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Cultivar-specific transcriptome and pan-transcriptome reconstruction of tetraploid potato.

Marko PetekMaja ZagorščakŽiva RamšakSheri SandersŠpela TomažElizabeth TsengMohammed ZouineAnna CollKristina Gruden
Published in: Scientific data (2020)
Although the reference genome of Solanum tuberosum Group Phureja double-monoploid (DM) clone is available, knowledge on the genetic diversity of the highly heterozygous tetraploid Group Tuberosum, representing most cultivated varieties, remains largely unexplored. This lack of knowledge hinders further progress in potato research. In conducted investigation, we first merged and manually curated the two existing partially-overlapping DM genome-based gene models, creating a union of genes in Phureja scaffold. Next, we compiled available and newly generated RNA-Seq datasets (cca. 1.5 billion reads) for three tetraploid potato genotypes (cultivar Désirée, cultivar Rywal, and breeding clone PW363) with diverse breeding pedigrees. Short-read transcriptomes were assembled using several de novo assemblers under different settings to test for optimal outcome. For cultivar Rywal, PacBio Iso-Seq full-length transcriptome sequencing was also performed. EvidentialGene redundancy-reducing pipeline complemented with in-house developed scripts was employed to produce accurate and complete cultivar-specific transcriptomes, as well as to attain the pan-transcriptome. The generated transcriptomes and pan-transcriptome represent a valuable resource for potato gene variability exploration, high-throughput omics analyses, and breeding programmes.
Keyphrases
  • single cell
  • rna seq
  • high throughput
  • genome wide
  • genetic diversity
  • healthcare
  • genome wide identification
  • dna methylation
  • copy number
  • early onset
  • metabolic syndrome
  • genome wide analysis
  • weight loss
  • data analysis