Presentation is loading. Please wait.

Presentation is loading. Please wait.

Genetics and Heredity.

Published byEzra Jeremy Ball Modified over 5 years ago

Similar presentations

Presentation on theme: "Genetics and Heredity."— Presentation transcript:

1 Genetics and Heredity

2 Genes and Alleles Chromosomes contain DNA
Sections of DNA are called genes You have a gene that determines every trait (characteristic) you have Each gene has a pair of alleles (two) The alleles control what trait that gene expresses

3 Dominant and Recessive Alleles
Basic traits have two alleles, one dominant allele and one recessive allele. Ex) eye color in a population of bunnies Brown eyes are dominant Blue eyes are recessive Alleles are represented by letters In most cases, the dominant allele is a CAPITAL letter and the recessive allele is a lowercase letter. Ex) Brown = B, Blue = b

4 Dominant and Recessive Alleles
A dominant allele will be expressed (shown) over a recessive allele. Ex) Possible combinations of alleles for bunny eye color: BB  brown eyes – both alleles code for brown eyes Bb  brown eyes – the brown allele dominates the blue allele and the bunny has brown eyes bb  blue eyes – both alleles code for blue eyes

5 Homozygous and Heterozygous
Combinations of the same allele are called “homozygous”. Combinations of different alleles are called “heterozygous” Ex) Possible combinations of alleles for bunny eye color: BB  homozygous dominant Bb  heterozygous bb  homozygous recessive

6 Genotype and Phenotype
The specific combination of alleles is called the genotype. Genotype refers to all hereditary information whether it is expressed or not. The outward appearance of a trait is called the phenotype. PHenotype  PHysical Ex) Bunny Eye Color Genotype = Bb, Phenotype = brown eyes

7 Heredity When a parent cell undergoes meiosis, the alleles separate into different sex cells. The trait that gets passed on to the offspring (baby) depends on which pair of alleles the offspring happens to get. Gregor Mendel pioneered the science of predicting which traits would be passed on from one generation to the next.

8 Punnett Squares Mendel used punnett squares to help predict the genotypes of offspring. A punnett square requires that you know the genotype of each parent. Ex) Mother = BB (brown eyes), Father = bb (blue eyes) The parent genotypes are put along the sides of a square cut into four segments. B B Mother b Father b

9 Punnett Squares B B b B b B b b B b B b
Then, the alleles from the mother are brought down and the alleles from the father are brought over. Each of the four combinations equals a possible combination for the offspring. Mother B In this case, all of the offspring would be “Bb” and have brown eyes. B b B b B b brown eyes brown eyes Father b B b B b brown eyes brown eyes

10 Punnett Squares B b B B B b B B b b b b
What if the parents had different genotypes? Ex) Mother = Bb (brown), Father = Bb (brown) In this case, ¾ of the offspring will have brown eyes and ¼ of the offspring will have blue eyes. Mother B b B B B b B brown eyes brown eyes Father B b b b b brown eyes blue eyes

11 Punnett Squares b b B b B b B b b b b b
Try this combination on your own. Ex) Mother = bb (blue), Father = Bb (brown) In this case, ½ of the offspring will have brown eyes and ½ of the offspring will have blue eyes. Mother b b B b B b B brown eyes brown eyes Father b b b b b blue eyes blue eyes

Download ppt "Genetics and Heredity."

Similar presentations

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

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

Genetics: The Science of Heredity
Chromosomes are made of DNA.

Chromosomes are made of DNA.
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.

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.
Genetics htm.

Genetics htm.
Section 5-1 What is Genetics?. I. What have you inherited? Heredity is the passing of traits from parents to offspring Heredity is the passing of traits.

Section 5-1 What is Genetics?. I. What have you inherited? Heredity is the passing of traits from parents to offspring Heredity is the passing of traits.
Genetics! Heredity is the passing of traits from parent to offspring.

Genetics! Heredity is the passing of traits from parent to offspring.
Genetics Chapter 3, Section 1. Gregor Mendel is considered the “father” of modern genetics. Studied pea plants. Gregor Mendel.

Genetics Chapter 3, Section 1. Gregor Mendel is considered the “father” of modern genetics. Studied pea plants. Gregor Mendel.
Genetics. Heredity Passing of genetic traits from parent to offspring Gregor Mendel discovered the principles of heredity while studying pea plants (“Father.

Genetics. Heredity Passing of genetic traits from parent to offspring Gregor Mendel discovered the principles of heredity while studying pea plants (“Father.
SCIENCE Genetics Review Good Luck! #1 What do we call the passing of traits from parents to offspring? Probability Recessive Heredity.

SCIENCE Genetics Review Good Luck! #1 What do we call the passing of traits from parents to offspring? Probability Recessive Heredity.
Genetics & Heredity Mr. Nigh

Genetics & Heredity Mr. Nigh
Genetics & Heredity. Who was Gregor Mendel? Austrian monk who studied mathematics and science As a boy he experimented with pea plants Made careful use.

Genetics & Heredity. Who was Gregor Mendel? Austrian monk who studied mathematics and science As a boy he experimented with pea plants Made careful use.
Heredity, Genetics and DNA Understanding the CODES.

Heredity, Genetics and DNA Understanding the CODES.
Genetics and Heredity. Heredity The passing of traits from parent to offspring (children) Can be by sexual or asexual reproduction.

Genetics and Heredity. Heredity The passing of traits from parent to offspring (children) Can be by sexual or asexual reproduction.
Aim: How do your genetics play a role in the person you are today?  Do Now: What similarities do you have with your parents or siblings?  Homework:Textbook.

Aim: How do your genetics play a role in the person you are today?  Do Now: What similarities do you have with your parents or siblings?  Homework:Textbook.
Genetics and Heredity. A.Heredity The passing of traits from parent to offspring.

Genetics and Heredity. A.Heredity The passing of traits from parent to offspring.
Heredity Obj. 3d. Heredity The passing of traits from parent to offspring Traits: physical characteristics of an organism –Example: eye color, hair color,

Heredity Obj. 3d. Heredity The passing of traits from parent to offspring Traits: physical characteristics of an organism –Example: eye color, hair color,
INTRO TO GENETICS. GREGOR MENDEL Known as the Father of Genetics Studied pea plants and discovered the basics of heredity and genetics.

INTRO TO GENETICS. GREGOR MENDEL Known as the Father of Genetics Studied pea plants and discovered the basics of heredity and genetics.
Genes Observable traits are the result of genes. – Genes are found on the chromosomes in our cells – Each observable trait is determined by two genes,

Genes Observable traits are the result of genes. – Genes are found on the chromosomes in our cells – Each observable trait is determined by two genes,
May 4, 2011 1.What is an allele?. Genotype: genetics of trait (what alleles?) Homozygous: two copies of the same allele –Homozygous dominant (BB) –Homozygous.

May 4, What is an allele?. Genotype: genetics of trait (what alleles?) Homozygous: two copies of the same allele –Homozygous dominant (BB) –Homozygous.

Similar presentations

Ads by Google