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Parallel ClickSeq and Nanopore sequencing elucidates the rapid evolution of defective-interfering RNAs in Flock House virus
Elizabeth Jaworski, Andrew Routh
Biochemistry & Molecular Biology
Research output
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Contribution to journal
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Article
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peer-review
49
Scopus citations
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Dive into the research topics of 'Parallel ClickSeq and Nanopore sequencing elucidates the rapid evolution of defective-interfering RNAs in Flock House virus'. Together they form a unique fingerprint.
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Keyphrases
Cell Culture
14%
ClickSeq
100%
Defective RNA
100%
Flock House Virus
100%
Intermediate Species
7%
MinION
7%
Nanopore
7%
Nanopore Sequencing
100%
Next-generation Sequencing
7%
Non-autologous
7%
Oxford Nanopore
7%
Rapid Evolution
100%
Recombination Event
35%
Relative Abundance
7%
RNA Recombination
28%
RNA Sequencing (RNA-seq)
7%
RNA Species
14%
Selective Advantage
7%
Serial Passaging
7%
Short Reads
14%
Single Event
7%
Specific Infectivity
7%
Viral
7%
Viral Genome
7%
Virus
7%
Virus Replication
7%
Virus Transmission
7%
Immunology and Microbiology
Cell Culture
15%
Defective Interfering RNA
100%
Flock House Virus
100%
Next Generation Sequencing
7%
RNA Recombination
30%
Viral Replication
7%
Virus Genome
7%
Virus Transmission
7%
Wild Type
7%