Add to ORKGSummary: forqs is a forward-in-time simulation of recombination, quantitative traits, and selection. It was designed to investigate haplotype patterns resulting from scenarios where substantial evolutionary change has taken place in a small number of generations due to recombination and/or selection on polygenic quantitative traits. Availability and Implementation: forqs is implemented as a command-line C++ program. Source code and binary executables for Linux, OSX, and Windows are freely available under a permissive BSD license
A panel of FORTRAN 90 functions was developed to simulate the distribution of bi-allelic (e.g., SNP)...
Motivation: The analysis of the evolutionary dynamics of a population with many polymorphic loci is ...
Simulation is an invaluable tool for investigating the effects of various population genetics modeli...
Summary: This paper introduces a new forward population genetic simulation program that can efficien...
One of the fundamental goals of research in modern genetics is to determine the genetic basis for co...
Classical quantitative genetics theory makes a number of simplifying assumptions in order to develop...
A script to conduct forward simulations according to de Vladar and Barton (2014) on multiple loci of...
Overview of the methods used to simulate genotypes using the software msprime and phenotypes using t...
Summary: A bioinformatic tool was written to simulate haplotypes and SNPs under a modified coalescen...
Forward-time simulation has some unique advantages over the coalescent approach in the study of comp...
Abstract Background There are several situations in population biology research where simulating DNA...
Program simulating a haploid, facultatively sexual population undergoing stabilizing selection on an...
OncoSimulR implements forward-time genetic simulations of biallelic loci in asexual populations with...
Motivation: Most population genetic simulators fall into one of two classes, backward time simulator...
Provided python scripts enable simulations of quantitative trait evolution to a new fitness optimum ...
A panel of FORTRAN 90 functions was developed to simulate the distribution of bi-allelic (e.g., SNP)...
Motivation: The analysis of the evolutionary dynamics of a population with many polymorphic loci is ...
Simulation is an invaluable tool for investigating the effects of various population genetics modeli...
Summary: This paper introduces a new forward population genetic simulation program that can efficien...
One of the fundamental goals of research in modern genetics is to determine the genetic basis for co...
Classical quantitative genetics theory makes a number of simplifying assumptions in order to develop...
A script to conduct forward simulations according to de Vladar and Barton (2014) on multiple loci of...
Overview of the methods used to simulate genotypes using the software msprime and phenotypes using t...
Summary: A bioinformatic tool was written to simulate haplotypes and SNPs under a modified coalescen...
Forward-time simulation has some unique advantages over the coalescent approach in the study of comp...
Abstract Background There are several situations in population biology research where simulating DNA...
Program simulating a haploid, facultatively sexual population undergoing stabilizing selection on an...
OncoSimulR implements forward-time genetic simulations of biallelic loci in asexual populations with...
Motivation: Most population genetic simulators fall into one of two classes, backward time simulator...
Provided python scripts enable simulations of quantitative trait evolution to a new fitness optimum ...
A panel of FORTRAN 90 functions was developed to simulate the distribution of bi-allelic (e.g., SNP)...
Motivation: The analysis of the evolutionary dynamics of a population with many polymorphic loci is ...
Simulation is an invaluable tool for investigating the effects of various population genetics modeli...