Author:
Claessen Hanne,Aert Pollien,De Storme Nico
Abstract
AbstractEven though traditional breeding of perennial fruit trees such as apple and pear has resulted in high performing cultivars in the past, it is a very lengthy and costly process that is unable to keep up with the increasing demands for improved yield, resistance and fruit quality posed by the growing world population and the rapidly changing climate. In the last decade, significant research advances have been made that can revolutionize pome fruit breeding to meet current needs, including the sequencing of apple and pear genomes, the increased understanding of associations between gene(s) and traits of interest, and the advancement in genetic engineering tools. In particular the emergence of genome-editing tools such as the CRISPR/Cas9 technology can significantly improve the speed and accuracy of pome fruit breeding programs. This chapter reviews the progress, opportunities and challenges of genome editing tools in apple and pear, and discusses the genetic basis of several important breeding goals to find possible targets for new gene-editing applications.
Publisher
Springer Nature Switzerland
Reference247 articles.
1. FAO: World Food and Agriculture – Statistical Yearbook 2021. ROME (2021)
2. FAOSTAT, FAO: Crops and livestock products. License:CC BY-NC-SA 3.0 IGO (2023)
3. Penna, S., Jain, S.M.: Fruit crop improvement with genome editing, in vitro and transgenic approaches. Horticulturae. 9(58), 1–20 (2023)
4. Kumar, S., Kirk, C., Deng, C., Wiedow, C., Knaebel, M., Brewer, L.: Genotyping-by-sequencing of pear (Pyrus spp.) accessions unravels novel patterns of genetic diversity and selection footprints. Hortic. Res. 4, 17015 (2017)
5. Saito, T.: Advances in Japanese pear breeding in Japan. Breed. Sci. 66(1), 46–59 (2016)