Genetics Take 2 Dihybrid Crosses. Monohybrid vs. Dihybrid Monohybrid crosses are crosses that examine the inheritance of only one specific trait. Dihybrid.

Slides:

Advertisements

Similar presentations

MRs Jackie Principles of Genetics Part II. Terminology Allele- alternative form of a gene for a certain trait. Example seed shape R and r, and flower.

Advertisements

Mendel also investigated the inheritance of two pairs of contrasting characters in the pea plant. This is referred to as the dihybrid cross.

Dihybrid Crosses A2 Biology Meiosis, genetics & gene control A Graham Carmel RC Technology College Darlington.

Monohybrid Cross. F1 Cross 2 factor test cross Parents= RRYY x rryy Test for Color & Shape RY ry F1 generation Homozygous dominant Homozygoys recessive.

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

Mendelian Genetics The principles of probability can be used to predict the outcome of genetic crosses Probability - The likelihood that a particular event.

Monohybrid & Dihybrid Crosses

R Mother Rr Female gametes R r Father Rr Male gametes R r RrRR Rrrr Resulting genotypes: 1/4 RR : 1/2 Rr : 1/4 rr Resulting phenotypes: 3/4 : 1/4 Figure.

Mendelian Genetics.

11-3 Exploring Mendelian Genetics. I. Independent Assortment A.Mendel wondered if the segregation(separation) of one pair of alleles (which make up one.

Basic Genetics *. View video at:

Applying Mendel’s Principles Probability, Punnett Squares, & Independent Assortment (Dihybrid Cross) Section 11.2.

1 This is Jeopardy Punnett Squares 2 Category No. 1 Category No. 2 Category No. 3 Category No. 4 Category No Final Jeopardy.

Mendel Biology Chapter 10.1 p

Meiosis, Genetics, & Probability Biology. How are meiosis & genetics related? 1. Meiosis produces gamete cells.

Monohybrid & Dihybrid Crosses Probability and Genetics!

Genetics Ms. Tetrev.

Mendel’s Second Experiment Inheritance of Two Traits Dihybrid Cross.

Dihybrid Crosses. Let’s review So far, we have looked only at different types of monohybrid crosses –the inheritance of only ONE trait at a time –Ex:

Dihybrid Crosses Dihybrid crosses are those where we consider the inheritance of two characteristics at the same time.

DIHYBRID CROSSES ( 2 traits)

INTRODUCTION TO GENETICS CHAPTER 6: MEIOSIS AND MENDEL DIHYBRIDS AND TEST CROSSES.

Gregor Mendel Austrian Monk The Father of Modern Genetics.

Genetic Crosses Section 9.2. Genotype  The genetic makeup of an organism  Consists of the alleles that the organism inherits from its parents  Example:

Inheritance of Traits.

Exploring Mendelian Genetics. Law of Independent Assortment Does the segregation of one pair of alleles affect the segregation of another pair of alleles?

Dihybrid Crosses Learning Objective (DOT point) Describe outcomes of dihybrid crosses involving simple dominance using Mendel’s explanations.

Dihybrid Crosses Inheritance of two characteristics at the same time Objective: E3 - Predict possible outcomes of various genetic combinations such as…dihybrid.

Exploring Mendelian Genetics. Independent Assortment Does the segregation of one pair of alleles affect the segregation of another pair of alleles? –Mendel.

6.5 Traits and Probability KEY CONCEPT The inheritance of traits follows the rules of probability.

Semester 2 Final Review Part 1 Genetics, Biotechnology, Protein Synthesis and Evolution.

6.5 Traits and Probability

 Genetics is the study of how traits are passed from parents to offspring.  Heredity is the actual passing of traits from parents to offspring.

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

Gregor Mendel : Known as “THE FATHER OF GENETICS”. - laid the foundations for the SCIENCE OF GENETICS through his study of inheritance patterns of traits.

Dihybrid Crosses. Crosses that involve 2 traits 4 x 4 Punnett Square (16 total boxes) 2 traits in peas: R = RoundY = Yellow r = Wrinkledy = Green.

The Work of Mendel. Heredity: the passing of traits from parents to offspring Genetics: Study of heredity Traits -inherited characteristics.

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

Chapter ,9.5, Homologous chromosomes bear the alleles for each character P P a a B b PP aa Bb Dominant allele Recessive allele Gene.

Monohybrid Crosses Vs. Dihybrid Crosses MENDELIAN GENETICS.

Gregor Mendel : Known as “THE FATHER OF GENETICS”. - laid the foundations for the SCIENCE OF GENETICS through his study of inheritance patterns of traits.

Introduction to Genetics

Using Phenotype Genotype to determine.

Studying the inheritance of two characters simultaneously SBI3U

Mendelian Genetics Chapter 10.2.

Studying the inheritance of two characters simultaneously

5.2- Studying Genetic Crosses

Chapter 9: Fundamental Genetics

Mendelian Genetics 12/6/2018 Mendel’s Laws.

Genetics Take 2 Dihybrid Crosses.

Multi-trait inheritance

Genetics Dihybrid Crosses.

Mendel’s Laws of Heredity

GENETICS -2A Gregor Mendel.

Mendel’s Second Experiment

Studying the inheritance of two characters simultaneously

Unit 8: Mendelian Genetics

11.2 Applying Mendel’s Principles

Studying the inheritance of two characters simultaneously

Genetics 4-3 Genetics Minute Video: 18 things you should know about yourself! Click the X.

Dihybrid Crosses.

11.2 – Applying Mendel’s Principles

Law of independent assortment

11-3 Exploring Mendelian Genetics

Chp. 10 GENETICS.

Dihybrid Crosses.

NOTES – Genetics: Independent Assortment & Dihybrid Crosses

Presentation transcript:

Genetics Take 2 Dihybrid Crosses

Monohybrid vs. Dihybrid Monohybrid crosses are crosses that examine the inheritance of only one specific trait. Dihybrid crosses are crosses that examine the inheritance of two different traits.

Mendel and Dihybrid Crosses Mendel studied dihybrid crosses. – He crossed a plant with yellow round peas with a plant with green wrinkled peas.

Mendel and Dihybrid Crosses Mendel began his experiments with purebred (homozygous) parent plants. RRYY x rryy – Remember each trait has 2 genes due to getting half your genes from mom and half from dad. How many gamete options do you have for RRYY?? RY rryy? ry These are the gametes from the “P” generation.

Mendel and Dihybrid Crosses “P” generation: RRYY x rryy RRYY rryy RY ryRrYy ryRrYy ryRrYy ryRrYy

Mendel and Dihybrid Crosses What is the genotypic ratio? 16 RrYy:0 anything else Phenotypic ratio? 16 Round Yellow: 0 anything else RY ryRrYy ryRrYy ryRrYy ryRrYy

Mendel and Dihybrid Crosses He then crossed two “F 1 ” organisms: RrYy x RrYy RYRyrYry RY RRYYRRYyRrYYRrYy Ry RRYyRRyyRrYyRryy rY RrYYRrYyrrYYrrYy ry RrYyRryyrrYyrryy RrYy

Mendel and Dihybrid Crosses What is the genotypic ratio for the F2 generation? 1 RRYY:2 RRYy: 1 RRyy: 2 RrYY: 4 RrYy: 1 rrYY: 2 Rryy: 2 rrYy: 1rryy RYRyrYry RY RRYYRRYyRrYYRrYy Ry RRYyRRyyRrYyRryy rY RrYYRrYyrrYYrrYy ry RrYyRryyrrYyrryy

Mendel and Dihybrid Crosses Phenotypic ratio for the F2 generation? RYRyrYry RY RRYYRRYyRrYYRrYy Ry RRYyRRyyRrYyRryy rY RrYYRrYyrrYYrrYy ry RrYyRryyrrYyrryy 9:16 Round Yellow, 3:16 Round Green, 3:16 Wrinkled Yellow, 1:16 Wrinkled Green

Mendel and Dihybrid Crosses 9:16 yellow and round, 3:16 green and round, 3:16 wrinkled and yellow, 1:16 wrinkled and green.

Mendel and Dihybrid Crosses Mendel continued to find this approximately 9:3:3:1 phenotypic ratio in the F 2 generation, regardless of what 2 different traits he chose.

Mendel and Dihybrid Crosses – This is due to his Law of Independent Assortment. Each allele pair separate independently from other allele pairs during meiosis (gamete formation)… – different traits are inherited separately.

Dihybrid Cross Practice Suppose you are studying the color and texture of kernels on a corn cob. – Kernels can be either purple (R) or yellow (r). – They can also be smooth (T) or shrunken (t). – Predict the phenotypic and genotypic outcome of crossing a heterozygous purple and heterozygous smooth with a yellow wrinkled.