DNA Extraction PDF

Summary

This document provides a detailed explanation of the DNA extraction process. It outlines the steps involved in isolating DNA, from breaking down cells to precipitating and purifying the DNA. It also describes different types of DNA and applications of DNA extraction in research and agriculture.

Full Transcript

DNA Extraction

DNA extraction is an extraction process of DNA from
various source.
The aim: is to separate DNA present in the nucleus of
the cell from other cellular components.
Purpose:
To extract genetic material in relatively purified form for
genetic, molecular or forensic analysis
Types of DNA:
1. genomic (chromosomal, nuclear)
2. organellar (satellites),
3. plasmid DNA or extra-chromosomal:
→mitochondrial (mDNA), chloroplast (clDNA),
4. cDNA (complementary DNA),
5. phage or viral (ds or ss
Process (3 basic steps)
1. Break the cells open to expose DNA
2. Remove membrane lipids by adding detergent
3. Precipitate DNA with an alcohol — usually ethanol
isopropanol
Since DNA is insoluble in these alcohols, it will
aggregate together, giving a pellet upon centrifugation.
This step also removes alcohol soluble salt.
LYSIS in DNA extraction from plants, this step often refers to the
breaking of the cell wall & cellular membranes (most importantly,
the plasma & nuclear membranes)

CW (made of cellulose) is disrupted by mechanical grinding the
leaves)
+++Detergent = breaks down the cell membranes force (e.g.
Detergents = able to disrupt membranes due to the amphipathic
(having both hydrophilic & hydrophobic regions) nature of both
cellular membranes & detergent molecules; detergent molecules are
able to pull apart the membranes

End result of LYSIS: contents of plant cells are distributed in
solution.
Lysis of the Cell.
Use Detergent to solubilize the membrane lipid.
PRECIPITATION this a series of steps where DNA is separated from
the rest of the cellular components

In a research lab, 1st part of precipitation uses phenol/chloroform to remove
proteins from DNA )
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Phenol denatures proteins & dissolves denatured proteins.
Chloroform is also a protein denaturant
(THIS STEP CANNOT BE PERFORMED IN CLASSROOM LABS!!!)

2nd part of research lab DNA precipitation is the addition of salts
Salts interrupt the H bonds between water & DNA molecules.
DNA is then precipitated from the protein in a subsequent step with isopropanol
or ethanol
In the presence of cations, ethanol induces a structural change in DNA
molecules that causes them to aggregate & precipitate out of solution.
Washing and Re-suspension
Washing:
Precipitated DNA is laden with acetate salts. It is “washed” with a
70% ethanol solution to remove salts & other water soluble impurities
but not re-suspend the DNA.

Re-suspension:
Clean DNA is now re-suspended in a buffer to ensure stability & long
term storage.
✓Most commonly used buffer for re-suspension is called 1xTE
Checking the Quality of DNA
✓The product of DNA extraction will be used in subsequent experiments; poor quality
DNA will not perform well in PCR

✓You will want to assess the quality of the DNA extracted using the following simple
protocol:
Mix 10 µL of DNA with 10 µL of loading buffer
Load this mixture into a 1% agarose gel
Analyze results (the following slides provide guidance

Analyzing DNA Samples in a Research Lab
If properly done, genomic extraction should result in bright bands in the very high
base pair range of a gel electrophoresis.
Analyzing DNA Samples in a
Classroom Lab A B C D E
Ladder
Analysis of samples:

Barley (A): This sample is fine

Corn (B): This sample is fine

Oat (C) : This sample is fine

Rice (D) : This sample is fine

Wheat (E): This sample has
severe degradation, can work for
PCR but should re-extract
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DNA Storage
Options
Salt solution - EDTA – prevents enzyme
activity (only short term)

Freezing– expensive, risky

Alcohol– explosive, needs regular
checking (evaporation), degradation, store at
cold temperature (4oC, -20oC)

Dried- extract and purify, apply to
membranes, store dry (make sure it’s dry)
Importance in Agriculture

An essential part of agricultural biotechnology is the
extraction of DNA, which enables scientists to
genetically modify organisms for agricultural
purposes and helps plant and animal breeders
choose more precisely for desired features.
Summary of DNA extraction:
1. Cell lysis, to expose the DNA within.
2. Removing membrane lipids by adding a detergents or
surfactants.
3. Removing proteins by adding a protease.
4. Removing RNA by adding an Rnase.
5. Precipitating the DNA with alcohol - usually ice cold ethanol.
In these alcohols, DNA strand will aggregate together, giving a
pellet upon centrifugation. This step also removes alcohol-
soluble salt.
Spectrophotometers
Vertical electrophoresis
Gel Electrophoresis