FIGURE 3. Maximum Likelihood tree inferred from the ITS rDNA sequences under the GTR model of Ernstia species (available in GenBank and generated in the present study) and three Ascandra species (as an outgroup). Bootstrap values are indicated
FIGURE 2. Maximum likelihood tree based on partial 16S sequences for the genera Asteroschema, Ophioc...
Fig. 19. Maximum likelihood tree based on partial 28S rDNA sequences of Calcaronea. Bayesian posteri...
Maximum Likelihood tree of the green algae inferred from 18S rRNA sequences with bootstrap values (1...
FIGURE 3. Maximum Likelihood tree inferred from the ITS rDNA sequences under the GTR model of Ernsti...
FIGURE 2. Ernstia pyrum sp. nov. A, triactines; B, tetractines; C, surface of the sponge, note numer...
FIGURE 6. Maximum likelihood (ML) tree reconstructed with the ribosomal nuclear marker ITS. Bootstra...
FIGURE 1. Ernstia pyrum sp. nov. A, holotype sectioned longitudinally, note well developed atrium; B...
FIGURE 4. Ernstia rocasensis morphotypes A. Photo in vivo of massive morphotype in mangrove (UFRJPOR...
FIGURE 6. Maximum likelihood tree built with 405 bp of LSU (C-region) rRNA marker, using a GTR+G+I c...
FIGURE 4. Maximum likelihood tree estimate using general-time reversible (GTR) + gamma model based o...
Fig. 17. Maximum likelihood tree (ML) based on partial 28S rDNA sequences of Calcinea. Bayesian post...
FIGURE 5. Bayesian and ML trees of selected hexactinellid species based on the 16S rRNA sequence dat...
Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian p...
Fig. 18. Maximum likelihood tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcaronea. Bayesian post...
FIGURE 2. Maximum likelihood trees of Octocorallia based on analyses of single genes. a: 28S rDNA; b...
FIGURE 2. Maximum likelihood tree based on partial 16S sequences for the genera Asteroschema, Ophioc...
Fig. 19. Maximum likelihood tree based on partial 28S rDNA sequences of Calcaronea. Bayesian posteri...
Maximum Likelihood tree of the green algae inferred from 18S rRNA sequences with bootstrap values (1...
FIGURE 3. Maximum Likelihood tree inferred from the ITS rDNA sequences under the GTR model of Ernsti...
FIGURE 2. Ernstia pyrum sp. nov. A, triactines; B, tetractines; C, surface of the sponge, note numer...
FIGURE 6. Maximum likelihood (ML) tree reconstructed with the ribosomal nuclear marker ITS. Bootstra...
FIGURE 1. Ernstia pyrum sp. nov. A, holotype sectioned longitudinally, note well developed atrium; B...
FIGURE 4. Ernstia rocasensis morphotypes A. Photo in vivo of massive morphotype in mangrove (UFRJPOR...
FIGURE 6. Maximum likelihood tree built with 405 bp of LSU (C-region) rRNA marker, using a GTR+G+I c...
FIGURE 4. Maximum likelihood tree estimate using general-time reversible (GTR) + gamma model based o...
Fig. 17. Maximum likelihood tree (ML) based on partial 28S rDNA sequences of Calcinea. Bayesian post...
FIGURE 5. Bayesian and ML trees of selected hexactinellid species based on the 16S rRNA sequence dat...
Fig. 16. Maximum likelihood (ML) tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcinea. Bayesian p...
Fig. 18. Maximum likelihood tree based on ITS1-5.8S-ITS2 rDNA sequences of Calcaronea. Bayesian post...
FIGURE 2. Maximum likelihood trees of Octocorallia based on analyses of single genes. a: 28S rDNA; b...
FIGURE 2. Maximum likelihood tree based on partial 16S sequences for the genera Asteroschema, Ophioc...
Fig. 19. Maximum likelihood tree based on partial 28S rDNA sequences of Calcaronea. Bayesian posteri...
Maximum Likelihood tree of the green algae inferred from 18S rRNA sequences with bootstrap values (1...
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