Profiling of Temperature-Induced Changes inBorrelia burgdorferiGene Expression by Using Whole Genome Arrays

Abstract

Borrelia burgdorferiis the etiologic agent of Lyme disease, the most prevalent arthropod-borne disease in the United States. The genome of the type strain, B31, consists of a 910,725-bp linear chromosome and 21 linear and circular plasmids comprising 610,694 bp. During its life cycle, the spirochete exists in distinctly different environments, cycling between a tick vector and a mammalian host. Temperature is one environmental factor known to affectB. burgdorferigene expression. To identify temperature-responsive genes, genome arrays containing 1,662 putativeB. burgdorferiopen reading frames (ORFs) were prepared on nylon membranes and employed to assess gene expression inB. burgdorferiB31 grown at 23 and 35°C. Differences in expression of more than 3.5 orders of magnitude could be readily discerned and quantitated. At least minimal expression from 91% of the arrayed ORFs could be detected. A total of 215 ORFs were differentially expressed at the two temperatures; 133 were expressed at significantly greater levels at 35°C, and 82 were more significantly expressed at 23°C. Of these 215 ORFs, 134 are characterized as genes of unknown function. One hundred thirty-six (63%) of the differentially expressed genes are plasmid encoded. Of particular interest is plasmid lp54 which contains 76 annotated putative genes; 31 of these exhibit temperature-regulated expression. These findings underscore the important role plasmid-encoded genes may play in adjustment ofB. burgdorferito growth under diverse environmental conditions.