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Modeltest 3.7 [38] was used to determine the most appropriate nucleotide substitution model for our data set.
The most appropriate nucleotide substitution model for maximum likelihood phylogenetic analysis was determined with the model selection procedure implemented in the program Modeltest 3.7.
We identified the most appropriate nucleotide substitution model, based on hierarchical likelihood ratio tests (hLRTs), Akaike Information criterion (AIC) and bayesian information criterion (BIC) values, using PHYML [35] in a similar way to Modeltest [36].
19 Model selection was performed using jModelTest2 21, 21 to determine the most appropriate nucleotide substitution model.
jModelTest (version 0.1.1) with Akaike Information criterion (AIC) was used to estimate the most appropriate nucleotide substitution model [ 77].
The jModeltest (28 ) was used to determine the most appropriate nucleotide substitution model for ML and ME analyses.
Similar(53)
Similarly for each nucleotide partition, the most appropriate model of nucleotide substitution was determined by the AIC Akaike Information Criterionn) in Modeltest ver. 3.7 [ 26].
The most appropriate model of nucleotide substitution for each dataset was determined using jModelTest v0.1.1 [78].
The most appropriate model of nucleotide evolution for the mitochondrial datasets was the GTR with gamma (G) and invariant (I) parameters (GTR+I+G).
As described for the mitochondrial analyses, the most appropriate model of nucleotide evolution for the ML and Bayesian analyses was determined to be the TIM+I+G model.
We used Modeltest 3.7 [27] to determine the most appropriate model of nucleotide substitution and used this model in all relevant calculations in Arlequin.
More suggestions(14)
most conserved nucleotide
most likely nucleotide
most common nucleotide
most important nucleotide
most frequent nucleotide
most appropriate working
most conspicuous nucleotide
most biased nucleotide
most variable nucleotide
most primer nucleotide
most appropriate genetic
most suitable nucleotide
most single nucleotide
most appropriate sequence
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