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Figure S5: Consensus Tree Based on PhyloBayes Analysis of the Concatenated Chloroplast Data Set, Using Nucleotide Data and the CAT-GTR Model With Gamma-Distributed Rates
doi 10.7717/peerj.6899/supp-5
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Figure S4: Consensus Tree Based on PhyloBayes Analysis of the Concatenated Chloroplast Data Set, Using Amino Acid Data and the CAT-GTR Model With Gamma-Distributed Rates
Figure S1: Consensus Tree Based on MrBayes Analysis of the Concatenated Chloroplast Data Set (Nucleotide), in Which Serine, Arginine and Isoleucine Codons Were Ambiguously Recoded Prior to Analysis
Figure 2: Phylogenetic Tree of Bartonella, as Based on Concatenated gltA and rpoB Genes Using a GTR Substitution Model.
Figure S5: The Strict Consensus Tree of Analysis 2
Figure 2: Bayesian Consensus Trees Inferred From Analyses of Concatenated (A) Nucleotide and (B) Amino Acid Chloroplast Data (58 Protein-Coding Genes).
Table 6: Results of Species Delimitation Analysis Based on the Concatenated Tree.
Table S5: Models Selected by the BIC Criterion in IQ-TREE and Jmodeltest for Our Sequence Capture Data Set
Figure S2: The Strict Consensus Tree of Analysis 1
Figure S8: The Strict Consensus Tree of Analysis 3