Identification of QTL for barley grain size.

Junmei Wang,Meixue Zhou,Wenhao Yue,Jianming Yang,Xiaojian Wu,Chenchen Zhao

doi:10.7717/peerj.11287

Junmei Wang, Meixue Zhou + Show 4 more

Open Access

https://doi.org/10.7717/peerj.11287

Copy DOI

Abstract

BackgroundBarley grain size is one of the key factors determining storage capacity during grain filling. Large, well-filled grains also have a high malt extract potential. Grain size is a complex quantitative trait and can be easily affected by environmental factors thus the identification of genes controlling the trait and the use of molecular markers linked to the genes in breeding program is the most effective way of improving grain size.MethodsGrain sizes of 188 doubled-haploid (DH) lines derived from the cross of a Japanese malting barley variety (Naso Nijo) and a Chinese feed barley variety (TX9425) were obtained from three different sites in two consecutive years. The average data were used for identifying QTL for grain size.ResultsA total of four significant QTL were identified for grain length (GL) and three for grain width (GW). The two major GL QTL are located at similar positions to the QTL for malt extract on 2H and uzu gene on 3H, respectively. However, the GL QTL on 2H is more likely a different one from the malt extract QTL as most of the candidate genes are located outside the fine mapped QTL region for malt extract. The GL QTL on 3H is closely linked with uzu gene but not due to a pleiotropic effect of uzu. The three QTL for grain width on 1H, 2H and 5H, respectively, were located at same position to those for GL.

Highlights

Barley (Hordeum vulgare L.) is considered to be the first crop domesticated by human ancestors back to 10,000 years ago (Zohary, Hopf & Weiss, 2012)
Our results suggested a close linkage between malt extract and grain size, but these two traits are controlled by different genes, which was confirmed by various near iso-genic lines, adding the novelty to our findings
A doubled haploid (DH) population containing 188 lines derived from the F1 of the barley cross between TX9425 and Naso Nijo by the anther culture method was employed for identifying QTL determining grain width and length

Summary

Introduction

Barley (Hordeum vulgare L.) is considered to be the first crop domesticated by human ancestors back to 10,000 years ago (Zohary, Hopf & Weiss, 2012). It is an important crop model for studies on genetics, biochemistry and biology development (Giraldo et al, 2019), but is widely used for animal feeding, malting and brewing, as well as human food (Zhou, 2010; Walker & Panozzo, 2016; Wendt et al, 2016). One of efficient ways of increasing yield and improving end-use efficiency of barley. The three QTL for grain width on 1H, 2H and 5H, respectively, were located at same position to those for GL

Methods

Results

Discussion

Conclusion