R. E. Stall scite author profile

Improvement of the taxonomy of the genus Xanthomonas and especially of Xanthomonas campestris, which is subdivided into more than 125 pathovars, is discussed. Recent contributions to the taxonomy of Xanthomonas are reviewed, and on the basis of these data and unpublished data from several laboratories, the usefulness of different phenotypic, chemotaxonomic, and genotypic techniques is discussed. The heterogeneity of several X. campestris pathovars has been demonstrated by sodium dodecyl sulfate electrophoresis of whole-cell proteins and fatty acid fingerprinting. The host selectivity of the pathovars is not correlated with their relationships as revealed by DNA-DNA hybridization experiments. In order to reveal the phylogenetic relationships among X. campestris pathovars and their relationships to other Xanthomonas species, it will be necessary to perform extensive DNA-DNA homology studies as an essential part of a polyphasic approach. At present, six DNA homology groups within X. campestris have been delineated. A systematic approach to improve the taxonomy of the genus Xanthomonas is proposed.

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Occurrence of a Bacterial Watermelon Fruit Blotch in Florida

Somodi¹,

Jones²,

Hopkins³

et al. 1991

Plant Dis.

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Detection and identification of phytopathogenic Xanthomonas strains by amplification of DNA sequences related to the hrp genes of Xanthomonas campestris pv. vesicatoria

Leite

Minsavage

Bonas

et al. 1994

Appl Environ Microbiol

114

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Three pairs of oligonucleotide primers specific for different regions of the hrp gene (hypersensitive reaction and pathogenicity) cluster ofXanthomonas campestris pv. vesicatoria were designed and tested for amplification of DNA isolated from a large number of different bacteria. DNA sequences related to the hrp genes were successfully amplified from X. fragariae and from 28 pathovars ofX. campestris. No DNA amplification occurred with genomic DNA from phytopathogenic strains ofX. campestris pv. secalis, X. campestris pv. translucens, and X. albilineans or from nonpathogenic opportunistic xanthomonads and phytopathogenic strains of the genera Acidovorax, Agrobacterium, Clavibacter, Erwinia, Pseudomonas, and Xylella. The DNA from those bacteria also failed to hybridize to hip-specific fragments in Southern blot analysis. DNA fragments amplified with a particular primer pair were of identical size from each of the different phytopathogenic xanthomonads. However, restriction analysis of these fragments by using frequently cutting endonucleases revealed variation in the pattern for these hip-related fragments amplified from the different Xanthomonas strains. The restriction patterns generated for the different fragments allowed distinction of the strains representing a pathovar or species of phytopathogenic xanthomonads. We believe that DNA amplification with hrp-specific oligonucleotide primers is a highly sensitive and specific method that can be applied for detection and identification of phytopathogenic xanthomonads.

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Characterization ofXanthomonas campestrisStrains from Aroids Using Physiological, Pathological, and Fatty Acid Analyses

Chase¹,

Stall²,

Hodge³

et al. 1992

Phytopathology

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R. E. Stall

Linkage of Copper Resistance and Avirulence Loci on a Self-Transmissible Plasmid inXanthomonas campestrispv.vesicatoria

Towards an Improved Taxonomy of Xanthomonas

Occurrence of a Bacterial Watermelon Fruit Blotch in Florida

Detection and identification of phytopathogenic Xanthomonas strains by amplification of DNA sequences related to the hrp genes of Xanthomonas campestris pv. vesicatoria

Characterization ofXanthomonas campestrisStrains from Aroids Using Physiological, Pathological, and Fatty Acid Analyses

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