Gregor Mendel “Father of Genetics”

Slides:

Advertisements

Similar presentations

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

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

Chapter 9 Objectives Section 1 Mendel’s Legacy

CHAPTER 9 - GENETICS 9-2: GENETIC CROSSES 9-1: FUNDAMENTALS OF GENETICS.

A Monk’s Life Gregor Mendel was a Austrian monk in charge of tending the garden. He Studied the common garden pea to become...

Mendel’s Legacy Section 9.1.

 Genetics – study of how traits are transmitted from parents to offspring.  Gregor Mendel – (1850’s) – Austrian monk – tended the garden and taught.

Warm-up 12/11 What are the 3 stages of the cell cycle? Explain the relationship between a gene, a chromosome, DNA and Nucleotides.

Mendelian Genetics.

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

Genetics Chapter 11.

Genetics Chapter 11. Gregor Mendel  “Father” of genetics  Austrian monk, mid-1800s  Researched pea plant inheritance –Easy to grow, fast reproduction.

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

1 Mendelelian Genetics 2 Gregor Mendel ( ) Responsible for the Laws governing Inheritance of Traits.

Lab Biology Chapter 9 - Genetics Mrs. Nemanic

Genetics & The Work of Mendel Genetic Terminology Trait - any characteristic that can be passed from parent to offspring Heredity - passing of traits.

1 Intro to Mendelelian Genetics 2 Gregor Mendel ( ) Responsible for the Laws governing Inheritance of Traits.

Genetics Chapter 8. Gregor Mendel: Father of Genetics Genetics: study of heredity Heredity: passing traits from parent to offspring Used peas to study.

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.

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

Genetics Ms. Tetrev.

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

Chapter 11 Introduction to Genetics Adapted from :

THE NECESSARY VOCABULARY & OTHER FACTS.  GREGOR MENDEL – THE FATHER OF GENETICS  AUSTRIAN MONK  RESEARCHED HOW TRAITS ARE PASSED FROM GENERATION TO.

An Introduction to Genetics: The Work of Gregor Mendel CHAPTER 11.

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

 Mendelian Genetics Biology. Gregor Mendel  Gregor Mendel was an Austrian monk who studied the inheritance patterns in pea plants. His knowledge of.

Inheritance of Traits.

CHAPTER 11 GENETICS Genetic discoveries 45 minutes.

Mendel’s Laws of Heredity

Ch Mendel’s Discoveries Objectives: 1.Compare and contrast the blending hypothesis and the particulate hypothesis of inheritance. 2.Describe the.

Monohybrid Single-gene crosses. TT x tt Law of Segregation Each allele inherited separately. The alleles for each gene segregate from each other, so.

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

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

Section 1 Mendel’s Legacy Chapter 9 Objectives Describe how Mendel was able to control how his pea plants were pollinated. Describe the steps in Mendel’s.

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

Section 1 Mendel’s Legacy Chapter 9 Gregor Mendel The study of how characteristics are transmitted from parents to offspring is called genetics.

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

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

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.

Mendel explained how a dominant allele can mask the presence of a recessive allele. Section 2: Mendelian Genetics K What I Know W What I Want to Find Out.

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

Introduction to Genetics

Aim: How were traits discovered?

Section 2: Mendelian Genetics

CHAPTER 9 Human 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 Chapter 10.2.

Chapter 10 Section 2: Mendelian Genetics

Section 2: Mendelian Genetics

Today 1/25 Take a seat..

Gregor Mendel ~ Father of Genetics

Mendelian Genetics Part 1

Genetics Genetics = science of heredity, or how we inherit traits from our parents.

10.2 Mendelian Genetics Genetics – The science of heredity.

Human Genetics Pp

GENETICS -2A Gregor Mendel.

Gregor Mendel ~ Father of Genetics

Fundamental Genetics.

Gregor Mendel ~ Father of Genetics

Chp. 10 GENETICS.

Mendelian Genetics Part 1

Presentation transcript:

Gregor Mendel “Father of Genetics” 3 Laws from the 1860’s

Law of Dominance Every gene has two alleles that can code for a trait. One allele is dominant, meaning it will always show. One allele is recessive, meaning it will be masked by the presence of the dominant allele.

Mendel crossed two pure strains of pea plants with purple and white flowers and discovered that the first filial generation were all purple.

Law of Dominance States… Hybrids will always show the dominant phenotype. Ex: PP = purple pp = white Pp = purple

Law of Segregation Mendel arrived at this conclusion by performing monohybrid crosses. These were cross-pollination experiments with pea plants that differed in one trait, for example height of pea plant.

Law of Segregation States… The alleles for a trait separate when gametes are formed. These alleles can then randomly united at fertilization. Anaphase I of Meiosis Anaphase II of Meiosis

Law of Independent Assortment Mendel began to wonder what would happen if he studied plants that differed in two traits (dihybrid). Data showed that traits produced by dominant factors do not have to appear together in offspring. Ex: A green seed pod (dominant) could appear in a white-flowering pea plant (recessive). In other words, dominant traits don’t have to travel together when traits are passed from parents to offspring.

Mendel’s law of independent assortment applies only to traits carried on different chromosomes, i.e.unlinked genes independent assortment occurs as a result of the alignment of homologues during metaphase I, determining which maternal and paternal chromosomes assort to each daughter cell each pair of alleles separates independently of every other pair of unlinked alleles during gamete formation

The data… Mendel performed dihybrid crosses in plants that were true-breeding for two traits. For example, a plant that had green pod color and yellow seed color was cross-pollinated with a plant that had yellow pod color and green seeds. In this cross, the traits for green pod color (GG) and yellow seed color (YY) are dominant. Yellow pod color (gg) and green seed color (yy) are recessive. The resulting offspring or F1 generation were all heterozygous for green pod color and yellow seeds (GgYy).

After observing the results of the dihybrid cross, Mendel allowed all of the F1 plants to self-pollinate. He referred to these offspring as the F2 generation. Mendel noticed a 9:3:3:1 ratio.

Law of Independent Assortment States… allele pairs separate independently during the formation of gametes. Therefore, traits are transmitted to offspring independently of one another.

References http://biology.about.com/od/mendeliangenetics/ss/independent-assortment.htm http://en.wikipedia.org/wiki/File:Independent_assortment_%26_segregation.svg http://intranet.canacad.ac.jp:3445/BiologyIBHL1/3094