Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download How populations evolve
Document related concepts
Gene expression programming wikipedia , lookup
Pharmacogenomics wikipedia , lookup
Site-specific recombinase technology wikipedia , lookup
Inbreeding avoidance wikipedia , lookup
Designer baby wikipedia , lookup
Human leukocyte antigen wikipedia , lookup
Point mutation wikipedia , lookup
Group selection wikipedia , lookup
Human genetic variation wikipedia , lookup
Polymorphism (biology) wikipedia , lookup
Koinophilia wikipedia , lookup
Hardy–Weinberg principle wikipedia , lookup
Genetic drift wikipedia , lookup
Population genetics wikipedia , lookup
Transcript
How populations evolve SECTION 15.2 Allele frequencies An allele is a form of a gene (usually either dominant or recessive) Each individual has 2 alleles – homozygous dominant (TT), homozygous recessive (tt) or heterozygous (Tt) Within a population we call all the alleles that are present the gene pool Over time, as populations change, the percentages of these alleles can also change If the percentages of alleles change, then we say that the population has evolved Hardy-Weinberg Principle Allele frequencies will NOT change unless evolutionary forces are acting on the population Five evolutionary forces: 1. Mutation 2. Gene flow 3. Nonrandom mating 4. Genetic drift 5. Natural selection Mutation An allele can be changed by mistakes in copying Sometimes mutations are caused by chemicals or radiation in the environment Most mutations are harmful to the animal Mutations that make an animal better able to survive will be passed on to offspring Gene flow Animals move into (immigrate) and out of (emigrate) populations When they move, the allele frequencies may change or ‘flow’ Nonrandom mating Most animal species select mates with certain characteristics (sexual selection) This may change the allele frequencies to favor these traits Genetic drift Small populations may not start out with a lot of variation If they are isolated from other populations of the same species, their allele frequencies can change Natural selection Individuals with alleles that improve their chances of survival will reproduce and pass on those alleles to their offspring ‘survival of the fittest’ How natural selection works Natural selection only acts on the phenotype of the individual (the physical expression of alleles) Heterozygous individuals may still be carriers of harmful alleles Some traits are caused by combinations of alleles – they are polygenic These will show a wide range of phenotypes - example: human height We show this range with a graph called a normal distribution Normal distribution curve How natural selection works… Directional selection – the environment favors one particular allele (either the dominant or recessive) and soon the other individuals are no longer seen as frequently Stabilizing selection – the environment favors individuals with the middle range of phenotypes, so the extremes are no longer seen as frequently Directional vs. Stabilizing selection
