCCACCCGAAGAGGTCCACCAGGCGGTAGACAGCGGCCAGCTTGC
AGCGAAGTATCTTCTCGCCCTTCTCGTAACCTATGCCTTCAATACCGCGGATGTCGTTTA
TAGGTAGGACACAGCTTGGGCCCCTCAAACTGCCGGTATGAAGCCTTCCCCCAACCATCT
CCTTGATTCGCTGCAGCAGAGGAGCGTCGCCCCCCTCGTGCATCTGCTGATCGAGCACCC
GCTCCAGTTCTTCGCGGAACAACTTGGAAGACATGAGCGCCTCGACTCGCTTGCGGCGTT
CCATTTCGCGGACATCAGCATCGATGTCTGCCGGACGCTGCTTCAAGCGTTCCTCTTCCT
CGGCGGAGAGTGGCCCCGTTCCGTTCGGGATCGTCTCGCACTCCGTGTCAGCCATTCCGG
ATGCTGTCTTTAACTTATTAAGACTTTACTATCAGACCGAGAACGGGAAACGGTCTGGAA
TCATGCACAGTTCCAGCAGATGGCCCGAAGCACCGATAAAAAAGATTATGAACACTACAC
AAGATTCACTCAACACAAAACCGTGATGATAGAACAAGCACTAAGCACGAAACATTTTAT
GAATAACACGCACTTATCGCTCTTTTAACAATATTAAAGCACTAACACAAGAGACATTAC
GCGTAAAAGGGCTTTTTCATTAATTTCGTTCGTTAGAAATTCAGCACGCTACCGGGGCAA
TCGATGTAGGCGCGAGTTACGGTTTTTTGCCG
(3452 bp)

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