https://doi.org/10.1016/j.foodchem.2019.125892
QiangYang,XiaojuanZhong,QingLi,JinyuLan,HuapingTang,PengfeiQi,JianMa,JiruiWang,GuoyueChen,ZhienPu,WeiLi,XiujinLan,MeiDeng,WendyHarwood,ZhongyiLi,umingWei,YouliangZheng,QiantaoJiang
Abstract
In this study, we successfully knock-out the D-hordein component of barley storage protein using RNA-guided Cas9. Mutation frequencies of 25% and 14% at two different target sites were obtained. Homozygous mutant plants that were T-DNA free were identified in the T1 generation. Barley grains without D-hordein proteins from T2 seeds showed a significantly reduced grain size compared to the parent plant and control non-edited line. The protein matrix surrounding the starch granules was increased, whereas the starch granules themselves were decreased in size in the mutant plants compared to controls. The main effect of a lack of D-hordein was a considerable decrease in the prolamines and an increase in the glutenins. The changes of other grain composition included the increased starch content, amylose content, and β-glucan content. The roles of D-hordein mutation on barley grain size and grain composition remain to be studied.
Keywords
CRISPR/Cas9
Hordeum vulgare
D-hordein
T-DNA free
β-Glucan