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Logo of bmcgenoBioMed Centralsearchsubmit a manuscriptregisterthis articleBMC Genomics
 
BMC Genomics. 2009; 10: 612.
Published online 2009 December 16. doi:  10.1186/1471-2164-10-612
PMCID: PMC2806349
Copyright ©2009 Pemberton et al; licensee BioMed Central Ltd.
Sequence determinants of human microsatellite variability
Trevor J Pemberton,corresponding author1 Conner I Sandefur,2 Mattias Jakobsson,1,3 and Noah A Rosenberg1,2
1Department of Human Genetics, University of Michigan, 100 Washtenaw Avenue, Ann Arbor, Michigan 48109 USA
2Center for Computational Medicine and Biology, University of Michigan, 100 Washtenaw Avenue, Ann Arbor, Michigan 48109 USA
3Department of Evolutionary Biology, Evolutionary Biology Center, Uppsala University, Norbyvägen 18D, SE-752 36 Uppsala, Sweden
corresponding authorCorresponding author.
Trevor J Pemberton: trevorjp/at/umich.edu; Conner I Sandefur: sandefur/at/umich.edu; Mattias Jakobsson: mattias.jakobsson/at/ebc.uu.se; Noah A Rosenberg: rnoah/at/umich.edu
Received May 7, 2009; Accepted December 16, 2009.
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Abstract
Background
Microsatellite loci are frequently used in genomic studies of DNA sequence repeats and in population studies of genetic variability. To investigate the effect of sequence properties of microsatellites on their level of variability we have analyzed genotypes at 627 microsatellite loci in 1,048 worldwide individuals from the HGDP-CEPH cell line panel together with the DNA sequences of these microsatellites in the human RefSeq database.
Results
Calibrating PCR fragment lengths in individual genotypes by using the RefSeq sequence enabled us to infer repeat number in the HGDP-CEPH dataset and to calculate the mean number of repeats (as opposed to the mean PCR fragment length), under the assumption that differences in PCR fragment length reflect differences in the numbers of repeats in the embedded repeat sequences. We find the mean and maximum numbers of repeats across individuals to be positively correlated with heterozygosity. The size and composition of the repeat unit of a microsatellite are also important factors in predicting heterozygosity, with tetra-nucleotide repeat units high in G/C content leading to higher heterozygosity. Finally, we find that microsatellites containing more separate sets of repeated motifs generally have higher heterozygosity.
Conclusions
These results suggest that sequence properties of microsatellites have a significant impact in determining the features of human microsatellite variability.
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