Predicting the Traits of Offspring

Slides:

Advertisements

Similar presentations

The Basics of Genetics…the passing of traits

Advertisements

Using a Punnett Square.

PROBABILITY & PUNNETT SQUARES It can be written as a: Fraction ____ Percent ____ ____________________ is the __________ that a particular _________________.

11-2 Probability and Punnett Squares

Punnett Squares Step by step how to guide. Putting it together Alleles represented by letters –Capital letters = dominant (T) –Lowercase letters = recessive.

 Genetics Punnett Squares and Mendel. Copyright Pearson Prentice Hall Genes and Dominance Mendel’s F 1 Crosses on Pea Plants.

End Show Slide 1 of 21 Copyright Pearson Prentice Hall 11-2 Probability and Punnett Squares.

Chapter 5. Mendel’s Work  Gregor Mendel’s work allowed us to understand why plants and animals are the way they are.  Hereditary is the passing of physical.

11-2 Probability and Punnett Squares

Predicting the Traits of Offspring By Reginald Punnett.

Write everything that is underlined A. Dominant vs. Recessive Dominant traits: the ones you can see Recessive traits: are hidden by dominant Rule of.

6.3 Genetics and Predictions. You will be able to: 1.Explain how probability is used in genetic predictions 2.To construct a Punnett Square for monohybrid.

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

Punnett Squares: Dominant & Recessive Traits. Gregor Mendel is often called the “Father of Genetics”.

Punnett Squares When we know information about the genetic makeup of two parents, we can predict the genetic makeup of any possible offspring created between.

How to a Work Punnett Square A Step by Step Process.

HUMAN BIO 11 Genetics: Punnet Squares. Mendelian Genetics Alleles  a form of the gene Phenotype  physical appearance Genotype  the alleles a person.

Genetics Chapter Heredity- passing of traits from parents to offspring.

Probability and HeredityProbability and Heredity.

1. What traits do you get from your parents? 2. Which traits don’t you get from your parents?

Warm Up Use the following terms to label each genotype- homozygous dominant, homozygous recessive, heterozygous, pure, hybrid 1.LL 2.Bb 3.Rr 4.Dd 5.mm.

Punnett Squares.

Genetics & heredity Chapters 9.1 & 9.2.

BIOLOGY 12 Punnett Squares.

Traits and Punnett Squares

Objective: to be able to create punnett squares and predict probabilities of the outcome 11.2.

Probability and Punnett Squares

Punnett Squares Write on the right side.

Probability and Punnett Squares

Predicting the Traits of Offspring

How to a Work Punnett Square

Heredity and Genetics.

Genetics Gregor Mendel *The father of genetics.

O T T F F S S E __ What comes next?.

Notes – Punnett Squares

PROBABILITY & PUNNETT SQUARES 11-2

Biology Unit 5 Notes: Mendelian Genetics

7.L.4A.3 Develop and use models (Punnett squares) to describe and predict patterns of the inheritance of single genetic traits from parent to offspring.

#50 Using a Punnett Square

Section 6-5 Part 1 Punnet Squares

Probability & Heredity: Punnett Squares

Punnett Squares.

Biology Unit 5ish Notes: Mendelian Genetics

Genetics Crosses Ch. 9.2 (p )

Using Punnett Squares Dominant & Recessive.

Using a Punnett Square.

Presented by; Mrs. Barr Mrs. Batten

Mendel and Inheritance of Traits Notes

Gene Symbols And Punnett Squares

Copyright Pearson Prentice Hall

Probability and Punnett Squares

Using a Punnett Square.

Using a Punnett Square.

Predicting the Traits of Offspring

11.2 – Applying Mendel’s Principles

Predicting the Traits of Offspring

Punnett Squares.

Probability & Punnett Squares

Punnett Squares Page 19.

4.2 Patterns in Heredity Mrs. Leos May 25, 2019.

Predicting genetic outcomes

Probability & Punnett Squares

Genetics and Probability

Using a Punnett Square.

Punnett Squares.

Predicting the Traits of Offspring

Monohybrid Crosses: Inheritance of single genes

O T T F F S S E __ What comes next?.

Presentation transcript:

Predicting the Traits of Offspring

Punnett Squares Punnett Squares are used to predict the probability of certain traits by showing the ways that different alleles can combine In a Punnett square, capital letters represent dominant alleles. Lower case letters represent recessive alleles.

Genotype and Phenotype genotype- two letters that represent the two alleles that an organism has for a trait. Example: Tt would mean that it has one dominant and one recessive allele. phenotype- the way an organism looks or acts as a result of its genotype The two alleles for each trait come from the organism’s parents.

Homos and Heteros Homozygous means that an organism has two alleles that are the same for a trait. Heterozygous means that an organism has two different alleles for a trait.

Making a Punnett Square 1. Write the letters representing the alleles from one parent across the top of the box. 2. Write the letters from the other parent down the side of the box. 3. Fill in the boxes with the alleles from each parent. The letters in the boxes represent the genotypes of the possible offspring the parents could produce.

Stuff To Remember The letter that is used to represent the alleles will be the first letter of the dominant trait. For example, if tall plants are dominant over short plants, the letter T is used, not the letter S. Lowercase t would represent the short allele. If an organism is heterozygous, the capital letter always comes first. For example: Tt NOT tT.

Example Problem In pea plants, tall plants are dominant to short plants. Show the genotypes and phenotypes that are produced when two heterozygous, tall plants are crossed with each other.

Continue… Write the genotype of one parent across the top. Write the genotype of the other parent down the side. Fill in each box with the letter above and to the left of it. T t TT Tt tt

Continue… What is the chance that the offspring will be tall? 75% (3 out of 4) What is the chance that the offspring will be short? 25% (1 out of 4) T t TT Tt tt