Journal
PLANT BREEDING
Volume 135, Issue 2, Pages 139-147Publisher
WILEY
DOI: 10.1111/pbr.12345
Keywords
cisgenesis; intragenesis; genome editing; plant genetic resources; crop breeding; nucleases
Funding
- 'GenHort' project ('Adding value to elite Campania horticultural crops by advanced genomic technologies', MIUR) [PON02_00395_3215002]
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Plant genetic resources (PGR) represent valuable sources of genetic variability for crop breeding. The development of novel biotechnologies is necessary for increasing the efficiency of their use in pre-breeding and breeding work. The genome sequencing of hundreds of genotypes and the mining of allele diversity in major crops and populations of landraces and wild relatives allow the isolation of genes underlying characters of interest and their precise modification or transfer into targeted varieties. The technological developments and applications of new plant breeding techniques (NPBT) that maximize the similarity with gene transfer by crossing (cisgenesis/intragenesis) or the accuracy of biotechnological approaches (genome editing) are reviewed. Their potentialities and current limitations as well as the possible advantages of using them separately or combined for the exploitation of PGR in crop breeding are also discussed. Above-mentioned NPBT tackle some objections to the application of biotechnologies in agriculture and are under review worldwide to assess the possible exclusion from the current regulation systems for genetically modified plants.
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