Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview Can changes like this….…explain changes like this?

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Presentation transcript:

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview Can changes like this….…explain changes like this?

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview Can changes like this…. …explain changes like this? Differences correlate with what they make (different proteins make them different colors) Differences don’t correlate with what they make; they are pretty much the same stuff, just in a different shape.

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview - the importance of embryology and development: In embryological development, we see structures emerging where they did not exist before. Maybe the evolution of new structures during the history of life ‘emerged’ in the same way, through the evolution and regulation of developmental pathways that gave rise to new structures.

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes Normal antennae“antennapedia mutant

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity without fish predatorswith fish predators

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity selection Norm of reaction Selection for making that phenotype more efficiently

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Regulation and Selection

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Regulation and Selection

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Regulation and Selection E. Allometry and Speciation Allometry – difference in growth rates of different body parts – causes change in body proportionality

Modern Evolutionary Biology I. Population Genetics II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Regulation and Selection E. Allometry and Speciation Allometry – difference in growth rates of different body parts – causes change in body proportionality

II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Allometry and Speciation Different ratios correlate with phylogeny Scarabaeidae: Onthophagus

II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Allometry and Speciation

II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Allometry and Speciation

Sources of VariationAgents of Change Mutation Recombination Selection Drift Mutation Migration Non-Random Mating VARIATION PHYSIOLOGY DEVELOPMENT II. Genes and Development: "Evo-Devo" A. Overview B. Homeotic Genes C. Environmental Effects and Phenotypic Plasticity D. Allometry and Speciation