Abstract
Xanthomonas campestris is an important plant pathogenic bacterium which causes severe diseases in a wide variety of plant species. We have generated a macrorestriction map of the X. campestris (axonopodis) pv. glycines chromosome employing pulsed-field gel electrophoresis (PFGE). Restriction endonucleases PacI (5'-TTAATTAA), PmeI (5'-GTTTAAAC) and SwaI (5'-ATTTAAAT) digested the chromosomal DNA into three, five, and five fragments, respectively. In addition, intron-encoded restriction endonuclease I-CeuI was employed to locate the position of the 23S rRNA genes (rrlA and rrlB). All of the generated restriction fragments were aligned along the chromosome using multiple restriction enzyme digestion and two-dimensional PFGE (2-D PFGE) in conjunction with Southern hybridization analysis. This physical map construction has revealed a single circular chromosome with a size of approximately 5 Mb. Two rRNA genes were localized on the chromosome map. Several genes involved in pathogenesis (xpsD, opsX, and pat) as well as genes involved in the biosynthesis of xanthan gum (xanAB, rfbCDAB) were also localized.
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