Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Big Idea 1: The process of evolution drives the diversity
Document related concepts
Behavioural genetics wikipedia , lookup
Gene expression programming wikipedia , lookup
Artificial gene synthesis wikipedia , lookup
Dual inheritance theory wikipedia , lookup
Designer baby wikipedia , lookup
Adaptive evolution in the human genome wikipedia , lookup
Human genetic variation wikipedia , lookup
Polymorphism (biology) wikipedia , lookup
Dominance (genetics) wikipedia , lookup
Hardy–Weinberg principle wikipedia , lookup
Koinophilia wikipedia , lookup
Medical genetics wikipedia , lookup
Genetic drift wikipedia , lookup
Transcript
Big Idea 1: The process of evolution drives the diversity and unity of life. Unit 1:Evolution Chapter 23, Evolution of Populations 23.1, Population genetics provides a foundation for studying evolution • Remember populations evolve NOT individuals. • Darwin’s Natural Selection was not fully appreciated with Mendel’s work in genetics, which Darwin was not aware of at the time of publication. 23.1, Population genetics provides a foundation for studying evolution • Microevolution versus macroevolution – Micro - is the changes in allele frequencies that occur over time within a population – Example: anti-biotic resistant bacteria – Macro - is evolution on a scale of separated gene pools. – Example: the evolutionary history of the horse (Equidae). 23.1, Population genetics provides a foundation for studying evolution • A. The Modern Synthesis – 1. Population Genetics • Darwin + Mendel • The study of how populations change over time. – 2. Modern Synthesis • Theory of evolution that integrates math, etc…Modern Synthesis is still changing today as we gain more information about evolution. 23.1, Population genetics provides a foundation for studying evolution • Before we move on to “B. Gene Pools and Allele Frequencies” let have a quick review of some genetic terms we need to be fluent with for this section. • Get with a partner and come up with a definition and picture for each term. Use the book as a last resort or to check your finished product. Allow yourself to struggle and access your prior biological knowledge. 23.1, Population genetics provides a foundation for studying evolution • Gene pool, Chromosome, gene, allele, homozygous, heterozygous, dominant, recessive, gene flow, genetic drift, mutation, genotype, phenotype, incomplete dominance, co-dominance, gene loci (locus), gametes, zygotes. • 18 Terms. 23.1, Population genetics provides a foundation for studying evolution • B. Gene Pools and Allele Frequencies • 1. Population – same species, same place, same time capable of interbreeding to produce fertile offspring. • 2. Not all populations are isolate or have sharp boundaries. – Gene Pool – all the genes at any one time in a population. 23.1, Population genetics provides a foundation for studying evolution 23.1, Population genetics provides a foundation for studying evolution – Gene pool consists of all the alleles at all gene loci in all the individuals of the population. – Allele frequency – is the proportion of each allele within the population. – If only one allele exists at a particular locus it is said to be fixed. – When there are two alleles p represents one alleles and q represent the second allele. – With this information you can allele frequencies and genetic variability within a population 23.1, Population genetics provides a foundation for studying evolution • C. The Hardy-Weinberg (HW) Theorem • 1. Preservation of Allele Frequencies – How do gene pools NOT evolve? – HW describes how Mendelian inheritance preserves genetic variation from generation to the next in population that are NOT evolving. – To understand how populations evolve first we will see how they DO NOT evolve. 23.1, Population genetics provides a foundation for studying evolution • 2. HW equilibrium – p2+2pq +q2 = 1 • • • • P2 = for example AA Pq = for example Aa Q2 = for example aa Note that p (all “A”) + q (all “a”) = 1 23.1, Population genetics provides a foundation for studying evolution • Example Problem: 23.1, Population genetics provides a foundation for studying evolution • 3. Conditions for Hardy Weinberg Equilibrium – Extremely Large Population Size – No gene flow – No Mutations – Random mating – No Natural Selection – Memorize these!!!!!!!!!! 23.1, Population genetics provides a foundation for studying evolution • The sources of variation in a real population – Mutation: only source for new alleles – Sex Recombination – Natural Selection: the primary mechanism of adaptive evolution – Genetic drift: allele frequency deviation due to small population • The bottleneck effect • The founder effect – Gene flow: the gain or loss alleles by population 23.1, Population genetics provides a foundation for studying evolution • 4. Population Genetics and Human Health – Used to determine APPROXIMATIONS of PKU carriers.
