Background and objectivesWheat (Triticum spp. L.) is a leading cereal contributing to the nourishment of humankind. Since its domestication ca. 12,000years ago, humans have profoundly influenced its evolution. In the more recent past, breeding via cross-hybridization and the selection of progeny with superior end-use quality have moved from solely phenotyping (e.g., bread baking quality), to a more detailed genetic approach of selecting genes, alleles, and whole-genome structure for desirable traits.
FindingsThe present review provides a brief historical summary of wheat improvement for end-use quality. In the last similar to 150years, wheat improvement has benefited from advances in genetics, chemistry and biotechnology. In the past couple decades, rapid advances in DNA and next-generation sequencing technology have promised a revolution in wheat improvement. The various technologies are reviewed here.
ConclusionsThe future of wheat improvement may involve the whole-genome-based analysis, genomic selection. However, to date, the plethora of QTL generated over the recent years have largely remained unused.
Significance and noveltyWheat is vital to the survival of humankind, and new cultivars must be continually developed. These cultivars should have high quality for processing and consumer products. An important means of breeding and selecting for high quality is through rapidly evolving genome-based technologies.

• 出版日期2018-2