Association between degeneracy and epistasis for evolved genetic networks with and without feedback loops. Two small sets of networks without feedback loops of small size (12 and 6 nodes) are included. Data for feedback-loop containing mutated networks are also included
<p>a) Illustrating reciprocal sign epistasis. When there is no epistasis the combined effects of two...
The way in which the information contained in genotypes is translated into complex phenotypic traits...
<p>Panel A shows the distribution of 24000 epistasis estimates across all network sizes and topologi...
Association between degeneracy and epistasis for evolved genetic networks with and without feedback ...
Association between redundancy and epistasis for evolved genetic networks with and without feedback ...
Association between redundancy and epistasis for evolved genetic networks with and without feedback ...
Association between complexity and degeneracy for evolved genetic networks with and without feedback...
Association between average epistasis and complexity in evolved genetic networks. File contains dat...
Association between epistasis and robustness for evolved networks with and without feedback loops
Association between epistasis and robustness for evolved networks with and without feedback loops
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
The study of genetic interactions (epistasis) is central to the understanding of genome organization...
The study of genetic interactions (epistasis) is central to the understanding of genome organization...
<p>a) Illustrating reciprocal sign epistasis. When there is no epistasis the combined effects of two...
The way in which the information contained in genotypes is translated into complex phenotypic traits...
<p>Panel A shows the distribution of 24000 epistasis estimates across all network sizes and topologi...
Association between degeneracy and epistasis for evolved genetic networks with and without feedback ...
Association between redundancy and epistasis for evolved genetic networks with and without feedback ...
Association between redundancy and epistasis for evolved genetic networks with and without feedback ...
Association between complexity and degeneracy for evolved genetic networks with and without feedback...
Association between average epistasis and complexity in evolved genetic networks. File contains dat...
Association between epistasis and robustness for evolved networks with and without feedback loops
Association between epistasis and robustness for evolved networks with and without feedback loops
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
Epistasis refers to the non-additive interactions between genes in determining phenotypes. Considera...
The study of genetic interactions (epistasis) is central to the understanding of genome organization...
The study of genetic interactions (epistasis) is central to the understanding of genome organization...
<p>a) Illustrating reciprocal sign epistasis. When there is no epistasis the combined effects of two...
The way in which the information contained in genotypes is translated into complex phenotypic traits...
<p>Panel A shows the distribution of 24000 epistasis estimates across all network sizes and topologi...
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