Public Release: 

How useful are microsatellites?

University of Florida researchers offer recommendations on the utility and drawbacks of microsatellites in genetic diversity studies

Botanical Society of America


IMAGE: Schematic representation of the repeats, flanking regions, and fragment length -- the basis of the three data sets in this study. The four shades of gray correspond to the four... view more

Credit: Germain-Aubrey, C. C., C. Nelson, D. E. Soltis, P. S. Soltis, and M. A. Gitzendanner. 2016. Are microsatellite fragment lengths useful for population-level studies? The case of Polygala lewtonii (Polygalaceae)....

Understanding genetic diversity and evolutionary dynamics of organisms can have important implications for designing successful conservation efforts and understanding potential effects of future climate change. For scientists seeking to illuminate these dynamics and uncover genetic diversity within plant species, microsatellites are an often-used tool. These repeated segments of DNA sequences offer a glimpse into the evolutionary history of organisms at a very fine scale, providing a valuable data source for population-level studies.

"These markers aren't without potential problems, however," warns Dr. Charlotte Germain-Aubrey, a scientist in the Florida Museum of Natural History and lead author of a study in a recent issue of Applications in Plant Sciences. The study, a collaboration between scientists at the University of Florida, aims to provide a deeper understanding of the utility--and problems--of using fragment lengths, repeats, and flanking regions of microsatellite markers for conservation genetic studies.

"Several studies have examined and reported biases associated with the use of microsatellite genotyping," says Germain-Aubrey. "The widespread use of these markers for genetic studies led us to further explore the utility and problems associated with using microsatellites. We used an endangered plant species, Polygala lewtonii, as a test case."

The problem with microsatellites essentially boils down to whether or not you can confidently infer the relative number of repeats between individual plants. A problem arises when a mutation in the flanking region causes a change in the overall fragment length. When only considering fragment length, such a mutation can mimic the addition (or deletion) of a repeat, leading to erroneous conclusions. This is termed homoplasy--similarities in fragment length are not due to their shared ancestry but, rather, to an unseen change in an area adjacent to the repeats.

By sequencing the flanking regions, Germain-Aubrey and colleagues were able to quantify the amount of homoplasy in their data set. "Contrary to previous thinking, we found that homoplasy can profoundly affect studies working within even the most recently diverged populations," she explains.

An additional important result from this study is that researchers need to be wary when using microsatellite markers that were designed for a different species. The team found that the amount of homoplasy becomes increasingly problematic when considering multiple species or using markers designed for a taxon other than the target species. "Often, it's tempting to use markers that were previously developed for a closely related species. We strongly suggest that when doing this, researchers take the time to sequence several individuals from their study species using these markers before forging ahead with the study," concludes Germain-Aubrey.


Charlotte C. Germain-Aubrey, Cory Nelson, Douglas E. Soltis, Pamela S. Soltis, and Matthew A. Gitzendanner. 2016. Are microsatellite fragment lengths useful for population-level studies? The case of Polygala lewtonii (Polygalaceae). Applications in Plant Sciences 4(2): 1500115. doi:10.3732/apps.1500115.

Applications in Plant Sciences (APPS) is a monthly, peer-reviewed, open access journal focusing on new tools, technologies, and protocols in all areas of the plant sciences. It is published by the Botanical Society of America, a nonprofit membership society with a mission to promote botany, the field of basic science dealing with the study and inquiry into the form, function, development, diversity, reproduction, evolution, and uses of plants and their interactions within the biosphere. APPS is available as part of BioOne's Open Access collection.

For further information, please contact the APPS staff at

Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.