Blood Types The Genetics of Blood Type.

Slides:

Advertisements

Similar presentations

More Punnett squares.

Advertisements

Human Genetics It’s all in the….

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.

Continuing Genetics DOMINANCE Unit 5: Mendelian Genetics

Incomplete Dominance Incomplete Dominance: The heterozygous genotype produces a phenoytype that falls in between the dominant trait and the recessive trait.

 What are 3 names for sex cells?  What is reformed during telophase?

Blood Types & Genetics. What makes up our blood? RED BLOOD CELLS (Erythrocytes) – The most abundant cells in our blood; they are produced in the bone.

Facts, Factors and Inheritance

Codominance and Sex-linked traits. CODOMINANCE 2 alleles are dominant and both are expressed Most common examples are blood type and flower color.

Blood Type Inheritance and the Punnett Square

Okay – Not really. Other Patterns of Heredity  Polygenic traits = several genes influence the trait.  Examples: Eye color, weight, height, hair color,

Year 10 Genetics 2 Human inheritance

Genetics Basics.

What makes up our blood? RED BLOOD CELLS (Erythrocytes) – The most abundant cells in our blood; they are produced in the bone marrow and contain a protein.

Blood Genetics Multiple Alleles - More than 2 alleles, BUT … A BO You will only inherit 2 of the 3 alleles.

Blood Types and Sex-linkage

4/11/ 12 Bell Ringer 1.What does incomplete dominance mean? 2.If I had a Red Homozygous Flower and a White Homozygous Flower, what would the Heterozygous.

Recessive Alleles Takes two alleles to be expressed.

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.

Jumpstart 12/3 A pea plant with the genotype TtWW is crossed with a pea plant with the genotype ttWw. How many different genotypes can be expressed in.

Multiple Alleles – Blood Type

Human Blood Types. A person’s blood type is controlled by the genes they inherit from their parents. The combination of genes inherited controls what.

Exploring Mendelian Genetics

Blood Typing and Blood Genetics

To Do Calendar Get out If you were absent Topic: Blood Type

Blood Types The Genetics of Blood Type.

4 blood types. A,B,o Blood Typing Genes “A” and “B” are co-dominant genes Gene “o” is the recessive gene.

No Bell Work today! Set up the next page in your journal… Page: 45 Date: Title: Genetics – Codominance Essential Question: How can I predict genetic.

Chapter 14 Chapter 14 Blood Groups. ABO Blood Group is determined from three alleles. ABO Blood Group is determined from three alleles. Type A Type A.

Co-Dominant and Sex-Linked Traits NOTES. I. Co-Dominant Genetic Traits All alleles for a trait are DOMINANT and both appear in offspring Different capital.

Blood Typing and Blood Genetics. Blood Genetics The human ABO gene is on chromosome 9.human ABO gene Everyone has two copies of chromosome 9 so you have.

1/12/15 Objective: What factors influence typical inheritance Do Now: Take out your HW genetics problems.

Incomplete Dominance and Codominance. In Mendel’s work, alleles were either dominant or recessive. If yellow (Y) is dominant to green (y), then: –YY will.

BLOOD TYPES. TYPES TYPE A TYPE B TYPE AB TYPE O CODOMINANCE 2 Dominant alleles are expressed at the same time Controlled by multiple alleles The A gene.

Blood Types The Genetics of Blood Type. How many of you know what your blood type is?

What is Codominance?.

Incomplete Dominance: The heterozygous genotype produces a phenoytype that falls in between the dominant trait and the recessive trait. Incomplete Dominance.

Blood Types Probability

TOPIC: Genetics AIM: How are human traits inherited?

6d. Blood Typing Chapter 7.1 & 7.2.

Blood Typing (ABO system)

Codominance Notes Mrs. Callan 2017.

Multiple Alleles 2 2.

What are the 4 human blood types?

Turn in any remaining Karyotype materials Get ready for a warm-up

Multiple Alleles.

Check In Homework State the name of the following genotypes: AA Aa aa

Multiple Alleles- Blood Typing

Multiple Allele traits

Blood Typing (3R).

Blood typing – Multiple Allele Genetics at its best!

Blood Types A AB B O Antibody Phenotype Genotype Homozygous Recessive

Exploring Mendelian Genetics 11-3

Genetics Objective: To learn how to predict the probable outcome of phenotypes using punnett square.

Exploring Mendelian Genetics 11-3

14.1 – Human Heredity.

Modes of Inheritance Biology Mrs. Harper 1/25/18.

Incomplete Dominance Incomplete Dominance: The heterozygous genotype produces a phenoytype that falls in between the dominant trait and the recessive trait.

11-2 Genetic Crosses.

4/11/ 12 Bell Ringer What does incomplete dominance mean?

Blood Type and Multiple Alleles

Incomplete Dominance Incomplete Dominance: The heterozygous genotype produces a phenotype that falls in between the dominant trait and the recessive trait.

CoDominance and Multiple Alleles

Blood typing – Multiple Allele Genetics at its best!

Blood Type Punnett Square

3/19/12 Objective: Understand codominance and incomplete dominance

Blood Type and Multiple Alleles

Multiple Alleles Three or more alleles of the same gene that code for a single trait. ABO & Rh blood groups are examples.

Presentation transcript:

Blood Types The Genetics of Blood Type

Codominance Both alleles are Dominant. Neither allele for a trait is recessive. They both express themselves in the phenotype. Genotype labels are: I I I = blood: A=type A coded protien B=type B coded protien A B

The Genetics of Blood Type Phenotype Genotype

The Genetics of Blood Type Phenotype Genotype A

The Genetics of Blood Type Phenotype Genotype A B

The Genetics of Blood Type Phenotype Genotype A B AB

The Genetics of Blood Type Phenotype Genotype A (I ) B AB O (recessive)= i A B

The Genetics of Blood Type Phenotype Genotype A+ A- B ( + is dominant over - ) AB O ( + = Rh factor, protein on cell, Antigen. Will be recognized by immune system as part of body. ) ( - = no Rh factor antigen. If body comes in contact with +, it won’t recognize it as part of the body and will reject it )

The Genetics of Blood Type Donor/Recipient?

The Genetics of Blood Type Phenotype Genotype A+ A- B+ B- AB+ AB- O+ O- If Immune system doesn’t recognize a protein, A or B, it’ll reject it. A -Rh will not recognize +Rh and reject it. Can receive: B+B-O+O- Will reject A+-AB+- Can receive: B-O- Will reject A+-B+AB+-O+ Can receive: ALL blood types Can receive: All – types Will reject all + types Can receive: O+O- Will reject all others Can receive: O- Will reject all others

The Genetics of Blood Type Phenotype Genotype A+ AA++ A- B+ B- AB+ AB- O+ O-

The Genetics of Blood Type Phenotype Genotype A+ AA++, AO++ A- B+ B- AB+ AB- O+ O-

The Genetics of Blood Type Phenotype Genotype A+ AA++, AO++, AA+- A- B+ B- AB+ AB- O+ O-

The Genetics of Blood Type Phenotype Genotype A+ AA++, AO++, AA+-, AO+- A- B+ B- AB+ AB- O+ O-

The Genetics of Blood Type Phenotype Genotype A+ AA++, AO++, AA+-, AO+- A- AA--, AO-- B+ BB++, BO++, BB+-, BO+- B- BB--, BO-- AB+ AB++, AB+- AB- AB-- O+ OO++, OO+- O- OO--

The Genetics of Blood Type How can we predict Blood Type inheritance? Using a Punnett square! Let’s look at possible blood types of the children of a couple whose blood types are AB- and O-.

The Genetics of Blood Type First we need to determine their genotypes. Looking at our chart, the genotype for AB- is AB-- and the genotype for O- is OO--. We need to FOIL and then draw a Punnett square. From one parent we can get A- or B- From the other we can only get O-.

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO--

The Genetics of Blood Type A- AO-- B- BO-- Phenotype A- B-

The Genetics of Blood Type Your homework: Blood Types Worksheet