Results and Conclusions of Mendel’s Experiments. Mendel began his experiments by cross pollinating pure breeding plants His studies focused on only one.

Slides:

Advertisements

Similar presentations

Gregor Mendel “Give peas a chance!”

Advertisements

Warm-up: 12/9 With Pea Plants which is dominant, purple flower or white flower? What does P1 generation mean? What does purebred mean For flower color.

Chapter 10: Mendel and Meiosis September

Genetics: an Introduction

Monday, 1/25/10 (Genetics) Check Grades Genetics Lesson Bring Large Milk Cartons (Extra Credit!!) Homework, Due Thursday / Friday Read pgs Answer.

Chapter 14: Mendelian Genetics!!. Trait : some aspect of an organism that can be described or measured Gene : discrete unit of hereditary information.

Mendelian Genetics.

Genetics Patterns of Inheritance. Genetics is the study of heredity Heredity: the transmission of traits from parents to offspring. Originally, people.

What is genetics? GENETICS is the branch of Biology that studies heredity. HEREDITY is… the passing on of characteristics from parents to offspring. Mendelian.

Genetics Chapter 11.

Mendel laid the groundwork for genetics.

Gregor Mendel “Father of Genetics”

GENETICS Introduction. Genetics Study of heredity Gregor Mendel is considered the “father of genetics” Mendel studied the traits of pea plants A trait.

Mendelian Genetics Unit 1. Genetics  Science that deals with the structure & function of genes and their transmission from one generation to the next.

Genetics How Traits are Passed from Parents to Offspring.

Genetics Origin and Theory Gregor Mendel. Pea Plant Characters and Traits Wrinkled Short Character Trait.

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

1 Vocabulary Review GENETICS. 2 Study of how characteristics are transmitted from parent to offspring GENETICS.

MENDEL & HEREDITY. Are You Ready For This? Can You…  Define the term gamete.  Summarize the relationship between chromosomes and genes?  Differentiate.

Fundamentals of Genetics. Gregor Mendel Mendel was an Austrian monk who studied genetics by using pea plants. Mid 1800’s.

What is genetics? G ENETICS is the branch of Biology that studies heredity. H EREDITY is… the passing on of characteristics from parents to offspring.

Mendelian Genetics Pea Plants and Punnett Squares Chapter 6, sections 3-5.

Mendelian Inheritance The concept of inheritance was first described by the Monk Gregor Mendel as he documented the inheritance patterns viewed in flowering.

Patterns of Inheritance genetics—the branch of biology that studies heredity.

Chapter 6 Mendelian Genetics. Genetics – the scientific study of heredity Gregor Mendel is said to be the father of genetics. Mendel used pea plants to.

Mendel: Fundamentals of Genetics

Warm up: Definitions Dominant – trait expressed, Capital letter (ex “B”) Recessive – trait masked, lowercase letter (ex “b”) Heterozygous – 1 dominant.

1 Vocabulary Review GENETICS. 2 Study of how characteristics are transmitted from parent to offspring GENETICS.

Mendelian Genetics Gregor Mendel (1822 – 1884) performed one of the classic scientific experiments on inheritance during the mid-19 th century. Mendel.

Mendelian Genetics The Basics. Gregor Mendel Mendel was an Austrian monk who published his research on the inheritance of pea plant characteristics in.

Inheritance of Traits.

CHAPTER 11 GENETICS Genetic discoveries 45 minutes.

Mendelian Genetics. Gregor Mendel a monk that taught natural science to high schoolers - interested in how traits are passed on -Bred snow pea plants.

Section 2: Mendelian Genetics

Mendelian Genetics. Let’s Review How are traits coded? Where are genes located? Chromosomes are composed of what macromolecule?

Gregor Mendel 1860’s. Garden Pea Flower produces both gametes. stamens: male carpel: female.

6.3 Mendel and Heredity KEY CONCEPT Mendel’s research showed that traits are inherited as discrete units.

 Who was Gregor Mendel (biographical information)?  What did he study?  Why did he use pea plants for his research?  What were his results?  What.

Genetics. Gregor Mendel: Father of Genetics Genetics: study of heredity Heredity: passing traits from parent to offspring Used peas to study heredity.

Mendelian Genetics. Let’s Review How are traits coded? Where are genes located? Chromosomes are composed of what macromolecule?

Genetics Notes Gregor Mendel Father of genetics Austrian monk worked with pea plants.

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

INTRO TO GENETICS. GREGOR MENDEL Known as the Father of Genetics Studied pea plants and discovered the basics of heredity and genetics.

1 Please pick up a copy of the notes. Please pick up a copy of the notes.

Mendelian Genetics Chapter 10/ Section 2. Mendelian Genetics Copyright © McGraw-Hill Education Gregor Mendel: The Father of Genetics The passing of traits.

Fundamentals of Genetics Gregor Mendel: Genetics Pioneer Genetics = study of __________. Gregor Mendel – Australian Monk Identified 7 pairs of contrasting.

The study of inheritance of traits.  Austrian Monk  Studied how traits were passed from parent to offspring  His ideas forms the foundation for the.

Mendelian Genetics. Part A: Mendel and Genetics Basics.

Heredity Chapter 11. Transmission of characteristics from parent to offspring is called ___________________. The science that studies how those characteristics.

Genes, Heredity, & Gregor Mendel

Introduction to Genetics

Mendelian Heredity (Fundamentals of Genetics) Chapter 9

Aim: How were traits discovered?

CHAPTER 9 Human Genetics

Mendelian Genetics.

Essential Questions What is the significance of Mendel’s experiments to the study of genetics? What is the law of segregation and the law of independent.

Mendelian Genetics.

Today 1/25 Take a seat..

Human Genetics Pp

KEY CONCEPT Mendel’s research to what we know about genetics today

An Introduction to Mendel’s Laws

Heredity Chapter 11.

Fundamental Genetics.

Mendel and Genetics Genetics – study of heredity.

Gregor Mendel laid the groundwork for genetics.

Presentation transcript:

Results and Conclusions of Mendel’s Experiments

Mendel began his experiments by cross pollinating pure breeding plants His studies focused on only one characteristic at a time for example, flower color. This type of cross is called a Monohybrid cross

Mendel developed a mathematical vocabulary to identify different generations of pea plants P1: Parent generation F1: First (“filial”meaning offspring) generation Offspring of P1 cross P1 x P1 F2: Second Generation - Offspring of F1 cross

All F1 plants are purple (Ww )… Where did the WHITE form go? 3 out of 4 offspring with purple flowers WW Ww Ww ww Ww

What is the resulting ratio of purple to white flowers in the F2 generation? Purple 3:1 white Express this answer as a percent 75% purple: 25 % white Now let’s look at another…

Mendel Concluded….

1) Parents transmit information about traits to their offspring. Mendel called this information a “factor.” Today we know that “factors” are really genes.

2) Each parent must be contributing a form of a gene to the offspring. From our studies in the last unit, we know this is true because chromosomes came in pairs called homologous chromosomes. Each homolog contains the same genes, so a gene pair exists for each gene on the chromosome. Gene Pair Gene locus Allele GTACCAGGA ATGCCGGGT (Yellow)(Green)

2) Each parent must be contributing a form of a gene to the offspring. The two alleles in a gene pair can be: 1) identical or 2) different For example, a gene pair which codes for seed color in pea plants could contain: 1) yellow, yellow (purebred or 2) green, green homozygous) 3) yellow, green (hybrid) - heterozygous Gene pairs are described in two ways: 1) homozygous: alleles in gene pair are identical Pure breeding plants are homozygous. 2) heterozygous: alleles in gene pair are different Hybrid plants are hererozygous.

3. Symbols can be used to represent alleles. If you use an uppercase “W” to represent purple as the dominant form of pea color and use a lowercase “w” to represent white as the recessive form of pea color, you can illustrate the allele combinations for the following pea plants. (WW, Ww, ww)

4. Genetic makeup and observed characteristics are not always the same! GENOTYPE the exact form of the alleles in a gene pair Example: WW, Ww, ww PHENOTYPE the observable or expressed form of a trait resulting from a gene pair Example: yellow or green seed color

In pea plants, Green pod color is dominant over yellow. DescriptionGENOTYPEPHENOTYPE Homozygous dominantGGGreen Homozygous recessiveggYellow HeterozygousGgGreen Heterozygous recessive??No such thing!

As a result of his many years of careful study, Mendel’s work was summarized into three main laws.

Mendel’s Laws 1. The law of Dominance States that if two alleles in a gene pair are different, then one allele can control the trait and the other one can be hidden. Example: Green pod color is seen in plants with the genotype Gg

Mendel’s Laws 2. The law of Independent Assortment States that gene pairs segregate into gametes randomly and independently of each other. At what stage of meiosis does this occur? Metaphase I and Anaphase I of meiosis- homologs randomly separate

Mendel’s Laws 3. The law of Segregation States that each pair of genes segregates, or separates, during meiosis and each gamete contains one gene from each gene pair. What is the chance that a gamete will end up with a maternal homolog at any one chromosome pair? ½ or 50% The chance that all 23 homologs from one parent will end up in a single gamete is 1 in 8 million (1/2) 23

CLOSER

What is a monohybrid cross? A monohybrid cross is when a scientist studies the inheritance of one trait at a time.

How is the following statement “Each parent must be contributing a form of a gene to the offspring” supported by what you know about meiosis and homologous chromosomes? The chromosomes from each homologous pair come from the parents (one from each). Each homologous pair carries a pair of genes (one gene on each homolog). Therefore one copy of each gene comes from each parent.

What is the difference between homozygous and heterozygous? Homozygous means each gene has the same allele. Heterozygous means that each gene in the pair has different alleles.

What is the relationship between phenotype and genotype? Genotype is what alleles are found in a pair of genes. Phenotype is the outward appearance of those alleles.

What does dominant and recessive mean? A dominant allele can control a trait and hide a recessive allele. A recessive allele will only show if the dominant allele is not present.