International audienceUnderstanding the demographic history of populations and species is a central issue in evolutionary biology and molecular ecology. In this work, we develop a maximum-likelihood method for the inference of past changes in population size from microsatellite allelic data. Our method is based on importance sampling of gene genealogies, extended for new mutation models, notably the generalized stepwise mutation model (GSM). Using simulations, we test its performance to detect and characterize past reductions in population size. First, we test the estimation precision and confidence intervals coverage properties under ideal conditions, then we compare the accuracy of the estimation with another available method (MSVAR) and ...
International audienceThe rapid development of sequencing technologies represents new opportunities ...
Microsatellites are promising genetic markers for studying the demographic structure and phylogeneti...
This article introduces a new general method for genealogical inference that samples independent gen...
International audienceUnderstanding the demographic history of populations and species is a central ...
Contact: helene.freville@cefe.cnrs.frInternational audienceReconstructing the demographic history of...
b.emerson@uea.ac.ukInternational audienceThis work extends the methods of demographic inference base...
Microsatellites have been widely used as tools for population studies. However, inference about popu...
Microsatellites are widely used in genetic analyses, many of which require reliable estimates of mic...
International audienceInference of demographic parameters using importance sampling on coalescence h...
We provide a framework for Bayesian coalescent inference from microsatellite data that enables infer...
With the recent increase in study sample sizes in human genetics, there has been growing interest in...
Microsatellites are widely used in genetic analyses, many of which require reliable estimates of mic...
Microsatellites have been widely used to reconstruct human evolution. However, the efficient use of ...
Statistical inference from molecular population genetic data is currently a very active area of rese...
Understanding and predicting population abundance is a major challenge confronting scientists. Sever...
International audienceThe rapid development of sequencing technologies represents new opportunities ...
Microsatellites are promising genetic markers for studying the demographic structure and phylogeneti...
This article introduces a new general method for genealogical inference that samples independent gen...
International audienceUnderstanding the demographic history of populations and species is a central ...
Contact: helene.freville@cefe.cnrs.frInternational audienceReconstructing the demographic history of...
b.emerson@uea.ac.ukInternational audienceThis work extends the methods of demographic inference base...
Microsatellites have been widely used as tools for population studies. However, inference about popu...
Microsatellites are widely used in genetic analyses, many of which require reliable estimates of mic...
International audienceInference of demographic parameters using importance sampling on coalescence h...
We provide a framework for Bayesian coalescent inference from microsatellite data that enables infer...
With the recent increase in study sample sizes in human genetics, there has been growing interest in...
Microsatellites are widely used in genetic analyses, many of which require reliable estimates of mic...
Microsatellites have been widely used to reconstruct human evolution. However, the efficient use of ...
Statistical inference from molecular population genetic data is currently a very active area of rese...
Understanding and predicting population abundance is a major challenge confronting scientists. Sever...
International audienceThe rapid development of sequencing technologies represents new opportunities ...
Microsatellites are promising genetic markers for studying the demographic structure and phylogeneti...
This article introduces a new general method for genealogical inference that samples independent gen...