Single-Locus and Multi-Locus Genome-Wide Association Studies in the Genetic Dissection of Fiber Quality Traits in Upland Cotton (Gossypium hirsutum L.).

Chengqi Li,Yuanzhi Fu,Qinglian Wang,Runrun Sun,Yuanyuan Wang

doi:10.3389/fpls.2018.01083

Chengqi Li, Yuanzhi Fu + Show 3 more

Open Access

https://doi.org/10.3389/fpls.2018.01083

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Abstract

A major breeding target in Upland cotton (Gossypium hirsutum L.) is to improve the fiber quality. To address this issue, 169 diverse accessions, genotyped by 53,848 high-quality single-nucleotide polymorphisms (SNPs) and phenotyped in four environments, were used to conduct genome-wide association studies (GWASs) for fiber quality traits using three single-locus and three multi-locus models. As a result, 342 quantitative trait nucleotides (QTNs) controlling fiber quality traits were detected. Of the 342 QTNs, 84 were simultaneously detected in at least two environments or by at least two models, which include 29 for fiber length, 22 for fiber strength, 11 for fiber micronaire, 12 for fiber uniformity, and 10 for fiber elongation. Meanwhile, nine QTNs with 10% greater sizes (R2) were simultaneously detected in at least two environments and between single- and multi-locus models, which include TM80185 (D13) for fiber length, TM1386 (A1) and TM14462 (A6) for fiber strength, TM18616 (A7), TM54735 (D3), and TM79518 (D12) for fiber micronaire, TM77489 (D12) and TM81448 (D13) for fiber uniformity, and TM47772 (D1) for fiber elongation. This indicates the possibility of marker-assisted selection in future breeding programs. Among 455 genes within the linkage disequilibrium regions of the nine QTNs, 113 are potential candidate genes and four are promising candidate genes. These findings reveal the genetic control underlying fiber quality traits and provide insights into possible genetic improvements in Upland cotton fiber quality.

Highlights

Cotton produces a fine natural fiber that is an important raw material for the textile industry
The results provide an insight into the complicated genetic architecture of the fiber quality traits in Upland cotton and reveal the whole-genome quantitative trait nucleotides (QTNs) for Marker-assisted selection (MAS) in future breeding programs
The CV ranges for Fiber length (FL), fiber strength (FS), Fiber micronaire (FM), Fiber uniformity (FU), and Fiber elongation (FE) in the four environments were 4.69–5.40%, 6.85– 9.52%, 8.87–15.73%, 1.34–1.74%, and 0.91–3.88%, respectively, and the average CVs for the same were 4.96, 8.59, 11.18, 1.52, and 2.81%, respectively

Summary

Introduction

Cotton produces a fine natural fiber that is an important raw material for the textile industry. China is the largest cotton producing country in the world, with the yield of Chinese cotton cultivars being equal to or slightly higher than those developed in the USA and Australia. The fiber qualities of the Chinese cotton cultivars, especially fiber strength (FS), are not as good (Wang et al, 2009). GWAS of Cotton Fiber Quality Traits natural fiber crop, produces more than 95% of the total cotton because of its high yield and wide adaptability (Chen et al, 2007). Improving the fiber quality is a major breeding target in Upland cotton

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