Abstract

The mesquite lizard (Sceloporus grammicus) exhibits multiple Robertsonian chromosomal rearrangements (mainly centric fissions) resulting in several cytotypes. In a transitional environment from oak-pine forests to a drier xeric habitat in central Mexico, two cytotypes (F5: 2n = 34 and FM2: 2n = 46) are known to hybridize. A partial genomic library was constructed from S. grammicus genomic DNA and then screened for microsatellites. Microsatellites are short tandem nucleotide repeats that have near universal occurrence in all eukaryotic genomes. Microsatellites exhibit variable length polymorphisms that can be characterized and utilized as genetic markers for population studies. Thirteen microsatellite arrays were isolated from the S. grammicus genomic library and PCR primers were designed in the flanking regions for the amplification of these alleles. These microsatellite loci would be the primary tool used to answer behavioral, ecological, chromosomal and evolutionary questions that influence the maintenance of this hybrid zone.

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