This pedigree is for a simple Mendelian trait

Slides:

Advertisements

Similar presentations

Human Genetics It’s all in the….

Advertisements

Investigating different patterns of inheritance

Pedigree Analysis.

Genetics: The Science of Heredity

Blood Group Notes.

Mendel’s Laws of Heredity

TEST ON TUESDAY, FEBRUARY 12 GENETICS REVIEW ANSWERS.

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.

Pedigree Analysis.

Pedigrees Pedigrees study how a trait is passed from one generation to the next. Infers genotypes of family members Disorders can be carried on… – Autosomes.

SEX-LINKED TRAITS Solving pedigrees for traits with genes located on the X and Y chromosome.

Genetics and Inheritance

Genetics of Blood Types. Genotypes and Phenotypes Type A, Type B, Type AB and Type O blood are phenotypes. It is not always possible to tell the genotype.

Mendeland Heredity Mendel and Heredity I. The Origin of Genetics A.Mendel’s Studies of Traits 1. Gregor Johann Mendel-( ) Austrian Augustinian.

 a visual tool for documenting biological relationships in families and the presence of diseases  A pedigree is a family tree or chart made of symbols.

5 Steps to Solving Monohybrid Crosses

Traits and Inheritance Have you wondered why you resemble the other people in your family?

Pedigree Analysis. Why do Pedigrees? Punnett squares and chi-square tests work well for organisms that have large numbers of offspring and controlled.

Probability and HeredityProbability and Heredity.

Understanding Inheritance Essential Question: What determines the expression of a trait? How can inheritance be modeled?

Non-Mendelian Genetics and Genetic Engineering

Non-Mendelian: Sex- Linked Traits

PEDIGREE ANALYSIS AND PROBABILITY

7 Steps for Solving Monohybrid Cross Problems

Punnett Squares pp

Predicting the Traits of Offspring

Genetics Review Problems

Codominance Notes Mrs. Callan 2017.

Chapter 11 Heredity and genetics.

Sex-LINKED GENETICS.

Blood Group Notes.

Pedigree notes handout

Non-Mendelian: Sex- Linked Traits

Extensions on Mendelian Genetics

5 Steps to Solving Monohybrid Crosses

Genetics Jeopardy!.

Reminders Unit 8 Exam- Tuesday, March, 21st

Exceptions to Mendelian Genetics

Punnett Squares.

Multiple Alleles and Sex-Linked Patterns of Inheritance

Inheritance of Traits Probability Carriers Autosomal Sex-linked

Genetics review Predict offspring ratios based on a variety of inheritance patterns (Mendelian/dominance, incomplete dominance, co-dominance, sex-linked,

When Heredity Follows Different Rules

Genetics review Predict offspring ratios based on a variety of inheritance patterns (Mendelian/dominance, incomplete dominance, co-dominance, sex-linked,

Punnett Squares C Kohn, Waterford WI.

Human genetics How to determine inheritance of a trait in humans

Genetics Cells contain a nucleus Nucleus contains paired chromosomes

Inheritance of Traits Probability- the likelihood that a specific event will occur When you flip a coin, there is a 50/50 chance it will land tails side.

Using Punnett Squares A Punnett square is a model that predicts the likely outcomes of a genetic cross. A Punnett square shows all of the genotypes that.

Patterns of Inheritance

Unit 8: Mendelian Genetics 8.2 Probability and Punnett Squares

Section 3: Modeling Mendel’s Laws

Inheritance of Traits Probability Carriers Autosomal Sex-linked

Probability and Punnett Squares

Pedigree Analysis.

Unit 8: Mendelian Genetics 8

Inheritance Practice Test

Inheritance Practice Test

How are traits passed from one generation to the next?

If you do, your chromosomes could look like this…

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.

Patterns of Inheritance and Karyotyping

Punnett Squares C Kohn, Waterford WI.

Incomplete & Co-dominance

Presentation transcript:

This pedigree is for a simple Mendelian trait This pedigree is for a simple Mendelian trait. Determine whether the shaded trait is dominant or recessive, and determine the genotype for each person

The first step is to determine which form of the trait is recessive The first step is to determine which form of the trait is recessive. The key to this step is to find some people on the pedigree that passed an allele to their children that they did not express. The only allele that you can have, but not express is a recessive allele.

Person #6 is different from both of her parents, so her parents gave her an allele that they did not express. She (#6) must be the recessive phenotype. So on this pedigree, all shaded people are recessive for the trait, and all unshaded people are dominant.

If we use the letter “A” for the dominant allele, and “a” for the recessive allele, #6 and #3 must both be “aa” aa aa

Both #1 and #2 express the dominant form of the trait, so each must have at least one “A” allele, but their daughter (#6) is “aa”, so they must each have an “a” allele. Both #1 and #2 must be “Aa” Aa Aa aa aa

#7 and #8 both express the dominant form of the trait #7 and #8 both express the dominant form of the trait. They must each have at least one “A” allele. But their mother (#3) is “aa”, so they must have inherited an “a” allele from her. Both #7 and #8 are heterozygous – “Aa” Aa Aa aa Aa Aa aa

Both #7 and #8 had to have inherited the dominant “A” allele from their father (#4). Since all of his children inherited an “A” allele from him, it seems most likely that he would be “AA” Aa Aa AA? aa Aa aa Aa

But, it is still possible for a person that is “Aa” to pass on the “A” allele twice in a row. Remember that these are PROBABILITIES. The chances of a heterozygous person passing on the same allele twice is no more uncommon than flipping heads twice. #4’s genotype could be “AA” or “Aa”, you can’t be 100% sure. Aa Aa aa A__ aa Aa Aa

#5 came from a family with both parents heterozygous – “Aa” #5 came from a family with both parents heterozygous – “Aa”. A cross between two “Aa” people should produce offspring in a ratio of 1 AA:2 Aa:1 aa. Both “AA” and “Aa” are possible for #5 aa A__ Aa Aa A__ aa Aa Aa

We already determined that #6 was “aa” and #7 was “Aa” We already determined that #6 was “aa” and #7 was “Aa”. A punnett square would show that we can predict that ½ of their children should be “Aa” (expressing the dominant phenotype) and ½ should be “aa” (expressing the recessive phenotype) aa A__ Aa Aa aa Aa A__ Aa

Aa Aa aa A__ aa Aa Aa A__ Aa Aa #9 and #10 both express the dominant phenotype, and inherited a recessive allele from their mother. Both #9 and #10 are heterozygous – “Aa” Aa Aa aa A__ aa Aa Aa A__ Aa Aa

For this pedigree of ABO blood type: Determine the genotype for each person. Determine the probability of type A, B, AB and O for #11 and #12

This pedigree is for a sex-linked (X) recessive trait This pedigree is for a sex-linked (X) recessive trait. Determine the sex chromosome combination (XX or XY) and the genotype for each person.