Microsatellites are short stretches of repeated DNA, found in most genomes, that show exceptional variability in humans and most other species. This variability has made microsatellites the genetic marker of choice for most applications, including genetic mapping and studies of the evolutionary connections between species and populations. This book brings together an international group of scientists currently working in microsatellites. Their contributions provide a detailed description of microsatellite biology, focusing on their mutation properties, generation, decay, and possible functional roles. They introduce the theoretical models that underpin the most popular methods for analysing the information that microsatellites can yield, including methods for estimating coalescent times, population divergences, and migration. Finally, the book describes the various ways in which the potential of microsatellites is being harnessed in a range of applications including medical genetics, forensics, genetic mapping, the analysis of human evolution, and conservation genetics.

Microsatellites are short stretches of repeated DNA that show exceptional variability in humans and most other species. This variability has made microsatellites the genetic marker of choice for numerous applications, including genetic mapping and studies of evolutionary connections between species and populations. This book details the molecular processes which give rise to microsatellite DNA and then describes the wide range of applications in medical genetics, forensics, the study of human evolution, and conservation genetics. Drawing from an international group of researchers, the book presents the theoretical background and the hands-on details for many of the popular analytic methods using microsatellites, including methods for estimating coalescent times, population divergences, and migration.

'...It is the most comprehensive volume on microsatellities and has contributions from many excellent researchers' TREE