This is a preview. Log in through your library . Abstract • Polyploidy is a key driver of ecological and evolutionary processes in plants, yet little is known about its effects on biotic interactions.

The induction of polyploidy in plants represents a transformative approach in modern plant breeding, aimed at overcoming the genetic limitations inherent in many crop species. Polyploidisation, which ...

A collaborative effort by the Formosa-Jordan lab from the Max Planck Institute for Plant Breeding Research in Cologne, Germany, the Fox lab from Duke University, U.S., and the Roeder lab from Cornell ...

An innovative genetic mapping system for polyploid species promises to facilitate the work of scientists and plant breeders who use genomics to develop varieties that are more productive and resistant ...

Annals of Botany, Vol. 121, No. 7 (June 2018), pp. 1287-1298 (12 pages) Background and Aims Alpine plants grow in harsh environments and are thought to face occasional frost during the sensitive ...

Polyploidy is an important driving force in angiosperm evolution, and much research has focused on genetic, epigenetic and transcriptomic responses to allopolyploidy. Nicotiana is an excellent system ...

Extra genomes appear, on average, to offer no benefit or disadvantage to plants, but still play a key role in the origin of new species, say scientists. Plant biologists have long suspected polyploidy ...

Polyploid plants have a duplicate set of chromosomes. As a result, large-scale genetic changes are therefore possible in the new species, making it more adaptable in comparison with the parental ...

Assistant Professor of Biology Vicki Losick admits she harbors a desire to change the world a little bit. “I want to make ‘polyploidy’ a household word,” Losick said in her Higgins Hall office, next ...

An innovative genetic mapping system for polyploid species promises to facilitate the work of scientists and plant breeders, who use genomics to develop varieties that are more productive and ...