GENETICS AND YOU define heredity as the passage of genetic instructions from one generation to the next generation.[7.14A]

Slides:

Advertisements

Similar presentations

Genetics: Vocabulary Nucleus DNA Chromosome Allele Gene Traits Dominant Recessive Genotype Phenotype Homozygous Heterozygous.

Advertisements

Mendel’s Law of Heredity

Introduction to Genetics

Gregor Mendel Monk and Scientist Father of Genetics  In 1843, at the age of 21, Gregor Mendel entered the monastery.  Born in what is now known as.

CHARACTERISTICS OF LIFE All Living Things reproduce!!! All Living Things Have DNA!!!

GENETICS AND YOU define heredity as the passage of genetic instructions from one generation to the next generation.[7.14A]

GENETICS: Our Family Tree It’s all Relative! --Did you know we share 99.9% of our genes with other humans? --95% of our genes with chimpanzees? --92%

Mendel’s Laws of Heredity

Warm-Up Answer the following questions IN COMPLETE SENTENCES! What are traits? What are genes? Where are genes found? What are offspring? How do parents.

Mendel’s Law of Heredity

Genetics & The Work of Mendel HOMOLOGOUS CHROMOSOME Pairs of matching chromosomes, with one being inherited from each parent.

Heredity: The study of genetics started with observations made by GREGOR MENDEL, a monk who noticed that pea plants passed certain traits from one generation.

Understanding Inheritance

Chromosomes are made of DNA.

MENDEL’S GENETICS CH. 5-1 How Traits Are Inherited 1.Sex cells with a haploid number of chromosomes are united during fertilization to form a zygote.

Mendelian Genetics.

Genetics Chapter 11.

Genetics. Genetics – branch of biology that deals with patterns of inheritance, or heredity. Heredity- biological process by which parents pass on genetic.

Gregor Mendel and his peas… Austrian Priest and teacher who tended the gardens. Experimented with fertilization. Plants can reproduce two ways. 1. Self.

Mendelian Genetics. Vocabulary Terms 1.Allele- different forms of a gene 2.Phenotype- observable trait or characteristic 1.I.e. Green eyes, black hair.

Genetics. Heredity The passing of traits from parent to offspring.

What is Genetics? Objectives: 1. Explain the history of genetics.

The Basics of Genetics Principles of Genetics.

Introduction to Genetics The study of heredity: how genetic factors are passed down from one generation to the next.

Introduction to Genetics Notes CH 11 Go to Section:

Mendelian Genetics. Gregor Mendel ( ) Responsible for the laws governing Inheritance of Traits.

Genetics!!!. First… Some Background Information…

Inheritance of Traits: An Introduction to Genetics & Human Genetics Chapters

Biology B.  People used to think combining two parents’ characteristics was like mixing paint…

The Basics of Genetics 6 Laws about Heredity. 1. Traits are passed or inherited from one generation to the next. Your genetic instructions are located.

Mendel’s Law of Heredity Chapter 10, Section 1. The Father of Genetics Gregor Mendel’s experiments founded many of the principles of Genetics we use today.

EQ: What controls the inheritance of traits in organisms?

SINGLE TRAIT PUNNETT SQUARE Tt T t T t ¼ Punnett Squares.

Gregor Mendel Austrian Monk The Father of Modern Genetics.

INHERITANCE or HEREDITY- The genetic transmission of characteristics from parent to offspring, such as hair, eye, and skin color.

HEREDITY Heredity: the passing of traits from parents to offspring. Trait: Trait: A physical or behavioral characteristic that describes an organism (Ex:

Genetics Terms.

Genetics: The Science of Heredity Mendel’s Work Chapter 3 Section 1.

Genetics Notes Who is Gregor Mendel? Principle of Independent Assortment – Inheritance of one trait has no effect on the inheritance of another trait “Father.

Introduction to Genetics. The work of Gregor Mendel The work of Gregor Mendel Austrian monk who is the father of Genetics Genetics – the scientific.

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

INTRO TO GENETICS. GREGOR MENDEL Known as the Father of Genetics Studied pea plants and discovered the basics of heredity and genetics.

Mendel’s Laws of Heredity Chapter 10.1 (This might take 2 days)

The study of inheritance of traits.  Austrian Monk  Studied how traits were passed from parent to offspring  His ideas forms the foundation for the.

Introduction to Genetics The study of heredity: how genetic factors are passed down from one generation to the next.

OBJECTIVE: SWBAT define key terms used in genetics IOT explain the process of biological inheritance QUESTION: How do we know which genes we will inherit.

POINT > Review some genetics vocabulary POINT > Define genotype and phenotype POINT > Define homozygous and heterozygous POINT > Use a Punnett Square.

The Basics of Genetics Summarize how genetic information is passed from parent to offspring by using the terms genes, chromosomes, inherited traits,

Genetics additional notes: Chapter 5.1 Mendel’s work Chapter 5.2.

Heredity - the passing of physical traits from parent to offspring Gregor Mendel - the father of genetics Crossbred pea plants and found that there were.

Traits and Punnett Squares

Mendel, Heredity and Punnett Squares

CH 10 Mendel and Meiosis.

Genetics Gregor Mendel *The father of genetics.

Open your Gregor Mendel and Genetics Notes.

The Basics of Genetics Principles of Genetics.

Basic Genetics - the Study of Heredity -

Genetics: the Study of Heredity

Objective 3.03 Interpret and Predict Patterns of Inheritance

Basic Genetics - the Study of Heredity -

Genetics: Understanding Heredity

Traits and Punnett Squares

The Basic Laws of Genetics

Heredity : the passing of traits from parent to offspring

Presentation transcript:

GENETICS AND YOU define heredity as the passage of genetic instructions from one generation to the next generation.[7.14A]

The science we call Genetics * is the study of heredity - passing of traits from parent to offspring - has more than one theory (“point of view”) --> most common/accepted is Mendelian Genetics Mendelian Genetics is based upon the research of Now credited as the “Father of Genetics”

Mendel is most famous for his experiments with the pea plants ( Pisum sativum ).. Plus, they reproduce quickly AND have a fast LIFE CYCLE Flowering plants can be either selfcross self or cross-pollinated

So What does it all mean to me? First you need to realize you are ½ of your mom and ½ of your dad. One gamete (reproductive cell) is 23 chromosomes for humans ALL other cells in your body have 46 chromosomes It all starts with your conception and the passing of their genes to you.

Female egg cell …with half of “mom” DNA Male sperm cell..with half of “dad” DNA + First you need FERTILIZATION They become one… …fertilized cell with a complete Set of DNA

Chromosomes!!!..at this point all present and accounted for Humans should have 46 chromosomes The fertilized egg cell is now a ZYGOTE

tiny threadlike structures in nucleus of cell * contain sections of DNA = GENES *humans---> THOUSAND genes

Alleles-form of a gene Chromosomes exist in pairs Genes come in pairs- one on each chromosome. Each member of the gene pair is an “allele”. Dominant allele- the one that will show up in the organism Recessive allele- will be hidden if paired with the dominant

4. Some genes are dominant, while others are recessive. “Stronger” traits are called dominant. “Weaker” traits are called recessive. Geneticists use symbols (letters) to represent the different forms of a gene.

Dominant traits are represented by a capital letter. Yellow seeds are dominant…….. Y

Recessive genes (for the same trait) are represented by THE SAME lower case letter. Green seeds are recessive… lower case y. Dominant allele (yellow) = Y Recessive allele (green) = y

In pea plants, tall is dominant over short. The letter used to represent the tall allele is T. The short allele is represented by t. Tall =T Short = t Tall =T Short = t

In humans, brown eyes are dominant over blue. Brown = B Blue = b

5. Dominant alleles hide recessive alleles when both are inherited by an organism. Y + y = yellow seeds (yellow is dominant) T + t = tall plant (tall is dominant) B+ b = brown eyes (brown is dominant)

Let’s Practice Pairing Alleles in Pea Plants P-purple (dominant) p- white (recessive) Plant 1 PP Plant 2 pp genotypePp purple phenotype Genotype is heterozygous or hybrid for the trait b/c it has 2 different alleles

Pea plant 2 nd generation P-purple (dominant) p- white (recessive) Plant 3 Pp Plant 4 Pp genotype pp white phenotype Genotype- homozygous or purebred for the trait

Pea Plant 3 rd generation *Offspring predictions can be done through using a Punnett Square

A PUREBRED organism has two of the same genes for a trait. TT = homozygous TALL tt = homozygous SHORT

A HYBRID organism has two different genes for a trait. Tt = heterozygous TALL (tall is dominant.) Bb = heterozygous for black feathers (black is dominant.)

Will a hybrid human with the genes Bb have brown or blue eyes? Bb = Brown eyes The dominant gene (brown), will be expressed in a heterozygous genotype.

Why must all blue eyed people be PUREBRED for that trait? If the dominant gene is present, it will always be expressed. The only possible gene combination for blue eyes is bb.

These basic laws of inheritance control the traits of all living organisms on Earth.

Can behavior be inherited too? Scenario 1 – Chimpanzee A has a very good technique for getting a banana out of a tree. This chimpanzee has an offspring which is taken away and raised in isolation. The offspring is not able to get the banana out of the tree. Scenario 2 – Bird A has a very specific way that it makes its nest. The bird has several offspring. One of the offspring is taken away and raised in isolation. The offspring begins making a nest in the exact same way as its parent.

Scenario 1 is a learned behavior that a parent would pass on through teaching. Scenario 2 is an example of a behavior being inherited genetically Can you think of any examples of INHERITED behavior?