Polyploidy can drive rapid adaptation in yeast Journal Article

• Best Open Access

Overview

CU Boulder Authors

• Dowell, Robin D.

publication date

• March 19, 2015

has subject area

• Adaptation, Biological - Adaptation, Physiological
• Biological Phenomena - Biological Evolution
• Biological Phenomena - Mutation Rate
• Cellular Structures - Chromosomes, Fungal
• Clone Cells
• Diploidy
• Fungal Structures - Chromosomes, Fungal
• Genetic Fitness
• Genetic Phenomena - Biological Evolution
• Genetic Phenomena - Mutation Rate
• Genetic Structures - Chromosomes, Fungal
• Haploidy
• Mutation - Aneuploidy
• Mutation - Mutation Rate
• Mutation - Polyploidy
• Pathologic Processes - Aneuploidy
• Pathologic Processes - Polyploidy
• Physiological Phenomena - Adaptation, Physiological
• Ploidies - Aneuploidy
• Ploidies - Polyploidy
• Point Mutation
• Saccharomycetales - Saccharomyces cerevisiae
• Time Factors
• Yeasts - Saccharomyces cerevisiae

has restriction

• green

Date in CU Experts

• March 4, 2015 4:49 AM

Full Author List

• Selmecki AM; Maruvka YE; Richmond PA; Guillet M; Shoresh N; Sorenson AL; De S; Kishony R; Michor F; Dowell R

author count

• 11

citation count

• 287

published in

• Nature  Journal

Other Profiles

International Standard Serial Number (ISSN)

• 0028-0836

Electronic International Standard Serial Number (EISSN)

• 1476-4687

Digital Object Identifier (DOI)

• https://doi.org/10.1038/nature14187

Additional Document Info

start page

• 349

end page

• +

volume

• 519

issue

• 7543