Add to ORKGUnderstanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently identify the genomic locations of adaptive mutations. Here we describe a method that can quickly and precisely map the genetic basis of naturally and experimentally evolved complex traits using linkage analysis. A yeast strain that expresses the evolved trait is crossed to a distinct strain background and DNA from a large pool of progeny that express the trait of interest is hybridized to oligonucleotide microarrays that detect thousands of polymorphisms between the two strains. Adaptive mutations are detected by linkage to the polymorphisms from the evolved parent. We successfully tested our method by mapping five known genes to a precision ...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...
The evolution of novel traits can involve many mutations scattered throughout the genome. Detecting ...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
<div><p>High-throughput sequencing has enabled genetic screens that can rapidly identify mutations t...
Understanding evolutionary strategies of microorganisms may provide opportunities foradvanced strain...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Variation in nutrient availability between environments has led to the evolution of diverse metaboli...
Variation in nutrient availability between environments has led to the evolution of diverse metaboli...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Mutations are the root source of genetic variation and underlie the process of evolution. Although t...
Mutations are the root source of genetic variation and underlie the process of evolution. Although t...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...
The evolution of novel traits can involve many mutations scattered throughout the genome. Detecting ...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
Understanding the genetic basis of evolutionary adaptation is limited by our ability to efficiently ...
<div><p>High-throughput sequencing has enabled genetic screens that can rapidly identify mutations t...
Understanding evolutionary strategies of microorganisms may provide opportunities foradvanced strain...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Variation in nutrient availability between environments has led to the evolution of diverse metaboli...
Variation in nutrient availability between environments has led to the evolution of diverse metaboli...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Eukaryotic genomes contain thousands of genes organized into complex and interconnected genetic inte...
Mutations are the root source of genetic variation and underlie the process of evolution. Although t...
Mutations are the root source of genetic variation and underlie the process of evolution. Although t...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...
The evolution of novel traits can involve many mutations scattered throughout the genome. Detecting ...
The fundamental goal of genetics is to understand the functional effect of DNA sequence variations o...