Abstract
Cattle are among the most important farm animals that underwent an intense selection with the aim to increase milk production and to improve growth and meat properties, meanwhile reducing the generation interval allowing for a faster herd turnover. Recently, a shift from traditional breeding methods to breeding based on genetic testing has been observed. In this perspective, we review the techniques of molecular biology, genetics, and bioinformatics that are expected to further boost the agricultural potential of cattle. We discuss embryo selection based on next-generation and Nanopore sequencing and in vitro embryo production, boosting the potential of genetically superior animals. Gene editing of embryos could further speed up the selection process, essentially introducing a change in a single generation. Lastly, we discuss the host-microbiome co-evolution and adaptation. For example, cattle already adapted to low-quality low-cost fodder could be bred to achieve desired properties for the beef and dairy industry. The challenge of breeding and genetic editing is to accompany the selection on desired consumer-oriented traits with the push for sustainability and the adaptation to a changing climate while remaining economically viable. We propose that we are yet to see the limits of what is possible to achieve with modern technology for the cattle of the future; the ultimate goal will be to produce and maintain genetically elite individuals that can sustain the growing demands on the production.
Highlights
Cattle are among the most important farm animals that underwent an intense selection with the aim to increase milk production and to improve growth and meat properties, reducing the generation interval allowing for a faster herd turnover
We review the techniques of molecular biology, genetics, and bioinformatics that are expected to further boost the agricultural potential of cattle
High-density Illumina Bovine DNA Chip found genomic loci associated with a breeding value of fertility (BVF) and breeding value of beef (BVB) (Anton et al 2018)
Summary
Traditional breeding relied on the selection of superior individuals with desired traits for breeding and increasing the frequency of such traits from generation to generation, most prominently milk yield. Specific phenotypes were used as a proxy for genetics and used for a selection (in the beef industry these would be metrics such as intramuscular fat, eye muscle area, or dressed weight). This process worked well for genetic traits encoded by a single locus with large effects, while polygenic traits with small effects remained elusive. Once the natural variation is lost from the population, it cannot be reconstructed; unless old, deeply-frozen sperm samples are used The advent of genetic testing, and the availability of cheap genotyping solutions, has enabled the shift from the selection based on phenotypes to selection based on genotyping (Goddard and Hayes 2007), in which the information about non-genotyped individuals can be derived: using genotyped individuals and the pedigree information (Legarra et al 2009)
Sign-in/Register to view highlights & summary Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a callDisclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.
