Rebecca Bullard-Dillard scite author profile

BackgroundMice of the genus Peromyscus are found in nearly every habitat from Alaska to Central America and from the Atlantic to the Pacific. They provide an evolutionary outgroup to the Mus/Rattus lineage and serve as an intermediary between that lineage and humans. Although Peromyscus has been studied extensively under both field and laboratory conditions, research has been limited by the lack of molecular resources. Genes associated with reproduction typically evolve rapidly and thus are excellent sources of evolutionary information. In this study we describe the generation of two cDNA libraries, one from placenta and one from testis, characterize the resulting ESTs, and describe their utility for mapping the Peromyscus genome.ResultsThe 5' ends of 1,510 placenta and 4,798 testis clones were sequenced. Low quality sequences were removed and after clustering and contig assembly, 904 unique placenta and 2,002 unique testis sequences remained. Average lengths of placenta and testis ESTs were 711 bp and 826 bp, respectively. Approximately 82% of all ESTs were identified using the BLASTX algorithm to Mus and Rattus, and 34 – 54% of all ESTs could be assigned to a biological process gene ontology category in either Mus or Rattus. Because the Peromyscus genome organization resembles the Rattus genome more closely than Mus we examined the distribution of the Peromyscus ESTs across the rat genome finding markers on all rat chromosomes except the Y. Approximately 40% of all ESTs were specific to only one location in the Mus genome and spanned introns of an appropriate size for sequencing and SNP detection. Of the primers that were tried 54% provided useful assays for genotyping on interspecific backcross and whole-genome radiation hybrid cell panels.ConclusionThe 2,906 Peromyscus placenta and testis ESTs described here significantly expands the molecular resources available for the genus. These ESTs allow for specific PCR amplification and broad coverage across the genome, creating an excellent genetic marker resource for the generation of a medium-density genomic map. Thus, this resource will significantly aid research of a genus that is uniquely well-suited to both laboratory and field research.

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Anti-Sm Autoantibodies of Systemic Lupus Erythematosus Cross React with Dietary Plant Proteins

Bullard-Dillard

Chen

Pelsue

et al. 1992

Immunological Investigations

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Cross reactivity of patient lupus autoantibodies to the small nuclear ribonucleoprotein particles of many different types of animals is well documented. The aim of our research was to determine if any level of cross reactivity existed between proteins of common dietary plants and anti-Sm autoantibodies of lupus patient's sera, as has been found for scleroderma patient sera (Agris et al., Exptl. Cell Res. 189, 276-279, 1990). Protein extracts from soy bean, corn, spinach, and carrot were analyzed. At least one protein (molecular weight approximately 28,000 daltons) common to all the above protein extracts was recognized by most of the anti-Sm sera tested. Affinity purified antibody eluted from the 28 kilodalton plant protein specifically recognized the Sm proteins of a HeLa cell protein extract. Recognition of the 28 kilodalton dietary plant protein was found to be unique to anti-Sm lupus sera.

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Rebecca Bullard-Dillard

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Expressed sequence tags from Peromyscus testis and placenta tissue: Analysis, annotation, and utility for mapping

Anti-Sm Autoantibodies of Systemic Lupus Erythematosus Cross React with Dietary Plant Proteins

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