0000000000502273
AUTHOR
Jean Carlos Cardoso
Breeding of Orchids Using Conventional and Biotechnological Methods: Advances and Future Prospects
The domestication of plants, including ornamental plants, is an ancient tradition based on human curiosity and is the first form of plant breeding based on modern agriculture. However, recent advances in biotechnology, molecular biology, and genetic engineering, associated with better knowledge of the genome, have enabled numerous achievements to advance agriculture towards a new green revolution. In orchids, it has not been different, and recent advances in genome sequencing and the development of more sophisticated breeding techniques based on biotechnology have demonstrated their applicability for the constitution of more sophisticated cultivars. However, conventional breeding by directe…
Gametic and somatic embryogenesis through in vitro anther culture of different Citrus genotypes
Abstract: In vitro tissue culture represents a useful technique for advancing Citrus breeding and propagation. Among in vitro regeneration systems, anther culture is commonly used to produce haploids and doubled haploids for a fast-track producing homozygous lines, in comparison with the traditional self-pollination approach, which involves several generations of selfing. In addition, anthers culture can produce somatic embryos that can also be used for clonal propagation. In this study, two thermal shocks were applied to the anthers of six Citrus genotypes (two clementine and four sweet oranges), just after they were put in culture. The response obtained was different depending on the geno…
In vitro anther culture of sweet orange (Citrus sinensis L. Osbeck) genotypes and of a C. clementina × C. sinensis 'Hamlin' hybrid
Citrus, and particularly sweet oranges, are very recalcitrant to anther culture. In this paper it was evaluated for the first time the response of 27 genotypes of Citrus sinensis and of one hybrid C. clementina × C. sinensis, to in vitro anther culture. Ten genotypes of sweet oranges showed embryogenic callus induction, mostly blood sweet oranges genotypes, such as Tarocco, Moro and Sanguinelli. In vitro microspore developmental switches from the gamethophytic to the sporophytic pathway were shown by DAPI staining in microspores of these responsive genotypes, after 10 months in culture. However, microsatellite marker analyses showed that these calli were heterozygous. The flow-cytometric an…