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Volume 15, Number 12—December 2009

Dispatch

Bartonella rochalimae in Raccoons, Coyotes, and Red Foxes

Jennifer B. Henn, Bruno B. ChomelComments to Author , Henri-Jean Boulouis, Rickie W. Kasten, William J. Murray, Gila K. Bar-Gal, Roni King, Jean-François Courreau, and Gad Baneth
Author affiliations: Napa County Health and Human Services, Napa, California, USA (J.B. Henn); University of California, Davis, California, USA (B.B. Chomel, R.W. Kasten); École Nationale Vétérinaire d’Alfort, Maisons-Alfort, France (H.-J. Boulouis, J.-F. Courreau); San José State University, San José, California, USA (W.J. Murray); Hebrew University of Jerusalem, Rehovot, Israel (G.K. Bar-Gal, G. Baneth); Nature Parks Authority, Jerusalem, Israel (R. King)

Main Article

Figure 2

Phylogenetic tree of Bartonella species based on intergenic transcribed spacer sequence alignment for the isolates from the gray foxes, red foxes, and raccoons. Raccoon and gray fox isolates are shown for comparison. The tree shown is a neighbor-joining tree based on the Kimura 2-parameter model of nucleotide substitution. Bootstrap values are based on 1,000 replicates. The analysis provided tree topology only; the lengths of the vertical and horizontal lines are not significant.

Figure 2. Phylogenetic tree of Bartonella species based on intergenic transcribed spacer sequence alignment for the isolates from the gray foxes, red foxes, and raccoons. Raccoon and gray fox isolates are shown for comparison. The tree shown is a neighbor-joining tree based on the Kimura 2-parameter model of nucleotide substitution. Bootstrap values are based on 1,000 replicates. The analysis provided tree topology only; the lengths of the vertical and horizontal lines are not significant.

Main Article

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