Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mendelian Genetics AP Biology Unit 3 Mendel’s Experiments Crossbred Pea Plants P, F1, F2 generations.

Published byNorah Hancock Modified over 8 years ago

Similar presentations

Presentation on theme: "Mendelian Genetics AP Biology Unit 3 Mendel’s Experiments Crossbred Pea Plants P, F1, F2 generations."— Presentation transcript:

1

2 Mendelian Genetics AP Biology Unit 3

3 Mendel’s Experiments Crossbred Pea Plants P, F1, F2 generations

4 Alleles Alleles are different (alternate) forms of a gene How do alleles relate to homologous chromosomes? –Homologous chromosomes may contain different alleles

5 Yeast Complementation & Alleles How did alleles play a role in the yeast complementation experiment? –Strains of yeast have different alleles –When mated, the a normal allele could complement a mutated allele –HA1 = mutated ade 1 allele, normal trp allele –HBT = normal ade1 allele, mutated trp allele

6 Dominant vs. Recessive Alleles Dominant Allele –Determine phenotype if there is a copy present Recessive Allele –Need 2 copies to determine phenotype

7 Law of Segregation “Two alleles for a trait separate during gamete formation” –Gametes can have different alleles

8

9 Allow you to predict possible genotypes of offspring if parental genotypes are known Phenotypes can be deduced from the genotypes Punnett Squares

10 Phenotype Ratios Characteristic possible phenotype ratios always occur 2:2 (1:1) 3:1 4:0 (1:0)

11 Test Cross Suppose you have an organism with a dominant phenotype You want to determine its genotype– PP or Pp? Cross with a recessive phenotype to determine genotype = test cross

12

13 Law of Independent Assortment “Pairs of alleles for a given trait segregate independently of other pairs of alleles for another trait” –Ex. YyRr can result in YR, Yr, yR, or yr This only applies to two traits on different chromosomes (NOT LINKED)

14

15 Blood Type Alleles Codominance = both I A and I B alleles are dominant Multiple alleles (more than 2 alleles)

16 Practice Problem #1 The Huntington’s disease allele is dominant (represented as “H”). A husband’s genotype is Hh; a wife’s genotype is hh a)Which of them will develop Huntington’s disease b)What are the possible genotypes for their children? What are the chances their child will have Huntington’s Disease?

17 Answer The husband will develop Huntington’s Disease Children could be Hh (50% chance) or hh (50% chance) –So there is a 50% chance their child will have Huntington’s disease.

Download ppt "Mendelian Genetics AP Biology Unit 3 Mendel’s Experiments Crossbred Pea Plants P, F1, F2 generations."

Similar presentations

Chapter 14~ Mendel & The Gene Idea

Chapter 14~ Mendel & The Gene Idea
Warm-up: 12/9 With Pea Plants which is dominant, purple flower or white flower? What does P1 generation mean? What does purebred mean For flower color.

Warm-up: 12/9 With Pea Plants which is dominant, purple flower or white flower? What does P1 generation mean? What does purebred mean For flower color.
Inheritance and Genetics. Gregor Mendel Studied the garden pea studied height, flower color, seed coat color, and seed shape over many generations he.

Inheritance and Genetics. Gregor Mendel Studied the garden pea studied height, flower color, seed coat color, and seed shape over many generations he.
Exploring Unlinked Genes to Sex-Linked Genes

Exploring Unlinked Genes to Sex-Linked Genes
Mendelian Genetics The principles of probability can be used to predict the outcome of genetic crosses Probability - The likelihood that a particular event.

Mendelian Genetics The principles of probability can be used to predict the outcome of genetic crosses Probability - The likelihood that a particular event.
Genetics SC Biology Standard B-4.6-4.9- The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.

Genetics SC Biology Standard B The students will be able to predict inherited traits by using the principles of Mendelian Genetics, summarize.
GENETICS. Mendel and the Gene Idea Genetics The study of heredity. The study of heredity. Gregor Mendel (1860’s) discovered the fundamental principles.

GENETICS. Mendel and the Gene Idea Genetics The study of heredity. The study of heredity. Gregor Mendel (1860’s) discovered the fundamental principles.
Mendelian Genetics. What Came Before? Blending Inheritance Inheritance of Acquired Characteristics.

Mendelian Genetics. What Came Before? Blending Inheritance Inheritance of Acquired Characteristics.
Genetics College Biology. Gregor Mendel Mid 1800’s, Austrian monk. Introduced probability to genetics Mated pea plants.

Genetics College Biology. Gregor Mendel Mid 1800’s, Austrian monk. Introduced probability to genetics Mated pea plants.
Mendelian Genetics Part II. Dihybrid Crosses A cross involving 2 traits. Law of Independent Assortment: Genes for different traits can segregate independently.

Mendelian Genetics Part II. Dihybrid Crosses A cross involving 2 traits. Law of Independent Assortment: Genes for different traits can segregate independently.
Notes # 8: Chapter 14 Mendel and the Gene Idea I. General Genetics Terms A) Trait: characteristic that can be inherited B) Allele: Alternate forms of.

Notes # 8: Chapter 14 Mendel and the Gene Idea I. General Genetics Terms A) Trait: characteristic that can be inherited B) Allele: Alternate forms of.
Mendel laid the groundwork for genetics.

Mendel laid the groundwork for genetics.
Genetics Travis Mackoy. Gregor Mendel 1860s Developed basic principles of genetics Studied genetics of pea plants.

Genetics Travis Mackoy. Gregor Mendel 1860s Developed basic principles of genetics Studied genetics of pea plants.
Mendelian Genetics. Vocabulary Terms 1.Allele- different forms of a gene 2.Phenotype- observable trait or characteristic 1.I.e. Green eyes, black hair.

Mendelian Genetics. Vocabulary Terms 1.Allele- different forms of a gene 2.Phenotype- observable trait or characteristic 1.I.e. Green eyes, black hair.
Mendelian Genetics Chapter 6.3 & 6.4. Gregor Mendel Gregor Mendel: Father of genetics, Gregor Mendel: Father of genetics, studied pea plants. Genetics:

Mendelian Genetics Chapter 6.3 & 6.4. Gregor Mendel Gregor Mendel: Father of genetics, Gregor Mendel: Father of genetics, studied pea plants. Genetics:
Genetics Chapter 8. Gregor Mendel: Father of Genetics Genetics: study of heredity Heredity: passing traits from parent to offspring Used peas to study.

Genetics Chapter 8. Gregor Mendel: Father of Genetics Genetics: study of heredity Heredity: passing traits from parent to offspring Used peas to study.
1 Father of genetics. Studied traits in pea plants.

1 Father of genetics. Studied traits in pea plants.
Mendel & Genetics Review Powerpoint

Mendel & Genetics Review Powerpoint
Mendel performed cross-pollination in pea plants.

Mendel performed cross-pollination in pea plants.
Gregor Mendel Humans have noticed family resemblances for thousands of years. Heredity- the passing of traits from parents to offspring, was used for.

Gregor Mendel Humans have noticed family resemblances for thousands of years. Heredity- the passing of traits from parents to offspring, was used for.

Similar presentations

Ads by Google