Presentation is loading. Please wait.

Presentation is loading. Please wait.

A TIDBIT by: Pat, Tammy, Marcie, Debbie, Eric and Tingting Stamped DNA How ‘imprinting’ affects inheritance.

Published byIreland Kimbro Modified over 9 years ago

Similar presentations

Presentation on theme: "A TIDBIT by: Pat, Tammy, Marcie, Debbie, Eric and Tingting Stamped DNA How ‘imprinting’ affects inheritance."— Presentation transcript:

1 A TIDBIT by: Pat, Tammy, Marcie, Debbie, Eric and Tingting Stamped DNA How ‘imprinting’ affects inheritance

2 Group 2: Heredity Teachable Unit: Epigenetics Context Class: sophomore level genetics class ~ 50-150 students Previous concepts: Mendelian inheritance, DNA structure, intro molecular genetics Reading assignment for class: Text information on epigenetics This is the first lesson in the unit, but it will be followed by two lessons on mechanism and other epigenetic phenomena. Since this topic has more challenging content, we have chosen to use guided active learning to help students construct a knowledge base, followed by more challenging homework assignments. The unit will have 2 additional lessons or tidbits.

3 Misconceptions  All inheritance is based on DNA nucleotide sequence.  All human genes are equally expressed from both alleles.  All genetic diseases are caused by a point mutation.  The active genome of males and females is the same.

4 Unit Learning Goals and Flow of Content Students will understand:  The concepts of epigenetics.  Overview and definitions  Contrast with Mendelian Inheritance  The molecular basis of different types of epigenetic phenomena.  Imprinting: Normal and Disease states  Histone Modification  RNA interference  Prions  That epigenetics contributes to both diversity and disease.  Environmental impacts on the epigenome  Epigenetic determinants of cancer

5 Prader-Willi Angelman These two very different syndromes are caused by the same deletion

6

7 Learning Outcomes for Today  Students will define imprinting.  Contrast imprinting and Mendelian inheritance.  Predict an outcome from a genetic cross involving non-Mendelian inheritance.

8 What is Imprinting?  Imprinted chromosomes are “marked”  Imprinting differs in sperm and egg  Imprinting turns off specific genes  Imprinting does not change the nucleotide sequence CH 3

9 Think-Pair-Share/ review from last semester Hypothesize some ways that the DNA is imprinted? Formative Assessment; Bloom’s Synthesis (3/4)

10 DNA can be Methylated on cytosine residues Gene expression active Gene expression inactive -CH 3 (METHYL group)

11 Gene A Paternal Gene A Maternal X CH 3 X MendelianImprinted A mutation in Gene A may cause a change in phenotype when: DominantRecessiveMaternally imprinted Paternally imprinted 1. The maternal copy is mutated 2. The paternal copy is mutated 3. When both copies are mutated With your clicker, press A for “yes” and B for “no” Yes No Yes No Yes No Yes Formative Assessment; Recall; Bloom’s 1 Formative Assessment; Analyze; Bloom’s 3/4 Mutation

12 Optional activity  A 1-minute essay could be included here to summarize knowledge of the previous table. Perhaps, “Summarize the key difference between Mendelian inheritance and inheritance of imprinted genes.”  Space is included on the handout chart for this question.

13 CLICKER: Based on the figure below, which proteins are normally produced? Click A for protein A B for protein B C for BOTH D for NEITHER ANSWER = BOTH A B

14 CLICKER: Which proteins are produced with maternal deletion? Click A for protein A B for protein B C for BOTH D for NEITHER ANSWER = only protein A is made A

15 CLICKER: Which proteins are produced with paternal deletion? Click A for protein A B for protein B C for BOTH D for NEITHER ANSWER = only protein B is made B

16 Gene A Maternal X CH 3 Gene B Gene A Maternal X CH 3 Gene B Normal Paternal deletion Maternal deletion Gene A Paternal Gene B X CH 3 Paternal Gene A Paternal Gene B X CH 3 Maternal [ ] [ ] A A B B

17 Prader-Willi Angelman These two very different syndromes are caused by the same deletion

18 Compose a 1 minute essay that explains the basis for the difference between Prader-Willi and Angelman. Formative assessment; Bloom’s level Analysis 3

19 Homework: To further assess your understanding of Mendelian inheritance versus inheritance of imprinted genes Is this disease dominant? Why or why not? Is this disease recessive? Why or why not? Can the disease be inherited from the paternal side? Can the disease be inherited from the maternal side? Does this show Mendelian inheritance? 1.Define imprinting in your own words. 2.Look at the following pedigree and answer the questions below.

20 Entrance Ticket: Parthenogenesis (“Virgin Birth”)  Parthenogenesis is the ability of some species to produce offspring without any male involvement  Parthenogenesis is observed in various animal species, but not mammals How could imprinting prevent parthenogenesis? Formative Assessment; Bloom’s Analyze, 4

21 SCIENTIFIC TEACHING  Active Learning Clicker Brainstorming (think-pair- share) Group problem solving Entrance ticket Call-out  Assessment-all of above formative Individual take-home questions are summative  Diversity Auditory/visual Social learning and individual work GoalsActive Learning/Assessment Bloom’s Level/Verb Define Epigenetics and Imprinting Think/Pair/ Share Brainstorming Summative: Homework/write in your own words Hypothesize/grapple with/3-4 Define/1 Contrast imprinting and Mendelian inheritance. Worksheet activity/ individual/Peer interaction/Group problem solving/call out/clicker assessment Recall/1 Analyze/3-4 Predict an outcome from a genetic cross involving non-Mendalian inheritance. Formative/visual/clicker questions 1 minute essay Summative:Homework/ Pedigree/Parthenogenesis Predict/ 3 Compose/Explain/Analyze /3 Analyze/Predict/relate/3-4

Download ppt "A TIDBIT by: Pat, Tammy, Marcie, Debbie, Eric and Tingting Stamped DNA How ‘imprinting’ affects inheritance."

Similar presentations

Epigenetic phenomena Epigenetics refers to genetic inheritance that is not coded by the DNA sequence It includes changes in gene expression due to modification.

Epigenetic phenomena Epigenetics refers to genetic inheritance that is not coded by the DNA sequence It includes changes in gene expression due to modification.
Patterns of Heredity 4.1 Living things inherit traits in patterns. 4.2

Patterns of Heredity 4.1 Living things inherit traits in patterns. 4.2
Patterns of Heredity 4.1 Living things inherit traits in patterns. 4.2

Patterns of Heredity 4.1 Living things inherit traits in patterns. 4.2
Special Topics in Modern Genetics: Epigenetics

Special Topics in Modern Genetics: Epigenetics
Gene Expression Tonya C. Bates Erin Dolan Meredith S. Norris John Rose Tarren Shaw Suann Yang Ron Zimmerman Facilitators: Kelly Hogan and Jennifer Warner.

Gene Expression Tonya C. Bates Erin Dolan Meredith S. Norris John Rose Tarren Shaw Suann Yang Ron Zimmerman Facilitators: Kelly Hogan and Jennifer Warner.
Patterns of Heredity CHAPTER the BIG idea CHAPTER OUTLINE In sexual reproduction, genes are passed from parents to offspring in predictable patterns. Living.

Patterns of Heredity CHAPTER the BIG idea CHAPTER OUTLINE In sexual reproduction, genes are passed from parents to offspring in predictable patterns. Living.
NEW CHAPTER Patterns of Heredity CHAPTER the BIG idea In sexual reproduction, genes are passed from parents to offspring in predictable patterns. Living.

NEW CHAPTER Patterns of Heredity CHAPTER the BIG idea In sexual reproduction, genes are passed from parents to offspring in predictable patterns. Living.
Patterns of inheritance

Patterns of inheritance
Biology Unit 8 Review: Heredity

Biology Unit 8 Review: Heredity
Two copies of each autosomal gene affect phenotype.

Two copies of each autosomal gene affect phenotype.
Two copies of each autosomal gene affect phenotype.

Two copies of each autosomal gene affect phenotype.
Chapter 9 Table of Contents Section 1 Mendel’s Legacy

Chapter 9 Table of Contents Section 1 Mendel’s Legacy
Chapter 9 Fundamentals of Genetics Standards SPI 3210.4.4: Determine the probability of a particular trait in an offspring based on the genotype and the.

Chapter 9 Fundamentals of Genetics Standards SPI : Determine the probability of a particular trait in an offspring based on the genotype and the.
FOR FRESHERS Mendelian Inheritance. Mendelian inheritance There are two alleles of a gene on different sister chromosomes. Dominant alleles trump recessive.

FOR FRESHERS Mendelian Inheritance. Mendelian inheritance There are two alleles of a gene on different sister chromosomes. Dominant alleles trump recessive.
Mendel’s Peas and qs: Carla Cáceres, Renée Dawson, Tracey Hickox, Jonathan Marcot, Dick Mueller, Jon Seger, Thayne Sweeten Facilitators: Robin Wright,

Mendel’s Peas and qs: Carla Cáceres, Renée Dawson, Tracey Hickox, Jonathan Marcot, Dick Mueller, Jon Seger, Thayne Sweeten Facilitators: Robin Wright,
Mendelian pedigree patterns

Mendelian pedigree patterns
Introduction to Genetics Part 2 Dihybrid Crosses Karyotypes Chromosomes Mutations.

Introduction to Genetics Part 2 Dihybrid Crosses Karyotypes Chromosomes Mutations.
HEREDITYYYYYYY 2015 July 17 c/o: Aaron, Darcie, Diana, Geeta, Kristin, Rou-Jia.

HEREDITYYYYYYY 2015 July 17 c/o: Aaron, Darcie, Diana, Geeta, Kristin, Rou-Jia.
Nature vs. Nurture.  Once nurture seemed clearly distinct from nature. Now it appears that our diets and lifestyles can change the expression of our.

Nature vs. Nurture.  Once nurture seemed clearly distinct from nature. Now it appears that our diets and lifestyles can change the expression of our.
Question 1___________________________ Question 2___________________________ Question 3 ___________________________ TotalAverage = 44 out of 50 points Important.

Question 1___________________________ Question 2___________________________ Question 3 ___________________________ TotalAverage = 44 out of 50 points Important.

Similar presentations

Ads by Google