Introduction to Genetics

Slides:

Advertisements

Similar presentations

Genetics Notes Who is Gregor Mendel? “Father of Genetics”

Advertisements

Genetics Chapter 11.

Vocabulary Word DefinitionOther Things to Know… The field of Biology devoted to understanding how traits are passed from parents to offspring Gregor Mendel.

Chapter 4: Heredity Section1- Genetics

Genetics & Heredity. Who was Gregor Mendel? Austrian monk who studied mathematics and science As a boy he could predict the possible types of flowers.

Inheritance – characteristics are passed through generations by genetic material (traits) Gregor Mendel - discovered the pattern of inheritance by studying.

Genetics. History Genetics is the study of genes. Genetics is the study of genes. Inheritance is how traits/characteristics, are passed on from generation.

Heredity: The study of genetics started with observations made by GREGOR MENDEL, a monk who noticed that pea plants passed certain traits from one generation.

Genetics Chapter 7 Mr. Femia Biology Mr. Femia Biology.

Genetics Chapters 9-1 & 9-2. Incomplete dominance There is no dominant allele or recessive allele The 2 alleles are blended and make up a new physical.

Genetics Mr. Young Biology Mr. Young Biology. Heredity Heredity – characteristics inherited from parents to offspring through genes.

What is Genetics? Objectives: 1. Explain the history of genetics.

Genetics Review. Gregor Mendel is known as: A. Father of Biology B. Father of Genetics C. Father of DNA D. Father of Science B. Father of Genetics.

Fundamentals of Genetics. Patterns of Inheritance The History of Genetics The History of Genetics Genetics – scientific study of heredity Genetics – scientific.

Genetics The study of heredity.

Genetics Chapter 11.

Notes: The Genetics Unit

Chapter 3 Heredity Heredity: Passing of traits from parent to offspring.

Genetics Notes Who is Gregor Mendel? Principle of Independent Assortment – Inheritance of one trait has no effect on the inheritance of another trait “Father.

` The Study of Inheritance. Gregor Mendel – The Father of Genetics Austrian monk Published ideas in 1866 Worked with garden peas Determined basic genetics.

Who is the Father of Genetics?. Mendel a type of gene that is hidden by a dominant gene.

Mendel’s Laws of Heredity

TEST ON TUESDAY, FEBRUARY 12 GENETICS REVIEW ANSWERS.

Genetics the study of heredity. Gregor Mendel “Father of Genetics” Heredity -the transfer of characteristics from parents to offspring through their genes.

Genetics Chapter 12.

Human Inheritance. Single Gene Traits Many Human traits are controlled by a single gene with one dominant and one recessive allele This yields two distinct.

Genetics & Heredity Mendel and His Peas.

PUNNETT SQUARES AND MORE Chapter 9 Review. Define genotype. The genetic makeup of an organism.

Genetics Chapter 11. History of Genetics  Gregor Mendel “Father of genetics” a monk who studied inheritance traits in pea plans worked with.

Genetics. Heredity Passing of genetic traits from parent to offspring Gregor Mendel discovered the principles of heredity while studying pea plants (“Father.

Click F5 Try to answer each question on your own before revealing the answer.

4.3 Theoretical Genetics February 2015 Adapted from: Taylor, S. (2010). Theoretical Genetics (Presentation). Science Video Resources. [Online] Wordpress.

The Father of Heredity. Gregor Mendel Synonym for “Trait”

Genetics Study Guide Key to Success on the Test. 1. What scientist experimented with pea plants to establish modern genetics? Gregor Mendel.

Everything you need to know about Genetics

91. Cell Reproduction Notebook Check 92. Karyotype Lab (graded) 93. Intro to Genetics Reading Guide (stamped) 94. Genetics Notes 95. Punnett Squares 96.

Applied Biology Genetics Notes. Genetics Introduction Genetics is the study of heredity Heredity explains why you look like your parents or siblings (similar.

Genetics & Heredity Mr. Nigh

GENETICS. The scientific study of heredity Heredity: the passing down of traits from parents to offspring via genes and chromosomes.

Fundamentals of Genetics CHAPTER 9. Patterns of Inheritance The History of Genetics The History of Genetics Genetics – scientific study of heredity Genetics.

Genetics Jeopardy That’s so Random Punnett Squares General HodgePodge Genetics Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final.

$200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 Category 3Category 4Category.

What is Genetics? Genetics is the scientific study of heredity.

Biology Genetics Unit. Gregor Mendel Considered the father of modern genetics He was an Austrian monk in the mid 1800’s He did many experiments with pea.

CHAPTER 7 KEY TERMS GeneticsPurebred CrossHybrid DominantRecessive PhenotypeGenotype GameteCarrier Inherited DisorderSex-Linked Trait RegenerationCodominance.

Mendelian Genetics. Heredity – the passing of traits from parents to offspring Genetics: The scientific study of heredity.

Genetics Notes – Pt 1. Gregor Mendel “father” of genetics Austrian Monk Watched how traits passed from parent generation to offspring in plants.

Genetics Part I: Mendel and Basics Unit 7. How does this happen?

Principles of Heredity Chapter 8. Gregor Mendel Father of Genetics –1860’s Austrian Monk –Made the 1 st detailed investigation of how traits are inherited.

Chapter 11: Introduction into Genetics Mr. Freidhoff.

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

Genetics Part I: Mendel and Basics Unit 7. How does this happen?

Genetics, Heredity and Punnett Squares. Why / How do populations change over time? GENES! Genetics is the science of heredity (the passing on of genetic.

Genetics Part I: Mendel and Basics

Unit 10 - Genetics In this unit, we look at how traits are passed on from parent to child.

CHAPTER 12 Genetics. Gregor Mendel Gregor Mendel was a monastery priest who carried out the first important studies of heredity  Heredity – the passing.

Science 10 Unit 1 GENETICS.

Heredity, Punnett Squares, and Pedigrees

Making predictions about future generations…

OPEN YELLOW BOOK TO PAGE

Science 10 Unit 1 GENETICS.

Punnett Squares JH-KEADLE.

Punnett Squares JH-KEADLE.

Genetics Notes Chapter 13.

Heredity, Punnett Squares, and Pedigrees

Do Now List several things you believe you genetically inherited from your parents. List some things about you that you don’t think you have inherited.

Wild Card Principles 1 Principles 2 Genotype Phenotype Punnetts &

Chapter 5 Notes Heredity.

Presentation transcript:

Introduction to Genetics 10.2 and Chapter 11 Biology I 2009

Comprehension Check Brain Teaser: How can two brown rabbits produce all white offspring? What color of offspring would two white rabbits produce

History of Genetics Genetics: the science of heredity Gregor Mendel: the first scientist to study patterns of genetics Mendel was a monk who studied pea plants He cross pollinated plants to see the outcome of mixing different traits

Genetics Vocabulary Genotype versus Phenotype A genotype is the genes that an organism has embedded in their DNA A phenotype is the physical trait seen when looking at an organism F1 Generation versus F2 Generation F1 organisms are offspring of two parents F2 organisms are offspring of two F1 organisms

Genetics Vocab Continued What is the difference between a “chromosome” and a “gene”? A chromosome is tightly coiled DNA found in the nucleus of eukaryotic organisms Humans have 46 chromosomes in each body cell A gene is a region of DNA found on a chromosome that controls a trait, for example you have a gene for eye color What is an allele? An allele is different forms of a trait, for example brown eyes or blue eyes

Genetics Vocab Continued Dominant Alleles versus Recessive Alleles Homozygous Dominant Organisms Homozygous Recessive Organisms Heterozygous (Hybrids) Organisms ?

Genetics Problems Rules Always “assign” letters to represent the alleles Read the problem thoroughly to determine the parents’ genotypes. Solve the problem (predict the genotypes of the offspring) using a Punnett Square.

Complete Dominance Inheritance Guidelines: One allele is dominant over the other The dominant allele must be written as a capital letter If heterozygous, the capital letter is always written first. Choose letters where the capital letter and lower case look different from each other. For example Rr, Tt, Bb, NOT Oo Jj

Complete Dominance Problem #1:In birds, a straight beak is dominant over a curved beak. A heterozygous male is crossed with a homozygous recessive female. What are the predicted genotypic and phenotypic ratios of their offspring?

Complete Dominance Problem #2: Cross 2 heterozygous parents. What are the predicted genotypic and phenotypic ratios of their offspring?

Incomplete Dominance Inheritance Guidelines Certain traits have no gene expression that will be dominant. In these cases, the traits expressed will blend together. Example: In corn, kernel color shows incomplete dominance. Yellow and brown blend to form orange kernels. Use 2 CAPITAL letters to represent the alleles: Y = Yellow allele B = Brown allele Genotype Phenotype YY BB BY

Incomplete Dominance Problem #1: Cross an orange kernel corn plant with a corn plant that has yellow kernels. What are the predicted genotypic and phenotypic ratios of their offspring?

Self-Assessment In teachers from Illinois, the trait for being boring is dominant over the non-boring trait. Cross Mr. Smithwell, who is homozygous dominant, with a heterozygous teacher. What are the genotypes and phenotypes of their children? In tulips, red flowers mix with white to form pink. A cross between two flowers produces all red offspring. What were the genotypes of the parent flowers?

Multiple Allele Inheritance Guidelines: With multiple alleles more than two genes control a particular trait. The most common example of this is blood type. There are 3 alleles and 4 blood types (phenotypes). The alleles are: A B O A and B are both dominant over O, but A and B are not dominant over each other. GENOTYPE PHENOTYPE AA AO AB BB BO OO

Multiple Alleles Problem #1: Mr. Wiggles is trying to prove that he is not the father of 500 bunnies. He has a blood type of O. 50% of the bunnies have blood type A and 50% of the bunnies have blood type AB. Can Mr. Wiggles be the father of these bunnies? If heterozygous, the capital letter is always written first.

Pedigrees Pedigrees can be used to track genetic information through generations of a family Pedigrees have a few simple rules: Men are shown as squares Woman are shown as circles Each generation is given a Roman Numeral (I, II, III, IV, V) Each individual within a generation is given a number (1, 2, 3, 4, 5) Shaded individuals have the trait being tracked in the pedigree

Pedigrees Problem #1: The trait shown below is the ability to taste PTC (phenylthiocarbamide) paper. This trait is controlled by a dominant gene represented by T, and is transmitted by normal inheritance. Nontasters are, therefore, Homozygous for the recessive trait and are represented by tt. The shaded figures below are both homozygous recessives (tt) and are nontasters. All unshaded symbols have two possible genotypes: TT or Tt. Determine the genotypes of all the individuals in the pedigree below:

Pedigrees Problem #2 Write the correct Roman numeral for each generation. Write the correct number for each individual. Assume the shaded symbols represent the recessive homozygous genotype rr. Which, individuals show the homozygous recessive trait? In the spaces below each symbol, write as much of the genotype of each individual as can be determined from the information provided.

Genetics A Colorblindness in humans is caused by a sex-linked recessive gene on the X-chromosome. In this pedigree chart, both of the first generation parents are colorblind. Assuming that none of the in-laws are colorblind or are carriers, what is the maximum number of descendents that could be colorblind? 3 4 5 12

Genetics A Colorblindness in humans is caused by a sex-linked recessive gene on the X-chromosome. In this pedigree chart, both of the first generation parents are colorblind. Assuming that none of the in-laws are colorblind or are carriers, what is the maximum number of descendents that could be colorblind? 3 4 5 12

Sex-Linked Traits Sex-linked genes are found on the X chromosome but NOT on the Y chromosome. WHY? Sex-linked traits are usually recessive. Males are more likely to express a sex-linked trait. WHY? Example: Baldness GENOTYPE PHENOTYPE XBXB XBXb XbXb XBY XbY

Sex-Linked Traits Cross a carrier female with a bald man. Predict how many of their children will be bald:

Sex-Linked Traits Cross a bald female with a normal male. Predict how many of their DAUGHTERS will be bald.

Karyotypes Karyotypes are a way of looking at chromosomes for genetic disorders. You can not see changes in genes, but you can see changes in chromosome number. Is this karyotype from a male or female?

Genetics B Red-green colorblindness is an example of a genetic disease caused by a sex-linked recessive gene located on the X-chromosome. In this pedigree chart, the first-generation father is colorblind and is not a carrier. How many of the original mother and father’s children and grandchildren could be colorblind? 2 4 6 8

Genetics B Red-green colorblindness is an example of a genetic disease caused by a sex-linked recessive gene located on the X-chromosome. In this pedigree chart, the first-generation father is colorblind and is not a carrier. How many of the original mother and father’s children and grandchildren could be colorblind? 2 4 6 8