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Transcriptome of an Agricultural Pest Delineated by Oxford Nanopore RNA-Seq webinar

Transcriptome of an Agricultural Pest Delineated by Oxford Nanopore RNA-Seq webinar
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  • Published on: February 15 2019

Anthony Bayega of McGill University discusses his study looking at the transcriptional dynamics that occur during early embryo development of the olive fruit fly (Bactrocera oleae), a key pest of cultivated olive trees that costs the olive fruits industry an estimated $200 million annually.

Anthony and colleagues combined absolute gene quantification using internal RNA spikes, full-length cDNA sequencing using Oxford Nanopore long-read RNA-seq, and high-resolution timescale experimentation for the study. They generated a de novo transcriptome assembly and identified 3,553 novel genes and a total of 79,810 transcripts.

Dr. Bayega discusses how he and his team also refined gene models for key sex-determining genes, which might provide insights into biological control of this fly.

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