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Genetic Determinants of Fiber-Associated Traits in Flax Identified by Omics Data Integration

Alexander Kanapin, Tatyana Rozhmina, Mikhail Bankin, Svetlana Surkova, М. A. Duk, Ekaterina Osyagina, Maria Samsonova

2022International Journal of Molecular Sciences11 citationsDOIOpen Access PDF

Abstract

In this paper, we explore potential genetic factors in control of flax phenotypes associated with fiber by mining a collection of 306 flax accessions from the Federal Research Centre of the Bast Fiber Crops, Torzhok, Russia. In total, 11 traits were assessed in the course of 3 successive years. A genome-wide association study was performed for each phenotype independently using six different single-locus models implemented in the GAPIT3 R package. Moreover, we applied a multivariate linear mixed model implemented in the GEMMA package to account for trait correlations and potential pleiotropic effects of polymorphisms. The analyses revealed a number of genomic variants associated with different fiber traits, implying the complex and polygenic control. All stable variants demonstrate a statistically significant allelic effect across all 3 years of the experiment. We tested the validity of the predicted variants using gene expression data available for the flax fiber studies. The results shed new light on the processes and pathways associated with the complex fiber traits, while the pinpointed candidate genes may be further used for marker-assisted selection.

Topics & Concepts

BiologyTraitQuantitative trait locusPhenotypeGeneticsGeneBast fibreComputational biologyAssociation mappingMultivariate statisticsGenome-wide association studyAlleleLocus (genetics)GenotypeSingle-nucleotide polymorphismBotanyStatisticsProgramming languageComputer scienceMathematicsSoybean genetics and cultivationGenetics and Plant BreedingPlant Molecular Biology Research
Genetic Determinants of Fiber-Associated Traits in Flax Identified by Omics Data Integration | Litcius