Presentation is loading. Please wait.

Presentation is loading. Please wait.

Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca Mutation Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca Mutation Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca."— Presentation transcript:

1 Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca
Mutation Xuhua Xia

2 Mutation - any detectable change in DNA sequence
eg. errors in DNA replication/repair inherited ones of interest in evolutionary studies Deleterious - will be selected against and lost (purifying selection) Advantageous will be fixed in population by natural selection - rare occurrence Neutral will have not effect on phenotype - may be fixed in population by genetic drift Xuhua Xia

3 Type of Mutations 1. Point mutations Transition = purine to purine
or pyrimidine to pyrimidine Transversion = purine to pyrimidine How many possible transitions? transversions? p.38 “In animal nuclear DNA, ~ 60-70% of all point mutations are TRANSITIONS, whereas if random expect 33%” Xuhua Xia

4 Types of mutations Missense mutation - different aa specified by codon
Nonsense mutation - change from sense codon to stop codon Non-synonymous - amino acid altered Synonymous - “silent” change 2. Insertions or deletions (“indels”) - frameshift mutations within coding sequences Fig. 1.12 Xuhua Xia

5 Spontaneous Point Mutation Rates
G – genome size µb – mutation rate per site per generation µg – genomic mutation rate per generation Table 4 in Drake et al. 1998, Genetics Xuhua Xia

6 Slippage and Short Indels
Short insertions or deletions (short “indels”) eg. if slippage during DNA replication rapid evolution change in copy number of short tandem repeats microsatellites Fig.1.18 Xuhua Xia

7 Normal and Thalassemia HBb
----|----|----|----|----|----|----|----|----|----|----|----|-- Normal AUGGUGCACCUGACUCCUGAGGAGAAGUCUGCCGUUACUGCCCUGUGGGGCAAGGUGAACGU Thalass. AUGGUGCACCUGACUCCUGAGGAGAAGUCUGCCGUUACUGCCCUGUGGGGCAAGGUGAACGU ************************************************************** --|----|----|----|----|----|----|----|----|----|----|----|---- Normal GGAUGAAGUUGGUGGU-GAGGCCCUGGGCAGGUUGGUAUCAAGGUUACAAGACAGG...... Thalass. GGAUGAAGUUGGUGGUUGAGGCCCUGGGCAGGUUGGUAUCAAGGUUACAAGACAGG...... **************** *************************************** Are the two genes homologous? What evolutionary change can you infer from the alignment? What is the consequence of the evolutionary change? Xuhua Xia

8 Synonymous mutation = silent mutation?
Do you agree or disagree with the following statement? see p.27 “A synonymous mutation may not always be silent.” Fig. 6.23 Xuhua Xia

9 Triplet repeat disorder
- increased copy number of tandem repeats of triplets within gene (or regulatory region) - certain human genetic (neurodegenerative) diseases - repeat number strongly correlates with age of onset of disease and severity DM1: Dystrophia myotonica-protein kinase, DMPK on Chr 19 DM2: ZNF9 gene on chromosome 3q21. HTT on chr 4q16.3 Repeat copy number in normal = red; orange = carrier; yellow = disease condition Gerald Karp Cell and Molecular Biology: Concepts and Experiments p.435 Xuhua Xia Category I: Huntington’s disease (HD) and the spinocerebellar ataxias, CAG in CDS. Category II: expansions tend to be more phenotypically diverse with heterogeneous expansions that are generally small in magnitude, but also found in the exons of genes. Category III: fragile X syndrome, myotonic dystrophy, juvenile myoclonic epilepsy, and Friedreich’s ataxia, non-CDS.

10 Fragile X Syndrome male II-1 asymptomatic hemizygous carrier
wt mutant male II-1 asymptomatic hemizygous carrier daughter III-1 asymptomatic, but expanded repeat in germ line Bassell GJ, Warren ST (2008). "Fragile X syndrome: loss of local mRNA regulation alters synaptic development and function". Neuron 60 (2): 201–14. FMRP from FMR1 Xuhua Xia

11 Huntington’s disease 4p16.3 Xuhua Xia

12 Inversions, translocations, etc.
through chromosome breakage & rejoining Fig. 1.20 - shown as single stranded, but both DNA strands inverted Xuhua Xia

13 Inversions, translocations, etc.
- recombination between indirect repeats What would be outcome of recombination between direct repeats? Fig. 1.20 Xuhua Xia

14 Deletion A B C D A D + See Fig. 1.17 Xuhua Xia

15 “Hot spots” of mutation
- short direct repeats, palindromes - alternating Pu-Py dimers (Z-DNA) - CpG in eukaryotes -deamination of C to U, repaired by uracil-DNA glycolyase - but 5-methyl C to T escapes repair patterns & positions of mutations not random Griffiths Fig. 7.16 Xuhua Xia

Download ppt "Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca Mutation Xuhua Xia xxia@uottawa.ca http://dambe.bio.uottawa.ca."

Similar presentations

Mutations.

Mutations.
DNA Repair. -Errors (at a rate of 1x10 -9 ) are introduced during DNA replication -DNA in cells is constantly being altered by cellular constituents,

DNA Repair. -Errors (at a rate of 1x10 -9 ) are introduced during DNA replication -DNA in cells is constantly being altered by cellular constituents,
Evolution of genomes.

Evolution of genomes.
Mutations. What Are Mutations? Changes in the nucleotide sequence of DNA May occur in somatic cells (aren’t passed to offspring, only to descendant cells)

Mutations. What Are Mutations? Changes in the nucleotide sequence of DNA May occur in somatic cells (aren’t passed to offspring, only to descendant cells)
Gene Mutation. Mutation Mutation: change in DNA sequence Causes of mutation: Spontaneous Due to naturally- occurring errors in DNA replication Induced.

Gene Mutation. Mutation Mutation: change in DNA sequence Causes of mutation: Spontaneous Due to naturally- occurring errors in DNA replication Induced.
Chapter 9: The Mutability Of DNA

Chapter 9: The Mutability Of DNA
7 Mechanisms of Mutation and DNA Repair. Mutations Spontaneous mutation : occurs in absence of mutagenic agent Rate of mutation: probability of change.

7 Mechanisms of Mutation and DNA Repair. Mutations Spontaneous mutation : occurs in absence of mutagenic agent Rate of mutation: probability of change.
Mutation and DNA Mutation = change(s) in the nucleotide/base sequence of DNA; may occur due to errors in DNA replication or due to the impacts of chemicals.

Mutation and DNA Mutation = change(s) in the nucleotide/base sequence of DNA; may occur due to errors in DNA replication or due to the impacts of chemicals.
Gene Mutations.

Gene Mutations.
Mutations. The picture shows a human genome Karyotype. Look at it carefully and discuss.

Mutations. The picture shows a human genome Karyotype. Look at it carefully and discuss.
Genetics: Chromosomal Abnormalities and Genes Mutations Jill Rafael-Fortney, Ph.D. Associate Professor of Molecular & Cellular Biochemistry The Ohio State.

Genetics: Chromosomal Abnormalities and Genes Mutations Jill Rafael-Fortney, Ph.D. Associate Professor of Molecular & Cellular Biochemistry The Ohio State.
Mutation  Is a change in the genetic material.  Structural change in genomic DNA which can be transmitted from cell to it is daughter cell.  Structural.

Mutation  Is a change in the genetic material.  Structural change in genomic DNA which can be transmitted from cell to it is daughter cell.  Structural.
DNA Mutations and Repair Chapter 18 Part 1. Gene Mutations and Repair  Nature of mutations  Causes of mutations  Study of mutations  DNA repair.

DNA Mutations and Repair Chapter 18 Part 1. Gene Mutations and Repair  Nature of mutations  Causes of mutations  Study of mutations  DNA repair.
Biology – 9 th Grade Chapter 10.  Environmental Influences such as: Chemicals or UV Rays  Inherited: mutations can be passed down from parent to offspring.

Biology – 9 th Grade Chapter 10.  Environmental Influences such as: Chemicals or UV Rays  Inherited: mutations can be passed down from parent to offspring.
- any detectable change in DNA sequence eg. errors in DNA replication/repair - inherited ones of interest in evolutionary studies Deleterious - will be.

- any detectable change in DNA sequence eg. errors in DNA replication/repair - inherited ones of interest in evolutionary studies Deleterious - will be.
Generating Diversity: how genes and genomes evolve Erin “They call me Dr. Worm” Friedman 29 September 2005.

Generating Diversity: how genes and genomes evolve Erin “They call me Dr. Worm” Friedman 29 September 2005.
8.7 – Mutations. Key Concept  Mutations are changes in DNA that may or may not affect phenotype. mutated base.

8.7 – Mutations. Key Concept  Mutations are changes in DNA that may or may not affect phenotype. mutated base.
5. Point mutations can affect protein structure and function

5. Point mutations can affect protein structure and function
Evolution?. The Molecular Basis of Mutation-Evolution Mutations alter the nucleotide sequences of genes in several ways, for example the substitution.

Evolution?. The Molecular Basis of Mutation-Evolution Mutations alter the nucleotide sequences of genes in several ways, for example the substitution.
Mutations. Sickle Cell Anemia Mutations Can be a change in the DNA base sequence or a change in a chromosome Can be a change in the DNA base sequence.

Mutations. Sickle Cell Anemia Mutations Can be a change in the DNA base sequence or a change in a chromosome Can be a change in the DNA base sequence.

Similar presentations

Ads by Google