Lecture PPT - Carol Eunmi LEE
... And, Random Mating: Mixes up combination of alleles at a given locus (increases genotypic variation) This shuffling of alleles is thought to have many advantages, as a major engine of generating genotypic variation ...
... And, Random Mating: Mixes up combination of alleles at a given locus (increases genotypic variation) This shuffling of alleles is thought to have many advantages, as a major engine of generating genotypic variation ...
Sex - Carol Lee Lab
... • Many small and isolated populations are in linkage disequilibrium (example: Finnish disease heritage) • Many agricultural species have high levels of LD due to strong artificial selection (human-induced) Why do we care? • Useful to know which alleles are commonly associated with one another • ...
... • Many small and isolated populations are in linkage disequilibrium (example: Finnish disease heritage) • Many agricultural species have high levels of LD due to strong artificial selection (human-induced) Why do we care? • Useful to know which alleles are commonly associated with one another • ...
Unit 07 - Lessons 4-6
... • Codominant alleles will both be completely expressed. – Codominant alleles are neither dominant nor recessive. – The ABO blood types result from codominant alleles. • Many genes have more than two alleles. ...
... • Codominant alleles will both be completely expressed. – Codominant alleles are neither dominant nor recessive. – The ABO blood types result from codominant alleles. • Many genes have more than two alleles. ...
Genetic Change
... fossils’ are sufficient for their needs, there is minimal competition from other species for the resources they need, and random mutations resulting in a beneficial new traits have not occurred to enable evolutionary change. • However, if another species were to have a mutation that would enable it ...
... fossils’ are sufficient for their needs, there is minimal competition from other species for the resources they need, and random mutations resulting in a beneficial new traits have not occurred to enable evolutionary change. • However, if another species were to have a mutation that would enable it ...
Biology~Chapter 12
... may also be caused by nondisjunction. Klinefelters Syndrome- XXY ( extra X) Turners Syndrome – only 1 X- missing a second X (XO) Super males XYY Any combination (up to XXXXY) produces maleness. Males with more than one X are usually ...
... may also be caused by nondisjunction. Klinefelters Syndrome- XXY ( extra X) Turners Syndrome – only 1 X- missing a second X (XO) Super males XYY Any combination (up to XXXXY) produces maleness. Males with more than one X are usually ...
Broad-Sense Heritability Index
... If we randomly draw a sperm and an egg from the gene pool, then pair them to make a zygote, the probability that both sperm and egg will carry the A allele = p x p, or p2. ...
... If we randomly draw a sperm and an egg from the gene pool, then pair them to make a zygote, the probability that both sperm and egg will carry the A allele = p x p, or p2. ...
Broad-Sense Heritability Index
... If we randomly draw a sperm and an egg from the gene pool, then pair them to make a zygote, the probability that both sperm and egg will carry the A allele = p x p, or p2. ...
... If we randomly draw a sperm and an egg from the gene pool, then pair them to make a zygote, the probability that both sperm and egg will carry the A allele = p x p, or p2. ...
Defining Cooperative breeding
... within a group whose behavior (and sometimes anatomy) is modified for group defense, including self-sacrificing “altruism”. This is hypothesized to work evolutionarily because males are NOT fertilized, so ALL females are 3/4 related to one another because the males are haploid and can only give one ...
... within a group whose behavior (and sometimes anatomy) is modified for group defense, including self-sacrificing “altruism”. This is hypothesized to work evolutionarily because males are NOT fertilized, so ALL females are 3/4 related to one another because the males are haploid and can only give one ...
FRQ - mendels laws
... A. MENDEL'S LAWS FACTORS (genes or alleles) in pairs / 2 alleles per trait (1) FACTORS (alleles, genes) dominant or recessive; or (1) maternal + paternal origin; or (1) heterozygote has 2 types. (1) EXAMPLES (A, a; green, yellow, Punnett square) or monohybrid cross (1) FIRST LAW EXPLAINED: segregat ...
... A. MENDEL'S LAWS FACTORS (genes or alleles) in pairs / 2 alleles per trait (1) FACTORS (alleles, genes) dominant or recessive; or (1) maternal + paternal origin; or (1) heterozygote has 2 types. (1) EXAMPLES (A, a; green, yellow, Punnett square) or monohybrid cross (1) FIRST LAW EXPLAINED: segregat ...
Genotype X Environment Interactions
... Loss of evolutionary potential due to small population sizes. ...
... Loss of evolutionary potential due to small population sizes. ...
Mechanisms in variability
... There is also a component commonly called dominance deviation. This refers to differences in phenotypic expression due to the character of the other allele at the same locus. And there is a third component due to epistasis, which is the effect on the phenotypic expression of a gene due to the charac ...
... There is also a component commonly called dominance deviation. This refers to differences in phenotypic expression due to the character of the other allele at the same locus. And there is a third component due to epistasis, which is the effect on the phenotypic expression of a gene due to the charac ...
File
... Genetic Screening and Counselling • Pedigree charts (family tree) are used to analyse patterns of inheritance in genetic screening • Once the phenotype for a characteristic is known and a family tree is constructed most of the genotypes can be determined • This information is used by genetic counsel ...
... Genetic Screening and Counselling • Pedigree charts (family tree) are used to analyse patterns of inheritance in genetic screening • Once the phenotype for a characteristic is known and a family tree is constructed most of the genotypes can be determined • This information is used by genetic counsel ...
Mendelian Genetics Blending theory of heredity
... Parents w recently shared ancestry are more likely to inherit the same recessive alleles than unrelated persons Because some embryos are aborted prior to birth, it is difficult to assess extant to which consanguinity increases the incidence of inherited diseases Most cultures forbid marriage between ...
... Parents w recently shared ancestry are more likely to inherit the same recessive alleles than unrelated persons Because some embryos are aborted prior to birth, it is difficult to assess extant to which consanguinity increases the incidence of inherited diseases Most cultures forbid marriage between ...
TWO TYPES OF TRAITS
... Polygenic threshold traits: a certain number of alleles for the trait must be present before it appears phenotypically ...
... Polygenic threshold traits: a certain number of alleles for the trait must be present before it appears phenotypically ...
VII. Natural Selection - Effingham County Schools
... – A. Causes Survival of the fittest! – B. Fitness is a result of adaptation. • Fitness= the ability of an individual to survive ...
... – A. Causes Survival of the fittest! – B. Fitness is a result of adaptation. • Fitness= the ability of an individual to survive ...
Human Genetic Disorders
... • Sickle-cell anemia is most common in areas of the world where malaria is prevalent • Malaria is caused by a parasite that invades red blood cells • These parasites do not thrive in people with abnormal hemoglobin, so people with sickle-cell trait (who are heterozygous) are resistant to malaria. ...
... • Sickle-cell anemia is most common in areas of the world where malaria is prevalent • Malaria is caused by a parasite that invades red blood cells • These parasites do not thrive in people with abnormal hemoglobin, so people with sickle-cell trait (who are heterozygous) are resistant to malaria. ...
Human Genetic Disorders PowerPoint
... • Sickle-cell anemia is most common in areas of the world where malaria is prevalent • Malaria is caused by a parasite that invades red blood cells • These parasites do not thrive in people with abnormal hemoglobin, so people with sickle-cell trait (who are heterozygous) are resistant to malaria. ...
... • Sickle-cell anemia is most common in areas of the world where malaria is prevalent • Malaria is caused by a parasite that invades red blood cells • These parasites do not thrive in people with abnormal hemoglobin, so people with sickle-cell trait (who are heterozygous) are resistant to malaria. ...
Study Guide
... 1. What are two ways that sexual reproduction helps create and maintain genetic diversity? ...
... 1. What are two ways that sexual reproduction helps create and maintain genetic diversity? ...
No Slide Title
... that fossil mammals in South America are similar yet different from present-day llamas, sloths, and armadillos that the finches and giant tortoises living on the Galápagos Islands vary from island to island and still resemble ones from South America, even though they differ in subtle ways ...
... that fossil mammals in South America are similar yet different from present-day llamas, sloths, and armadillos that the finches and giant tortoises living on the Galápagos Islands vary from island to island and still resemble ones from South America, even though they differ in subtle ways ...
Chapter #9 – Properties of Populations
... a series of questions designed to initiate a scientific discussion on the subject. You will be graded in the same manner (sheet is forthcoming). You must sign up for the time during the examination week (30 minute segments). ...
... a series of questions designed to initiate a scientific discussion on the subject. You will be graded in the same manner (sheet is forthcoming). You must sign up for the time during the examination week (30 minute segments). ...
Airgas template
... Most genetic disorders are caused by an alteration in the deoxyribonucleic acid (DNA) sequence that alters the synthesis of a single gene product. Autosomal recessive disorders are manifested even if only one member of the gene pair is affected. A teratogenic agent is an environmental agent that pro ...
... Most genetic disorders are caused by an alteration in the deoxyribonucleic acid (DNA) sequence that alters the synthesis of a single gene product. Autosomal recessive disorders are manifested even if only one member of the gene pair is affected. A teratogenic agent is an environmental agent that pro ...
Polymorphism (biology)
Polymorphism in biology is said to occur when two or more clearly different phenotypes exist in the same population of a species—in other words, the occurrence of more than one form or morph. In order to be classified as such, morphs must occupy the same habitat at the same time and belong to a panmictic population (one with random mating).Polymorphism as described here involves morphs of the phenotype. The term is also used somewhat differently by molecular biologists to describe certain point mutations in the genotype, such as SNPs (see also RFLPs). This usage is not discussed in this article.Polymorphism is common in nature; it is related to biodiversity, genetic variation and adaptation; it usually functions to retain variety of form in a population living in a varied environment. The most common example is sexual dimorphism, which occurs in many organisms. Other examples are mimetic forms of butterflies (see mimicry), and human hemoglobin and blood types.According to the theory of evolution, polymorphism results from evolutionary processes, as does any aspect of a species. It is heritable and is modified by natural selection. In polyphenism, an individual's genetic make-up allows for different morphs, and the switch mechanism that determines which morph is shown is environmental. In genetic polymorphism, the genetic make-up determines the morph. Ants exhibit both types in a single population.Polymorphism also refers to the occurrence of structurally and functionally more than two different types of individuals, called zooids within the same organism. It is a characteristic feature of Cnidarians.For example, in Obelia there are feeding individuals, the gastrozooids; the individuals capable of asexual reproduction only, the gonozooids, blastostyles and free-living or sexually reproducing individuals, the medusae.