Mutation Lecture Slides PDF

Summary

These slides discuss various types of DNA mutations, including point mutations, insertions, deletions, and frameshifts. It details the effects of these mutations on protein function and potential diseases. The presentation also covers DNA repair mechanisms.

Full Transcript

Mutations
DNA Damage & Repair Mechanisms

MGD Module
Jan 10, 2024
Shara K. Zheer Nizamaddin
[email protected]
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 Learning Objectives
1. Explain relationship between changes in nucleotide & amino acid sequences
2. Describe different types of mutational changes, e.g. point mutation, indel
3. Predict & explain effect that different mutations may have
4. Describe how spontaneous & induced mutations may occur
5. Describe genetic link between mutation & mutant & explain how some
mutations can be inherited
6. Describe process & role of DNA repair
7. Explain relationship between DNA damage & Cancer
8. Recognize fundamental importance of PCR in the diagnosis of genetic
disease.

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 What is mutation?
Is any permanent, heritable change in DNA base sequence of an organism

Mutations that result from damage to the nucleotides of DNA molecules or from
unrepaired errors during replication can be transcribed into mRNA and therefore can,
sometimes, result in the translation of a protein with an abnormal amino acid sequence

It may cause genetic diseases or cell death
They can also cause changes in enzyme activity, nutritional requirements, antibiotic
susceptibility, and many other properties of cells

So source of genetic variation, evolution,
beneficial mutation, NOT always bad

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 Mutations: are a source of genetic variation

üA mutation causes a mutant phenotype, which is a phenotype that differs
from common or wild type phenotype in the population
üA mutation in a gene causes a mutant allele, which is an allele that differs
from common allele in the population (the wild type allele)
üIt could be in one allele heterozygous or both allele homozygous

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Mutation can be categorized to:

1. Small mutations:

Change in nucleotide sequence of Single gene

2. Large scale mutations: (Will be covered in next lecture)
a) Abnormal number of chromosome or
b) Chromosome structure that are strictly abnormal

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 Types of small mutation- single Gene Mutations

1. Substitutions (Point mutations): A single base (nucleotide) change.
-If in the coding region of a gene, it would be one of these:
A. Silent: a mutation that does not alter the amino acid specified
CGA (Arg) >>> CGG (Arg)
B. Missense: a mutation that replaces one amino acid with another
CGA (Arg) >>> CCA (Pro)
C. Nonsense: a mutation that changes the amino acid specified to a stop
codon CGA (Arg) >>> UGA (Stop)

Base substitutions and can be either:
ü Transition (purine to purine OR pyrimidine to pyrimidine). OR
ü Transversion (purine to pyrimidine OR pyrimidine to purine).
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- If in non-coding regions of the gene

Point mutations in non-coding regions or outside genes can of course also be
detrimental as they can change protein binding sites, promoter sequences, splice
sites etc.

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2. Insertion, Deletion, & frameshift mutations: An insertion or deletion of one or more
bases to the DNA sequence
If in the coding region of a gene
A- Non- frameshift
Insertion or deletion of 3 nucleotides (or multiples of 3): no change in reading frame
(however, there will be a change in the amino acid code)
+3 (GTT)

ATG GAA GCA CGT ATG GAA GTT GCA CGT
Met Glu Ala Gly Met Glu Val Ala Gly
B- Frameshift
Insertion or deletion of nucleotides other than 3 or multiples of 3 (1, 2, 4, 5….)
The reading frame shifts at the point where the insertion or deletion begins.
Beyond that point, the amino acid sequence of the protein translated from mRNA
Differs from the normal protein. -1 (G)
ATG GAA GCA CGT ATG AAG CAC GT…
Met Glu Ala Gly Met Lys His 9
Q1/A type of mutation that affect every codon beyond the point of mutation.
a. Point Mutation
b. Silent Mutation
c. Nonsense Mutation
d. Frameshift Mutation

Q2/ A non-conservative mutation is one in which:
a. The new amino acid has different biochemical properties than the original
b. A frameshift has occurred, causing production of a new amino acid
c. A large segment of DNA is deleted
d. No effect results in the protein

Q3/ Which type of mutation results in the sickle-cell disease phenotype? (Mutation results in
glutamate →→ valine)
a. Conservative mutation
b. Frameshift mutation
c. Non-conservative missense mutation
d. Codon deletion

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Predict and explain the EFFECT of mutation (Disease)

Its based on type mutation and location in the gene

Is it in the coding region or in the regulatory region?
If in the coding region:
Point mutation? what kind of point mutation?
del/Inser? Is it three or a multiple of three? If not so its frameshift
If in the regulatory region/non coding region
Point mutation-Which region of the gene?
del/Inser- Which region of the gene? Also is it small or large del/insertion

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Type of mutation- in coding region Effect on Protein

Silent: new codon specifies same None
amino acid
Missense: new codon specifies Possible decrease in function; variable -Its either conservative or
different amino acid effects. depends on chemical properties of nonconservative.
the new amino acid Sickle cell – nonconservative
Factor XI deficiency
Nonsense: new codon is stop codon Shorter than normal; usually nonfunctional

Non frameshift insertion/deletion Possible decrease in function; variable Cystic fibrosis – Deletion of CTT at
effects. depends on function of the amino exon 11
acid added or deleted
Frameshift insertion/deletion Usually nonfunctional; often shorter than Gaucher disease, an inserted
normal single DNA base prevents
production of an enzyme
Type of mutation- in regulatory Effect on Protein
region/non-coding region
Point mutations Does not affect quality of protein, but may Becker muscular dystrophy-
affect quantity-Affect rate of transcription protein dystrophin is normal, but
its levels are reduced
Insertion or deletion Does not affect quality of protein, but may Some mutations of β+
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affect quantity. Affect rate of transcription thalassemia
Example on effects of mutation
Q/ Saman has been having recurrent infections and build-up of thick, sticky mucus in his
lung. His physician suspected Cystic fibrosis (CF), therefore, a sample was taken/sent for
PCR genetic analysis to check for CTT deletion in CFTR gene (the most common type of
mutations). CFTR gene encoded for a transmembrane protein that maintaining the
balance of salt and water on many cell surfaces in the body, including lung.

Healthy: 5‘-...ATC ATC TTT GGT GTT TCC TAT GAT GAA TAT....-3’
CF: 5‘-...ATC ATT GGT GTT TCC TAT GAT GAA TAT....-3’
CFTR protein: N-...ile ile phe gly val ser tyr asp glu tyr...-C

Answer the following?
a) Although more than 1000 mutations are identified in CFTR gene, why the doctor
asked for CTT deletion?
b) Is the CTT deletion a frameshift or non-frameshift mutation?
c) Why the loss of CTT (Phenylalanine) in the protein sequence of that clinical
significance?
d) Was it the right choice to use PCR technique for the detection of CTT deletion? 13
e) Since CF is an autosomal recessive disorder,
accordingly to the PCR- gel electrophoresis,
which of the samples is Saman’s sample and
why?

1 2 3

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Q/ Azad was tested for β thalassemia. His DNA sample was sequenced for β globin
gene. The gel shown below is for the region that normal & mutant sample (Azad’s
sample is different. The mutation is homozygous, in the non coding region-
promoter.

What type of mutation is it?
How does it affect the severity of the disease

GGA TCC CGA
GGT CCC GAT
GG TCC CGA

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Causes of Mutations

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1- Spontaneous Mutation 2. Induced Mutation: non-replication dependent damage

DNA Replication error
Tautomeric shift- mismatch
(TG or CA)
DNA Polymerase slippage-
Trinucleotide repeat
expansion mutation

-Results in many
neurological conditions
(Huntington's disease-
ploy- glutamine repeat
expansion instead of 6-35
it changes to 36-121)

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 2- Induced mutation
In addition to spontaneous mutations, problems may arise from DNA damaged by
mutagens: chemicals produced in cells, inhaled, or absorbed from environment
that cause mutations, either directly or indirectly.
Exposure to Mutagens can be:
Intentional: used in Medicine for treatment e.g radiation (Gamma rays) and
chemotherapy (base analog, interlacing agent) to kill cancer cells

Unintentional: UV light, X-Ray, tabaco
X-Ray: generating free radical OH. upon hitting water in cells, reacts with DNA
and damage it.
UV light: causes pyrimidine dimers between two adjacent Thymine on DNA.
Mutations may result in melanomas, appearing as dark brown growths on the
skin
Smoking mutagen- Tabaco (cigarettes and shisha) when it burns, form a bulky
compound bind to G, prevent GC base pairing
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Mutation can affect chromosomes in:
1- Somatic cells- called somatic mutations
Are passed on to successive generations of cells, but only within an
organism (i.e. horizontal transmission)

2- Gametes-called germline mutations
Inherited & transmitted to offspring, vertical transmission of hereditary
disease

*It is becoming apparent that a number of diseases—& perhaps most
cancers—are due to the combined effects of vertical as well as horizontal
transmission of induced mutations
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How our cells deal with all these errors &
mutagens exposure on a daily basis?

DNA Repair Mechanisms

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DNA Damage, Repair, & Cancer

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 Identifying & Repair Mechanism
Mutation is unavoidable
Both normal metabolic activities in human cell and
environmental factors can cause DNA damage
Its crucial to identify and repair the damages
The cell has several highly conserved mechanisms in
place to check and repair the genetic code:
During DNA replication
After completion of replication
Mutations happen very frequently but are being
recognized and repaired very frequently too
Failure of DNA repair can have serious consequences
to the cell, and can cause disease.

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During DNA Replication

Proofreading by DNA Polymerase

Additional activities occur during replication
include proofreading & DNA repair
Pol δ also has the 3` to 5` exonuclease activity
required for proofreading. Enzymes that catalyze
repair of mismatched bases are also present
Consequently, eukaryotic replication occurs with
high fidelity; approximately one mispairing occurs
for every 109 to 1012 nucleotides incorporated into
growing DNA chains

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Repair Mechanisms
Both normal metabolic activities in human cell and
environmental factors can cause DNA damage, therefore, there
is a collection of processes by which a cell identifies and
corrects damage to the DNA molecule. These are:

1. EXCISION REPAIR
a) NUCLEOTIDE
b) BASE
2. MISMATCH REPAIR

The three repair mechanisms have steps in common, shown in
the next slide.
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1-Excision Repair

-In base excision repair, the glycosylase
enzyme cleaves the glycosidic bond
between altered base and ribose.

-In nucleotide excision repair, the entire
nucleotide is removed at once by excision
endonuclease enzyme.

The repair involves damages from chemical
carcinogens, cigarettes, UVB in sunlight
(thymine dimer) or oxidative damage from
free radical by X ray.

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 Xeroderma Pigmentosum (XP),
An autosomal recessive.
Cause by defect/deficiency of endonuclease enzyme
(mutation in at least 9 genes) in nucleotide excision
repair mechanism.
This allow thymine dimers formed upon exposure to sun
UV light stay & block replication.
In normal individual, usually repair mechanisms correct
this damage, and cancer rarely occurs.
But in XP cancer extremely common, because of the
inability to repair DNA, the frequency of mutation
increases. A cancer develops once proto-oncogenes or
tumor suppressor genes mutate.
By avoiding light, these individuals can reduce the
number of skin cancers that develop.
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 2-Mismatch Repair (MMR)

DNA mismatch repair is a system for recognizing and
repairing incorrect insertion, deletion, and mis-
incorporation of bases that can arise during DNA
replication and recombination, as well as repairing

Mismatched bases (e.g A-C instead of A-T or G_C)
are recognized by enzymes of the mismatch repair
system, MLH1 and other protiens.

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 Hereditary nonpolyposis colorectal cancer (HNPCC)

Also called Lynch syndrome
An autosomal dominant inheritance
Caused by mutations in one of genes of DNA mismatch repair
system, mainly MLH1 gene.
MLH1 mutation confers a markedly increased risk for various
types of cancer, particularly of the colon and the
endometrium.

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 DNA Damage, Repair, & Cancer

References
Genetics A Conceptual Approach; Benjamin A. Pierce. Fourth edition, 2012
Kaplan Medical Genetics USMLE step 1 Chapter 4 Edition 2021
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Lippincott’s Illustrated Reviews: Biochemistry 5th edition Chapter 5