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Volume 18, Number 11—November 2012
Research

Mycoplasmosis in Ferrets

Matti KiupelComments to Author , Danielle R. Desjardins, Ailam Lim, Carole Bolin, Cathy A. Johnson-Delaney, James H. Resau, Michael M. Garner, and Steven R. Bolin
Author affiliations: Michigan State University, Lansing, Michigan, USA (M. Kiupel, D.R. Desjardins, A. Lim, C. Bolin, S.R. Bolin); Eastside Avian and Exotic Animal Medical Center, Kirkland, Washington, USA (C.A. Johnson-Delaney); Van Andel Research Institute, Grand Rapids, Michigan, USA (J.H. Resau); and Northwest ZooPath, Monroe, Washington, USA (M.M. Garner)

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Figure 6

Phylogenetic analysis of A) partial 16S rDNA gene (933 bp) and B) partial RNA polymerase B gene (733 bp) for the new mycoplasma isolates and other closely related mycoplasma species as conducted in MEGA4 (13). The bootstrap consensus phylogenetic trees were constructed by using the neighbor-joining method (14). The bootstrap values as shown above the branches were inferred from 1,000 replicates of data resampling to represent the evolutionary distances of the species analyzed (15). The tree is d

Figure 6. . . Phylogenetic analysis of A) partial 16S rDNA gene (933 bp) and B) partial RNA polymerase B gene (733 bp) for the new mycoplasma isolates and other closely related Mycoplasma species as conducted in MEGA4 (13). The bootstrap consensus phylogenetic trees were constructed by using the neighbor-joining method (14). The bootstrap values as shown above the branches were inferred from 1,000 replicates of data resampling to represent the evolutionary distances of the species analyzed (15). The tree is drawn to scale; branch lengths are in the same units as those of the evolutionary distances used to infer the phylogenetic tree (i.e., the units of the number of base substitutions per site).

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