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postQTL: a QTL mapping R workflow to improve the accuracy of true positive loci identification

Prashant Bhandari, Tong Geon Lee

2022BMC Research Notes14 citationsDOIOpen Access PDF

Abstract

Abstract Objective The determination of the location of quantitative trait loci (QTL) (i.e., QTL mapping) is essential for identifying new genes. Various statistical methods are being incorporated into different QTL mapping functions. However, statistical errors and limitations may often occur in a QTL mapping, implying the risk of false positive errors and/or failing to detect a true positive QTL effect. We simulated the power to detect four simulated QTL in tomato using cim() and stepwiseqtl(), widely adopted QTL mapping functions, and QTL.gCIMapping(), a derivative of the composite interval mapping method. While there is general agreement that those three functions identified simulated QTL, missing or false positive QTL were observed, which were prevalent when more realistic data (such as smaller population size) were provided. Results To address this issue, we developed postQTL, a QTL mapping R workflow that incorporates (i) both cim() and stepwiseqtl(), (ii) widely used R packages developed for model selection, and (iii) automation to increase the accuracy, efficiency, and accessibility of QTL mapping. QTL mapping experiments on tomato F 2 populations in which QTL effects were simulated or calculated showed advantages of postQTL in QTL detection.

Topics & Concepts

Quantitative trait locusInclusive composite interval mappingFamily-based QTL mappingPopulationComputer scienceGeneticsComputational biologyData miningBiologyGene mappingGeneMedicineChromosomeEnvironmental healthGenetic Mapping and Diversity in Plants and AnimalsGreenhouse Technology and Climate ControlWheat and Barley Genetics and Pathology
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