Chapter 13.3 (Pgs ): Mutations

Slides:

Advertisements

Similar presentations

1 Explain What is a frameshift mutation and give an example Infer The effects of a mutation are not always visible. Choose a species and explain how a.

Advertisements

Mutations A mutation is a permanent change in the DNA or RNA sequence of a gene. There are two ways in which DNA can become mutated: 1.Mutations can be.

Section 13.3/4: “Mutations & Gene Expression” Text Pages

Lesson Overview 13.3 Mutations.

Transcription, Translation Review. Mutations and Genetic Modifications.

Mutations. Hollywood’s images of mutation Mutations Actual Mutations in fruit flies.

Lesson Overview Lesson OverviewMutations Lesson Overview 13.3 Mutations.

Mutations Chapter 12.4.

Mutations 13.3.

Mutations Learning Targets: Describe different gene mutations.

Chapter 12 Section 4 Mutations. Mutations DNA contains the code of instructions for cells. Sometimes, an error occurs when the code is copied. - Such.

What is a mutation? A mutation is any change in genetic material. There are many ways for mutations to occur. Common point mutations are...

Types of mutations Mutations are changes in the genetic material

DNA Mutations What is a gene mutation? Often times, parts of DNA will have a base (or more) missing, added, or incorrect Can be caused by: errors in.

Slide 1 of 24 Copyright Pearson Prentice Hall 12-4 Mutations 12–4 Mutations.

MUTATIONS. Mutations are heritable changes in genetic information Only mutation in the GAMETES can be passed on from generation to generation There can.

 During replication (in DNA), an error may be made that causes changes in the mRNA and proteins made from that part of the DNA  These errors or changes.

8.7 Mutations A mutation is a change in an organism’s DNA. This may or may not affect phenotype.

Slide 1 of 24 VIII MUTATIONS Mutations Types of Mutations:

End Show Slide 1 of 24 Copyright Pearson Prentice Hall 12-4 Mutations Outline 12–4: Mutations.

Slide 1 of 24 Copyright Pearson Prentice Hall Biology.

12.4 Mutations Copyright Pearson Prentice Hall.. What Are Mutations? Changes in the nucleotide sequence of DNA (genetic material) May occur in somatic.

Fantasy Mutations Reality. Mutations: a permanent and heritable change in the nucleotide sequence of a gene. Are caused by mutagens (x-rays and UV light)

Objective: To discuss different mutations Gene mutation Mutations: change in genetic material Gene Mutation: change is on one or a few nucleotides.

Mutations 13.3.

Changes in DNA can cause changes in phenotype.

Mutations SBI3U Ms. Lefebvre

Copyright Pearson Prentice Hall

Big Q: What are mutations? Big Q: How do mutations affect genes?

A change in the DNA sequence that affects genetic information

Mutations Chapter 12-4.

12- 4 Mutations.

Copyright Pearson Prentice Hall

Mutations Add to Table of Contents – p. 14

Mutations (Ch 13.3).

Mutations 12-4.

Mutations TSW identify and describe the various types of mutations and their effects.

Chapter 12.4 Mutations.

A change in the DNA sequence that affects genetic information

Mutations Changes in the genetic material Gene Mutations

Mutation Lecture 11 By Ms. Shumaila Azam

Given a DNA strand ACTTCA, what is the mRNA strand?

12.4 Mutations Kinds of Mutations Significance of Mutations.

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Mutation, Natural Selection, and Artificial Selection

Copyright Pearson Prentice Hall

Objective: Explain the main types of mutations

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Title of notes: Mutations p. 18 RS

Academic Biology Notes

Changes in DNA TEK 6E: identify and illustrate changes in DNA and evaluate the significance of these changes.

Copyright Pearson Prentice Hall

Mutations Big Q: What are mutations?

12–4 Mutations 12-4 Mutations Copyright Pearson Prentice Hall.

DNA Mutations Types & their effects.

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Copyright Pearson Prentice Hall

Presentation transcript:

Chapter 13.3 (Pgs. 372-376): Mutations

Mutations Are heritable changes in genetic information Have two major types: Chromosomal mutations Point mutations Can be harmful or beneficial

Chromosomal Mutations Involve changes in the number or structure of chromosomes Deletion Loss of all or part of a chromosome Duplication Produces an extra copy of all or part of a chromosome Inversion Reverses the direction of parts of a chromosome Translocation Part of one chromosome breaks off and attaches to another chromosome

Point Mutations Are mutations that involve changes in one or more nucleotides Occur at a single point in the DNA sequence Can cause changes to occur further along the DNA molecule from the initial mutation

Point Mutations Substitution Sickle Cell Anemia One nucleotide is changed to a different nucleotide Sickle Cell Anemia

Point Mutations Insertion or Deletion Huntington’s Disease One nucleotide is inserted or removed from the DNA sequence Huntington’s Disease Muscular Dystrophy

Point Mutations Frameshift Mutations that change the “reading frame” of DNA Change the sequence of DNA from the initial point of mutation

Causes of Mutations Include naturally-occuring errors Can occur during replication Include chemical and physical agents in the environment, called mutagens Chemicals Radiation

Effects of Mutations Can be harmful Can be helpful Change protein structure or gene activity in a negative way Sickle cell anemia Can be helpful Change protein structure or gene activity in a positive way Increase disease resistance Create better physiological function Some mutations have no effect at all