DNA Extraction Principles and Techniques PDF

Summary

This document explains the principles and techniques of DNA extraction, including applications in genetic engineering, altering animals, pharmaceuticals, medical diagnosis, and identity verification. The document also describes how to obtain DNA and outlines the process.

Full Transcript

DNA Extraction
Principles and Techniques
7 October 2024 Assist: Lecturer Salma Zaher 1
 “A DNA extraction is described as the separation of DNA
DNA Extraction
from the cell membrane and nuclear membrane using
chemicals, enzymes, or physical disturbances.”
Definition “Nucleic acid extraction” or “DNA extraction” is the
process of extracting nucleic acid from the rest of the cell
organelle
7 October 2024 Assist: Lecturer Salma Zaher 2
 Applications
Genetic Engineering of Plants
DNA extraction is integral to the process of
genetic modification of plants.
Many agricultural companies use genetic
extraction to isolate DNA from organisms
with desirable traits, which they then
transplant into the plant’s genome.
7 October 2024 Assist: Lecturer Salma Zaher 3
 Applications
Altering Animals
DNA extraction is also the first step in genetic
engineering of animals.
Genetic engineering of animals is a very broad
field that ranges from editing a single gene to
transplanting genes from one animal into
another. For example, a Taiwanese research lab
transplanted jellyfish genes into pigs, causing
them to glow in the dark.
7 October 2024 Assist: Lecturer Salma Zaher 4
 Applications
Pharmaceutical Products
DNA extraction is used as the initial step in
manufacturing a number of pharmaceuticals.
Hepatitis B vaccine and human growth
hormone (hGh).
In addition to a number of other hormones
created using DNA extraction, one of the most
widely used is insulin.
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Applications
Medical Diagnosis
Diagnosis of certain medical conditions can often be made from DNA
extracted from a patient.
Conditions that can be diagnosed by genetic testing include cystic
fibrosis, sickle-cell anemia, fragile x syndrome.

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Applications
Identity Verification
A well-known use for genetic extraction is genetic fingerprinting, a process
that matches genetic material from an individual with other genetic material
available.
One example is paternity testing, to determine someone’s biological father.
Another common use for DNA extraction in identity verification is for
forensic purposes.
Genetic material from an individual can be compared to genetic material at
a crime scene.

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 The cytoplasm and cell membrane/cell wall make up the cell.

Several organelles, such as mitochondria, ribosomes, nucleus,
and endoplasmic reticulum, are found in the cytoplasm.

How to obtain The cell wall is absent in animal cells, although it is present in
plant cells and (most) bacterial cells.
DNA? To isolate DNA-deoxyribonucleic acid, we must first breach the
cell wall/cell membrane, as well as the nuclear envelope.

Other cellular organelle debris must also be removed.

Precipitation and purification of the DNA are the final steps.

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The Outline of the process

Lysis of cell wall/ cell membrane
Chemical disruption (Chelating agents, detergants)
Enzymatic disruption (Lyases, glycosyl-hydrolases)
Mechanical disruption (Ultrasonication)
Lysis of nuclear membrane:
Chemical lysis
Enzymatic lysis
Removing cell debris
Centrifugation
7 October 2024 Assist: Lecturer Salma Zaher 9
7 October 2024 Assist: Lecturer Salma Zaher 10
 Step 1. Breaking cells open to release the DNA

The cells in a sample are separated from each other, often by a physical means
such as grinding or vortexing, and put into a solution containing salt. A detergent

What does DNA
is then added. The detergent breaks down the lipids in the cell membrane and
nuclei. DNA is released as these membranes are disrupted.

extraction
involve? Step 2. Separating DNA from proteins and other cellular debris

To get a clean sample of DNA, it’s necessary to remove as much of the cellular
debris as possible. This can be done by a variety of methods. Often a protease (
protein enzyme) is added to degrade DNA-associated proteins and other
cellular proteins. Alternatively, some of the cellular debris can be removed by
filtering the sample.

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 Step 3. Precipitating the DNA with an alcohol

Finally, ice-cold alcohol (either ethanol or isopropanol) is carefully added to the
DNA sample. DNA is soluble in water but insoluble in the presence of salt and
alcohol.

Step 4. Cleaning the DNA

What does DNA
extraction The DNA sample can now be further purified (cleaned). It is then resuspended in a
slightly alkaline buffer and ready to use.
involve?
Step 5. Confirming the presence and quality of the DNA For further lab
work,

It is important to know the concentration and quality of the DNA.

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DNA Extraction Techniques
Phenol chloroform extraction
Solid phase reversible immobilization
extraction
Chelex extraction

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7 October 2024 Assist: Lecturer Salma Zaher 14
 Phenol Chloroform Extraction

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 Solid-Phase Reversible Immobilization Extraction

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Principle
The beads consist of a polystyrene core surrounded by a thin layer of
magnetite, which makes it paramagnetic (i.e., the beads will only clump
together under a magnetic field).
On the surface, the bead is coated by carboxyl molecules, which provide the
charge groups for DNA binding.
In the presence of polyethylene glycol (PEG) and salt, which work together
as “crowding agents,” you can activate the beads to bind to DNA and the
binding is reversible.
A typical procedure involves the following five simple steps.

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 Steps

1 2 3 4 5
Step 1. Binding Step 2. Separation. Step 3. Wash. Step 4. Elution. Step 5.
and mixing. A powerful magnet Rinse with ethanol The buffer separates Transfer. Aliquot
This step is crucial pulls the beads (70%)* the DNA from the the DNA to a fresh
because the ratio down, which are beads, which are tube for downstream
between the PEG bound to the DNA still bound to the sequencing work
and the DNA fragment you want magnet
determines the size to purify.
of the DNA that will
bind to the beads.

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 Differential Extraction of Sperms from Mixed Samples

The process of differential extraction used to separate male
7 October 2024 sperms from female epithelial cells. 19
Assist: Lecturer Salma Zaher