23 August, 2006 Chapters 1-2 Mendelian Genetics and Nucleic Acid Structure.

Slides:

Advertisements

Similar presentations

Section 3: Gene Linkage and Polyploidy

Advertisements

Genetics notes For makeup. A gene is a piece of DNA that directs a cell to make a certain protein. –Homozygous describes two alleles that are the same.

LEQ: How do genes assort independently? 9.4 to 9.6.

Linkage genes and genetic recombination

Patterns of Inheritance Chapter 14, 15 Mendelian Genetics and its Extensions.

Georgia Performance Standards:

KEY CONCEPT Genes can be mapped to specific locations on chromosomes.

6.6 Meiosis and Genetic Variation KEY CONCEPT Independent assortment and crossing over during meiosis result in genetic diversity.

Dr. Madhumita Bhattacharjee Assiatant Professor Botany Deptt. P.G.G.C.G. -11,Chandigarh.

CHAPTER 10 Genetics: Mendel and Beyond

Lesson Overview 11.4 Meiosis.

Chromosomes & Heredity Chromosome Theory of Heredity Genes are located on the Chromosomes Each gene occupies a specific place A gene may exist in several.

Genetics SC Biology Standard B The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.

Linkage and Gene Mapping. Mendel’s Laws: Chromosomes Locus = physical location of a gene on a chromosome Homologous pairs of chromosomes often contain.

Incomplete dominance. Incomplete dominance Polygenetic Ex. Human skin color.

7.3 Gene Linkage and Mapping KEY CONCEPT Genes can be mapped to specific locations on chromosomes.

KEY CONCEPT Genes can be mapped to specific locations on chromosomes.

6.6 Meiosis and Genetic Variation KEY CONCEPT Independent assortment and crossing over during meiosis result in genetic diversity.

Chapter 4 Heredity and Evolution. Hybrids Offspring of mixed ancestry; heterozygotes. Principle of segregation Genes (alleles) occur in pairs (because.

VOCABULARY CHAPTER 10 Gene Homologous chromosome Gamete Haploid.

Mendel’s Theory Section 8-2.

Chromosomal Theory of Inheritance- Genes are located on c’somes and the behavior of c’somes during meiosis & fertilization accounts for inheritance.

Mendel’s Theory.  Mendel correctly concluded from his experiments that each pea plant has two separate “heritable factor” for each trait – one from each.

6-6 Meiosis and Genetic Variation Sexual Reproduction gives us unique combinations of genes Remember the possible number of chromosomal combinations? -due.

Mendel’s Theory Section 8-2 Ag Biology. Before Mendel’s Experiments People thought that offspring were a blend of the parents characteristics. Example.

6.6 Meiosis and Genetic Variation Independent assortment and crossing over during meiosis result in genetic diversity.

Population Dynamics Humans, Sickle-cell Disease, and Malaria How does a population of humans become resistant to malaria?

Mendel’s Theory Section 2. Explaining Mendel’s Results Mendelian theory of heredity explains simple patterns of inheritance. In these patterns, two of.

Genetics – Study of heredity is often divided into four major subdisciplines: 1. Transmission genetics, deals with the transmission of genes from generation.

Ch. 10.4: Meiosis & Mendel’s Principles Objectives: 1.Summarize the chromosome theory of inheritance. 2.Explain how genetic linkage provides exceptions.

Chapter 8 Section 2: Mendel’s Theory Grade 10 Biology Spring 2011.

Genetics Review 23 How many pairs of chromosomes do humans have?

Mendel & Genetic Variation Chapter 14. What you need to know! The importance of crossing over, independent assortment, and random fertilization to increasing.

WARM UP List anything and everything you know about chromosomes, mitosis, meiosis, or cell division.

Module II Mendelian Genetics & Probability Theory.

Chapter 11 Section 5 Gene Maps

Chapter 15 The Chromosomal Basis of Inheritance

Chapter 6, sections Mendelian Genetics.

Section 6-6 “Genetic Variation”

Population Dynamics Humans, Sickle-cell Disease, and Malaria

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Emergence of Modern Science

Genetics, Part II: Mendelian Genetics

Linkage Genes that are physically located on the same chromosome are said to be “linked”. Linked genes are said to be “mapped” to the same chromosome.

Sexual reproduction creates unique combinations of genes.

Mendelian Inheritance I 17 October, 2005 Text Chapter 14

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

THE CHROMOSOMAL BASIS OF INHERITANCE

Heredity, Gene Regulation, and Development

Sources of Variation During Meiosis.

Linkage Genes that are physically located on the same chromosome are said to be “linked”. Linked genes are said to be “mapped” to the same chromosome.

Mendelian Genetics and Nucleic Acid Structure

Heredity, Gene Regulation, and Development

Heredity Review Chapters

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Lesson Overview 17.1 Genes and Variation.

Monohybrid cross - shows inheritance of one trait from two parents

GENETIC VARIATION Sources of Variation.

Ch. 4 Sec 3: Cells and inheritance

Sexual reproduction creates unique combinations of genes.

Sexual reproduction creates unique combinations of genes.

Gene Linkage and Crossing Over

Sexual reproduction creates unique combinations of genes.

The Big Picture: an outline of the concepts covered to date

Gene Variation Chapter 6.6.

Presentation transcript:

23 August, 2006 Chapters 1-2 Mendelian Genetics and Nucleic Acid Structure

Overview Mendel refuted the blending hypothesis, proposing particulate units of inheritance - genes. The idea of genetic inheritance gained support from the behavior of chromosomes in meiosis and fertilization. Linkage analysis can give information about the relative location of genes on chromosomes. The success of Mendelian genetics increased the importance of characterizing the genetic material. Chromosomes are composed of DNA and protein - the DNA is the genetic material. Nucleic acid structure gives important insight into genetic function.

Review of Mendelian Inheritance Genes influence characters, and may occur in a number of different allelic forms. Each organism / cell has two copies of each gene, and may be homozygous or heterozygous. Gametes carry a single allele of each gene. Alleles are distributed randomly to gametes. Fertilization combines the alleles present in the two participating gametes.

Incomplete DominanceIndependent Assortment

Linkage and Recombination Linked genes are carried on the same chromosome. Homologous chromosomes exchange genetic material during synapsis. This changes the combinations of alleles that are possible Recombination frequency is proportional to physical distance.

Genetic maps use crossover frequency to order groups of linked genes.

Genes are carried on chromosomes, and are inherited unchanged and undiluted. Mutations are rare events that change one allele to another. A genetic material that was inherited unchanged and undiluted, but subject to rare mutation answered a major flaw in evolutionary theory. The success of genetics intensified interest in the nature of the genetic material. Chromosomes are composed of DNA and Protein. Most biologists thought that Protein was the genetic material, while DNA was structural.

DNA is the Genetic Material DNA but not protein can transform bacteria.

Viral Genes are nucleic acids

The structure of DNA elucidated its function.