Abstract

AbstractI tested six microsatellite DNA primer pairs developed for the massasauga rattlesnake (Sistrurus catenatus) on a sample population of the timber rattlesnake (Crotalus horridus). It had been speculated in a previous publication that cross‐species amplification would not be worthwhile across the two rattlesnake genera. However, for this primer set (the only one currently published for the genus Sistrurus), successful amplification at each locus was accomplished for all loci with an annealing temperature of 57 °C and locus‐specific buffer conditions. Each locus was polymorphic, with the number of alleles per locus ranging from two to 12. Significant heterozygote deficits were detected for three loci (Scu01, Scu05 and Scu07). For Scu01, all individuals were homozygous for the same allele except one female who was homozygous for a different allele. This same female was also homozygous for a rare allele at Scu07. When this female was removed from the data set, the number of observed heterozygotes at Scu01 and Scu07 did not differ significantly from random expectations. However, a large heterozygote deficit persisted at Scu05 (despite subsampling), suggesting that this locus may not be useful for population genetic studies of timber rattlesnakes. Despite some limitations, this set of primers may be a useful complement to those already developed for the genus Crotalus. Moreover, the results of this study seem to provide new justification for further studies of cross‐species amplification of microsatellite loci across the two rattlesnake genera.

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