Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenotype (GP) maps to the fore. Here, we use data from protein binding microarrays to study an empirical GP map of transcription factor (TF) binding preferences. In this map, each genotype is a DNA sequence. The phenotype of this DNA sequence is its ability to bind one or more TFs. We study this GP map using genotype networks, in which nodes represent genotypes with the same phenotype, and edges connect nodes if their genotypes differ by a single small mutation. We describe the structure and arrangement of genotype networks within the space of all possible binding sites for 525 TFs from three eukaryotic species encompassing three kingdoms of life (...
We study the genotype-phenotype maps of 80 quantitative phenotypes in the model plant Arabidopsis th...
An essential quantity to ensure evolvability of populations is the navigability of the genotype spac...
Understanding how genetic variation gives rise to phenotypic variation is a central goal of biology....
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
One of the most fundamental and least understood elements of evolution is the mapping between genoty...
Determining where transcription factors (TFs) bind in genomes provides insight into which transcript...
Embargoed until 28 February 2023Deciphering the precise mechanisms by which variations at the DNA le...
A genotype network is a graph in which vertices represent genotypes that have the same phenotype. Ed...
The genotype-phenotype map is an essential object to understand organismal complexity and adaptabili...
The evolution of gene regulatory networks (GRNs) is of great relevance for both evolutionary and syn...
Background: Advances in sequencing technology have boosted population genomics and made it possible ...
We study the genotype-phenotype maps of 80 quantitative phenotypes in the model plant Arabidopsis th...
An essential quantity to ensure evolvability of populations is the navigability of the genotype spac...
Understanding how genetic variation gives rise to phenotypic variation is a central goal of biology....
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
Recent advances in high-throughput technologies are bringing the study of empirical genotype-phenoty...
One of the most fundamental and least understood elements of evolution is the mapping between genoty...
Determining where transcription factors (TFs) bind in genomes provides insight into which transcript...
Embargoed until 28 February 2023Deciphering the precise mechanisms by which variations at the DNA le...
A genotype network is a graph in which vertices represent genotypes that have the same phenotype. Ed...
The genotype-phenotype map is an essential object to understand organismal complexity and adaptabili...
The evolution of gene regulatory networks (GRNs) is of great relevance for both evolutionary and syn...
Background: Advances in sequencing technology have boosted population genomics and made it possible ...
We study the genotype-phenotype maps of 80 quantitative phenotypes in the model plant Arabidopsis th...
An essential quantity to ensure evolvability of populations is the navigability of the genotype spac...
Understanding how genetic variation gives rise to phenotypic variation is a central goal of biology....