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Michael R May

Showing results (1-10 of 28) with videos related to

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Medrxiv : the Preprint Server for Health Sciences|August 14, 2023
Phylogenies increase power to detect highly transmissible viral genome variantsMichael R May, Bruce Rannala
Science Advances|August 14, 2024
Early detection of highly transmissible viral variants using phylogenomicsMichael R May, Bruce Rannala
Proceedings. Biological Sciences|June 23, 2026
A method for detecting transmission-enhancing mutations in viral genomesMichael R May, Bruce Rannala
Systematic Biology|October 31, 2019
A Bayesian Approach for Inferring the Impact of a Discrete Character on Rates of Continuous-Character Evolution in the Presence of Background-Rate VariationMichael R May, Brian R Moore
Systematic Biology|April 3, 2016
How Well Can We Detect Lineage-Specific Diversification-Rate Shifts? A Simulation Study of Sequential AIC MethodsMichael R May, Brian R Moore
Systematic Biology|March 10, 2023
Diversification Models Conflate Likelihood and Prior, and Cannot be Compared Using Conventional Model-Comparison ToolsMichael R May, Carl J Rothfels
Bioinformatics (Oxford, England)|November 7, 2015
TESS: an R package for efficiently simulating phylogenetic trees and performing Bayesian inference of lineage diversification ratesSebastian Höhna, Michael R May, Brian R Moore
Plos One|October 25, 2014
The dawn of open access to phylogenetic dataAndrew F Magee, Michael R May, Brian R Moore
Bioinformatics (Oxford, England)|January 2, 2023
PrioriTree: a utility for improving phylodynamic analyses in BEASTJiansi Gao, Michael R May, Bruce Rannala, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 26, 2020
A hierarchical Bayesian mixture model for inferring the expression state of genes in transcriptomesAmmon Thompson, Michael R May, Brian R Moore, et al.
Pageof 3

Showing results (1-10 of 28) with videos related to

Sort By:
Pageof 3
Medrxiv : the Preprint Server for Health Sciences|August 14, 2023
Phylogenies increase power to detect highly transmissible viral genome variantsMichael R May, Bruce Rannala
Science Advances|August 14, 2024
Early detection of highly transmissible viral variants using phylogenomicsMichael R May, Bruce Rannala
Proceedings. Biological Sciences|June 23, 2026
A method for detecting transmission-enhancing mutations in viral genomesMichael R May, Bruce Rannala
Systematic Biology|October 31, 2019
A Bayesian Approach for Inferring the Impact of a Discrete Character on Rates of Continuous-Character Evolution in the Presence of Background-Rate VariationMichael R May, Brian R Moore
Systematic Biology|April 3, 2016
How Well Can We Detect Lineage-Specific Diversification-Rate Shifts? A Simulation Study of Sequential AIC MethodsMichael R May, Brian R Moore
Systematic Biology|March 10, 2023
Diversification Models Conflate Likelihood and Prior, and Cannot be Compared Using Conventional Model-Comparison ToolsMichael R May, Carl J Rothfels
Bioinformatics (Oxford, England)|November 7, 2015
TESS: an R package for efficiently simulating phylogenetic trees and performing Bayesian inference of lineage diversification ratesSebastian Höhna, Michael R May, Brian R Moore
Plos One|October 25, 2014
The dawn of open access to phylogenetic dataAndrew F Magee, Michael R May, Brian R Moore
Bioinformatics (Oxford, England)|January 2, 2023
PrioriTree: a utility for improving phylodynamic analyses in BEASTJiansi Gao, Michael R May, Bruce Rannala, et al.
Proceedings of the National Academy of Sciences of the United States of America|July 26, 2020
A hierarchical Bayesian mixture model for inferring the expression state of genes in transcriptomesAmmon Thompson, Michael R May, Brian R Moore, et al.
Pageof 3