Presentation is loading. Please wait.

Presentation is loading. Please wait.

8.5 DNA Repair At the end of S phase, DNA polymerase has copied both strands of template DNA DNA polymerase does make mistakes -1 mistake every 10,000.

Published bySylvia Whitehead Modified over 8 years ago

Similar presentations

Presentation on theme: "8.5 DNA Repair At the end of S phase, DNA polymerase has copied both strands of template DNA DNA polymerase does make mistakes -1 mistake every 10,000."— Presentation transcript:

1 8.5 DNA Repair At the end of S phase, DNA polymerase has copied both strands of template DNA DNA polymerase does make mistakes -1 mistake every 10,000 bases

2 What is a mutation? What is a mutation? Mutation Mutation –any change in DNA sequence Results vary Results vary –Silent (very minor) –Harmful (major) –Lethal (death) These mutations will be passed on to next generation of cells These mutations will be passed on to next generation of cells

3 DNA Repair Mechanisms Body must fix errors(mutations) in DNA Body must fix errors(mutations) in DNA Two types Two types – 1. DNA polymerases proofreading Most common way of repair Most common way of repair – 2. Excision Repair

4 Polymerase Proofreading DNA polymerase makes a mistake every 10,000 bases DNA polymerase makes a mistake every 10,000 bases As DNA polymerase adds nucleotide, it proofreads As DNA polymerase adds nucleotide, it proofreads – Will remove wrong nucleotide – Add correct nucleotide After it is done, only 1 error every 10 million bases

5 2 nd method: Excision Repair Other mutations arise Other mutations arise – Not during DNA replication – Other times during cell life Caused by outside Mutagenic factors Caused by outside Mutagenic factors – Chemical – radiation

6 Chemical Mutagenic Factors Anything that causes a mutation, a change or error in DNA sequence Anything that causes a mutation, a change or error in DNA sequence –1. Chemical Factors Chemical molecules physically bind to DNA Chemical molecules physically bind to DNA –Ex. Benzopyrene –Hetrocyclic amines –pesticides 2. Radiation Physically damages DNA Physically damages DNA

7 Radiation Mutagenic Factors Anything that causes a mutation, a change or error in DNA sequence Anything that causes a mutation, a change or error in DNA sequence 2. Radiation: Physically damages DNA Ionizing Radiation Ionizing Radiation –X-rays  Actually punch holes through DNA UV Radiation UV Radiation –Sunlight  Causes kink between two thymines

8 UV Radiation Damage to DNA Causes portions of DNA to be bound together Causes portions of DNA to be bound together N T T N N A A N

9 UV Radiation Damage to DNA Creates “Thymine Dimers” Creates “Thymine Dimers” Does sunblock prevent mutations? Does sunblock prevent mutations? N T T N N A A N

10 Excision Repair The mutations must be detected and corrected The mutations must be detected and corrected

11 Excision Repair Most common mutations are mismatches(wrong bases paired up) Most common mutations are mismatches(wrong bases paired up) Or a chemical molecule binds DNA Or a chemical molecule binds DNA

12 Excision Repair Special enzymes constantly circulate Special enzymes constantly circulate Travel up and down DNA til they find “damaged DNA” Travel up and down DNA til they find “damaged DNA” Mismatched bases don’t bond well- Mismatched bases don’t bond well- – form hump

13 Excision Repair 2 nd step: Incision 2 nd step: Incision –Enzyme breaks sugar- phosphate bonds between damaged DNA and normal DNA 3 rd step: Excision 3 rd step: Excision –Damaged DNA region is removed

14 Excision Repair 4 th step: Re-synthesis 4 th step: Re-synthesis –DNA polymerase fills in deleted region Last step: Last step: – “Ligase” forms bonds between new region and rest of DNA strand

15 DNA Repair What would happen if your body couldn’t repair mutations as efficiently? What would happen if your body couldn’t repair mutations as efficiently? What if you couldn’t fix UV damage? What if you couldn’t fix UV damage? Anyone ever watch “The Others?” Anyone ever watch “The Others?” http://www.wwlp.com/news/segments/sybersy/others.jpg

16 Xeroderma Pigmentosa Autosomal recessive disease(very rare) Autosomal recessive disease(very rare) Mutation in DNA repair protein Mutation in DNA repair protein –Protein responsible for replacing nucleotides in DNA of skin damaged by UV radiation Cells expose to sunlight have damage to DNA Now they can’t fix it

17 Xeroderma Pigmentosa Cannot be exposed to sunlight Cannot be exposed to sunlight Not even strong fluorescent light Not even strong fluorescent light Must stay indoors with windows covered to block out light. Must stay indoors with windows covered to block out light. Only a few seconds of exposure Only a few seconds of exposure –Cause 3 rd degree burns –Skin cancer

Download ppt "8.5 DNA Repair At the end of S phase, DNA polymerase has copied both strands of template DNA DNA polymerase does make mistakes -1 mistake every 10,000."

Similar presentations

CHAPTER 11 DNA: THE GENETIC MATERIAL. DISCOVERING THE STRUCTURE OF DNA DNA is comprised of subunits called nucleotides. Each DNA nucleotide has three.

CHAPTER 11 DNA: THE GENETIC MATERIAL. DISCOVERING THE STRUCTURE OF DNA DNA is comprised of subunits called nucleotides. Each DNA nucleotide has three.
KEY CONCEPT Mutations are changes in DNA that may or may not affect observable traits/characteristics.

KEY CONCEPT Mutations are changes in DNA that may or may not affect observable traits/characteristics.
DNA Replication, Repair, & Recombination Chapter 12 By: Alison Avery.

DNA Replication, Repair, & Recombination Chapter 12 By: Alison Avery.
A Closer Look at DNA.

A Closer Look at DNA.
DNA – Deoxyribose Nucleic Acid 1. DNA is composed of a chain of nucleotides, each made up of a sugar group, a phosphate group, and a nitrogenous base.

DNA – Deoxyribose Nucleic Acid 1. DNA is composed of a chain of nucleotides, each made up of a sugar group, a phosphate group, and a nitrogenous base.
1 Lecture 25: DNA mutation, proofreading, and repair Figure 16.7a, c (c) Space-filling model C T A A T C G GC A C G A T A T AT T A C T A 0.34 nm 3.4 nm.

1 Lecture 25: DNA mutation, proofreading, and repair Figure 16.7a, c (c) Space-filling model C T A A T C G GC A C G A T A T AT T A C T A 0.34 nm 3.4 nm.
DNA Replication DNA is replicated before cell division, when a cell divided into two cells.

DNA Replication DNA is replicated before cell division, when a cell divided into two cells.
Gene Expression & DNA Replication DNA must be copied so that the DNA is the same in all cells Differences in gene expression give rise to: – different.

Gene Expression & DNA Replication DNA must be copied so that the DNA is the same in all cells Differences in gene expression give rise to: – different.
Review Chapter 2 and Figure 3.35 on nucleotides..

Review Chapter 2 and Figure 3.35 on nucleotides..
KEY CONCEPT DNA replication copies the genetic information of a cell.

KEY CONCEPT DNA replication copies the genetic information of a cell.
Gene Mutations.

Gene Mutations.
Mutations in Replication 289-291. What did you learn in your reading? Who performs mismatch repair? Why does DNA constantly have to be maintained? What.

Mutations in Replication What did you learn in your reading? Who performs mismatch repair? Why does DNA constantly have to be maintained? What.
DNA Structure and Replication Genetics DNA Can replicate Is the hereditary material Controls cellular activities by coding for and controlling protein.

DNA Structure and Replication Genetics DNA Can replicate Is the hereditary material Controls cellular activities by coding for and controlling protein.
II. Replication - The process of DNA making a copy of itself.

II. Replication - The process of DNA making a copy of itself.
AP Biology 2007-2008 DNA Replication STRUCTURE OF NUCLEIC ACIDS Sugar can be DEOXYRIBOSE (DNA) RIBOSE (RNA) Built from NUCLEOTIDE SUBUNITS NITROGEN BASES.

AP Biology DNA Replication STRUCTURE OF NUCLEIC ACIDS Sugar can be DEOXYRIBOSE (DNA) RIBOSE (RNA) Built from NUCLEOTIDE SUBUNITS NITROGEN BASES.
DNA Unit. Structure of DNA - shape is a double helix - a long polymer made of smaller units (monomers) called nucleotides.

DNA Unit. Structure of DNA - shape is a double helix - a long polymer made of smaller units (monomers) called nucleotides.
The Roles of Enzymes in DNA Replication By definition, DNA Replication is the process of making a copy of itself. In other words existing strands of DNA.

The Roles of Enzymes in DNA Replication By definition, DNA Replication is the process of making a copy of itself. In other words existing strands of DNA.
1 DNA Replication copyright cmassengale Vyi4.

1 DNA Replication copyright cmassengale Vyi4.
DNA - Transcription, Translation, and Mutations

DNA - Transcription, Translation, and Mutations
1 DNA Replication. 2 Video 3 Replication Facts DNA has to be copied before a cell dividesDNA has to be copied before a cell divides DNA is copied during.

1 DNA Replication. 2 Video 3 Replication Facts DNA has to be copied before a cell dividesDNA has to be copied before a cell divides DNA is copied during.

Similar presentations

Ads by Google