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Last updated: 2022/11/18

Silkworm GeneModel Entry

NameBGIBMGA000473-TA
JBrowseBomo_Chr22
chromosome_No.
Scaffold_id
Scaffold Length		chromo22
Bm_scaf18
5904300 bp
UniRef
UniRef50_UPI00015B41E1 (51%/810)
Cluster: PREDICTED: similar to 5-3 exoribonuclease 1; n=1; Nasonia vitripennis|Rep: PREDICTED: similar to 5-3 exoribonuclease 1 - Nasonia vitripennis
Ontology
Orthologue
Sequence
(Amino Acid)
MAIDGVAPRAKMNQQRGRRFRSAREAENLEAEAKAKGEVLPTEKRFDSNCITPGTVFMAR
LHEQLKYFVKHKMSTDPLWSKVKVILSGHETPGEGEHKIMDYIRWARSQPDYDPNTRHCL
YGLDADLIMLGMCTHEPHFALLREEVKFGRTTQRATTPEETNFYLLHLSLLREYLEQEFI
AIKDKLPFPYDIEKIVDDWVLMGFLVGNDFIPNLPNMHVNNDALPLLYNTYMTVLPKLDG
YINEAGDLNLERFEIFMQELSKIDKEQFQDTYTDLKYFEEKTGRRPNANERREYKANNNE
TFNVDVNEIKGNHLDNDLQALINATDNMFMNDLEDGEEEYEETSDEEANMEMEFILHKKD
YYMNKLDYSKVTDEVLADQAEGYVRAIQWNLYYYYKGCPSWCWFYPHHYAPYISDIKGFK
DLKIDFELGEPFKPFEQLLAVLPAASKHLLPTPFHDLMTDEDSPIVHYYPVHFDTDLNGK
INDWEAVVLIPFIDETNLLSAMAPCYQRLTDEEIKRNQPGPMLVYSWSSTSLGVVDAPQY
FPSIKECHAFEKRVWRNELDVPEEQLKKGMLPNARRDMLFPGFPTMRHLKYKSSHKMAKV
KVFDLPARNSSVIIELIRDKDEDSLERVANELLGKVIWVGWPHLTRAKVISVSNEKTRLH
YVDKQNNNVNGTSLYTTVQNSGNLHKQWLGERNTIIEHNMNRLGIELGDVNIIVHAVNLK
GYKYIVQDNCQMVYEPEWCEVPCGYAYQAVVRDVSAHVVQEVNRFSTLQEAYPPGDTVFL
LTPGQYYGCLATVVESAQVRSGRIKVSVCESVEPTPVAAPAPPYKSSQHAAAACGLYRAV
LFHNRVCGGIVVRLSIDLVKVVIVRKSNHPYVYKNLTDVSYGAGVTNQMLSCITGCVFVV
EGTRDGRSTDKLKKINIGLNLKFNKKNQEVAGYTRRCAVTGAWQYSDRCVQLVKDYAQNF
PELEKKYQDVLQWIKNQPFRRALRRDCGSEALEPEEMKALADNIDKQLEILNANERKITM
QVKWNLLYKAELHAGEVSPDRAADYRLYDRVVCVARGLCVPAGARGTVAALLPPPPATSV
RLSDRLNAAHTYLVIFDRPFAGALHDDCFEENRLYRSAST
(1120 a.a.)
Sequence
(Nucleotide)
ATGGCTATTGATGGAGTTGCACCTAGAGCGAAGATGAACCAGCAGAGAGGCAGAAGGTTC
CGGTCTGCTAGAGAGGCAGAAAATTTAGAAGCAGAGGCTAAAGCAAAAGGGGAAGTTCTG
CCTACAGAGAAGAGATTCGACAGTAATTGCATCACCCCAGGAACTGTCTTCATGGCACGC
CTACATGAACAACTCAAATATTTCGTAAAGCATAAAATGTCCACAGATCCACTCTGGTCC
AAAGTTAAGGTCATACTCTCGGGACATGAGACCCCTGGCGAAGGGGAGCATAAAATAATG
GACTATATTAGATGGGCACGCTCGCAGCCCGATTATGATCCTAATACAAGACATTGCCTG
TATGGTCTTGATGCAGATCTCATAATGCTGGGAATGTGCACGCATGAACCACATTTTGCA
CTTTTGAGAGAAGAGGTTAAATTTGGTCGAACAACCCAAAGGGCGACAACCCCAGAAGAG
ACGAACTTCTATTTACTACATTTATCTCTGTTGAGAGAATATTTGGAACAAGAGTTTATC
GCGATAAAGGACAAGTTGCCGTTCCCTTATGATATAGAGAAGATTGTTGATGACTGGGTG
CTCATGGGATTCTTAGTGGGAAATGATTTTATACCTAATTTACCGAACATGCACGTCAAT
AACGATGCACTCCCACTATTGTATAATACTTACATGACCGTGCTGCCTAAGTTGGATGGC
TATATAAACGAAGCTGGTGATCTGAACTTGGAAAGATTCGAGATATTTATGCAAGAACTT
TCTAAGATAGACAAAGAACAATTTCAGGACACCTACACCGACTTAAAGTACTTCGAAGAG
AAAACGGGACGACGACCTAACGCTAATGAAAGGAGAGAGTACAAAGCTAATAACAATGAA
ACGTTCAACGTAGATGTAAATGAAATAAAAGGAAACCATTTGGACAATGATCTGCAAGCA
CTCATAAATGCTACAGACAATATGTTTATGAATGATTTGGAAGATGGTGAAGAAGAATAC
GAGGAAACGAGCGATGAGGAAGCCAACATGGAAATGGAGTTTATTTTGCATAAAAAAGAT
TATTATATGAATAAGTTGGACTATTCGAAAGTTACAGACGAAGTGCTGGCGGACCAGGCC
GAGGGCTACGTGCGAGCCATCCAGTGGAACCTGTACTACTACTACAAGGGCTGCCCCTCG
TGGTGCTGGTTCTATCCGCACCACTACGCCCCCTACATATCCGACATTAAGGGATTCAAA
GATCTGAAGATCGACTTCGAGCTCGGGGAACCGTTCAAGCCCTTCGAACAGCTGCTAGCA
GTGTTGCCGGCCGCCAGTAAGCATCTACTGCCGACCCCGTTTCACGATTTAATGACTGAT
GAAGATTCGCCGATAGTACATTACTATCCCGTGCATTTCGATACCGACCTCAACGGGAAA
ATCAACGATTGGGAGGCAGTCGTACTCATACCGTTCATAGATGAGACTAATTTACTGTCA
GCGATGGCTCCGTGCTACCAGCGGCTGACGGACGAAGAAATTAAAAGGAACCAGCCCGGA
CCGATGCTGGTCTACAGCTGGAGCTCTACTAGTCTAGGTGTCGTCGATGCTCCTCAGTAC
TTCCCTTCGATCAAGGAGTGTCATGCGTTCGAGAAACGAGTGTGGAGGAATGAACTGGAC
GTGCCCGAGGAGCAGCTGAAGAAGGGAATGTTGCCCAACGCACGTCGAGACATGCTGTTC
CCGGGCTTCCCCACCATGAGACATCTCAAATATAAGTCGAGTCATAAAATGGCAAAAGTG
AAAGTTTTCGACCTGCCAGCTCGAAATAGTAGCGTAATTATTGAACTGATCCGAGATAAA
GATGAGGATTCCCTGGAGAGGGTGGCGAACGAACTGCTCGGTAAAGTTATATGGGTTGGG
TGGCCGCACCTCACGAGAGCTAAAGTTATCTCGGTGTCAAATGAGAAGACGCGCCTGCAT
TATGTCGACAAGCAGAACAATAATGTGAACGGTACGTCGCTATACACCACGGTGCAGAAC
AGCGGTAACTTACACAAACAATGGCTCGGAGAGAGGAACACTATTATTGAGCATAACATG
AACAGACTCGGCATAGAGTTGGGCGATGTCAATATTATAGTGCACGCTGTTAATTTGAAA
GGTTACAAGTATATCGTCCAAGACAACTGCCAGATGGTGTACGAGCCGGAATGGTGCGAG
GTGCCGTGCGGGTACGCCTACCAGGCCGTGGTGAGGGATGTCAGCGCGCACGTGGTGCAG
GAGGTCAACAGGTTCAGCACGCTGCAGGAGGCCTACCCTCCCGGGGACACGGTCTTCCTG
TTAACGCCCGGACAGTACTACGGGTGTCTGGCTACCGTGGTCGAATCGGCGCAGGTCCGC
AGCGGGCGCATCAAGGTGTCGGTGTGCGAGAGCGTGGAGCCCACGCCCGTCGCCGCGCCC
GCGCCCCCCTACAAGAGCAGCCAGCACGCCGCGGCCGCGTGCGGTCTGTATCGCGCCGTA
CTATTCCACAACCGGGTATGTGGAGGAATTGTTGTGAGGCTATCAATTGATCTGGTCAAA
GTCGTCATCGTCCGCAAATCCAATCATCCGTACGTTTACAAGAACCTCACAGACGTGTCG
TACGGCGCAGGTGTCACTAATCAGATGCTGTCGTGCATCACGGGCTGCGTGTTCGTCGTG
GAAGGGACCCGCGACGGACGGTCAACAGACAAACTCAAGAAAATTAATATCGGCCTCAAT
TTAAAGTTTAATAAAAAGAATCAGGAAGTGGCCGGGTATACGCGGCGCTGCGCGGTGACG
GGCGCGTGGCAGTACTCGGACCGCTGCGTGCAGCTCGTCAAAGATTACGCCCAGAATTTC
CCGGAACTAGAGAAGAAATACCAGGACGTATTACAGTGGATCAAAAACCAGCCTTTCCGT
CGCGCGCTTCGAAGGGATTGTGGTTCCGAGGCCTTAGAACCTGAAGAGATGAAGGCCCTG
GCTGATAACATCGACAAGCAGCTGGAGATACTCAATGCCAATGAGAGGAAAATCACGATG
CAGGTCAAGTGGAATCTGCTTTATAAGGCGGAGTTGCACGCGGGCGAGGTGTCGCCGGAC
CGCGCGGCGGACTACCGGCTGTACGACCGCGTGGTGTGCGTGGCGCGCGGGCTGTGCGTG
CCGGCGGGCGCGCGCGGCACCGTGGCGGCGCTGCTGCCCCCGCCCCCCGCCACCTCCGTG
CGCCTGTCCGACCGCCTCAACGCCGCGCACACCTACCTCGTGATCTTCGATCGGCCCTTC
GCGGGCGCCCTGCACGACGACTGCTTCGAGGAGAACAGGCTCTACAGGTCAGCGTCAACG
TGA
(3363 bp)

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