AI Article Synopsis

  • Flax (Linum usitatissimum) is categorized into oil flax, fiber flax, and oil-fiber dual purpose, playing a significant role in the food and textile industries, making genetic evaluation essential for breeding improvements.* -
  • The study sequenced 224 flax varieties using SLAF-seq, resulting in over 346,000 SLAF tags and nearly 585,000 SNPs, revealing high genetic diversity in oil flax compared to the other types.* -
  • This research is the first of its kind to identify multiple genetic loci associated with key agronomic traits in flax through Genome-Wide Association Studies (GWAS), contributing valuable insights for future breeding efforts.*

Article Abstract

Background: Flax (Linum usitatissimum. L) is an ancient oilseed and natural fiber crop. It could be divided into three categories by use, namely oil flax, fiber flax and oil-fiber dual purpose (OF). Cultivated flax is widely used in the food and textile industry. It is of great significance to elucidate the genetic characteristics of flax collections for accelerating the process of breeding improvement in this dual purpose crop. With the development of next-generation sequencing, we can use new methods, such as SLAF-seq (specific-locus amplified fragment sequencing), to decode unknown genomes of species. In this study, a high-through sequencing of flax collections using SLAF-seq was conducted. The evolutionary tendency was defined and candidate genes associated with agronomic traits of flax species were identified by Genome-Wide Association Studying (GWAS).

Results: A flax collection consisting of 224 varieties were sequenced by SLAF-seq. In total, 346,639 SLAF tags were developed from all accessions, with an average sequencing depth of 7.19 for each accession. A total of 584,987 SNPs (single nucleotide polymorphism) with an MAF > 0.05 were identified from these SLAFs. The population structure division and phylogenetic analysis indicated a strong divergence among three kinds of flax groups. The genome-wide variation uncovered that oil flax had the highest genetic diversity and was considered to be the ancestor of fiber flax and oil-fiber flax. Sixteen associated peak SNPs for six traits were obtained by GWAS of oil-related traits using EMMAX (efficient mixed-model association eXpedited). Candidate genes and their related pathway were evaluated. A new GWAS was developed for fiber properties using the GLM (General linear model) model and a number of loci were identified.

Conclusions: To our knowledge, this is the first study on discovery multiple loci for important agronomic traits of flax species using GWAS strategy. These results will provide the highest possibility of incorporating both high fiber and good oil traits in a single variety.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6029072PMC
http://dx.doi.org/10.1186/s12864-018-4899-zDOI Listing

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