Southern Blotting: Principle, Steps, Applications | Microbe Online (2024)

Southern blotting is a molecular technique to find target DNA sequences in a sample. It is a multi-step process, that begins with the electrophoresis of DNA, transfer of DNA fragments into nitrocellulose strip, and exposing those fragments to a DNA probe labeled with a radioactive or chemical tag.

The Southern blotting technique was named after Edwin Southern who introduced the technique in 1975.

Table of Contents

Principle

The target DNA is broken into small fragments using restriction endonucleases and is separated by electrophoresis. Following separation, the double-stranded pieces of DNA are denatured into single strands within the gel and transferred from the gel onto a blotting membrane. The membrane is then treated with a small piece of DNA or RNA called a probe, which has a complementary sequence to the target DNA.

The probe also has a radioactive atom or a fluorescent dye label, that following hybridization, permits the DNA fragment of interest to be detected from different DNA fragments present on the membrane.

Requirements

  1. Agarose gel
  2. Cellulose nitrate or nitrocellulose membrane filter with uniform porosity.
  3. Ethidium bromide for staining the DNA
  4. Enzymes: restriction nucleases, RNase A
  5. DNA loading buffer, TBE Buffer for electrophoresis

Steps involved in Southern blotting

Extraction, purification, fragmentation, and separation of target DNA

DNA is extracted from the target source and is broken into small fragments using restriction endonuclease enzyme.
Fragmented DNA is then electrophoresed on an agarose gel to separate the fragments according to their molecular weights. Acrylamide gels can alternatively be used for good resolution of smaller DNA fragments (<800 bp). DNA thus obtained are double-stranded, and is therefore denatured to single-stranded DNA by dipping the gel in an alkaline solution.


Blotting refers to the transfer of the fragmented DNA sequence to the nitrocellulose membrane or nylon membrane. Although this step determines the name of this technique “Southern blotting,” the term is typically used to describe the entire procedure.

Blotting

The process is done by either electroblotting or capillary blotting. A sheet ofnitrocellulosemembraneis placed on top of (or below, depending on the direction of the transfer) the gel and gentle pressure is applied evenly to the gel (either using suction or by placing a stack of paper towels and a weight on top of the membrane and gel), to ensure good and even contact between gel and membrane. Fragments are pulled towards the nitrocellulose filter membrane by capillary action and result in the formation of an imprint or blot of the gel. The portion of the nitrocellulose membrane, touching the gel should be gently removed using a blade.

Baking

The membrane is then baked in a vacuum or regular oven at 80°C for 2 hours or can be fixed via UV crosslinking mediated by exposure to short-wavelength UV light to permanently attach the transferred DNA to the membrane.

Pre hybridization and blocking

Prehybridization and blocking are done to eliminate non-specific reactions. There are various kinds of blocking agents, commonly, salmon or herring sperm DNA is used for blocking the membrane surface and target DNA.
In this step, the membrane is incubated in Denhardt’s solution for 1 hour or more, depending on the type of reaction. After incubating the prehybridization solution at 42°C, the heat snap chilled salmon sperm DNA is added to it at a concentration of 50 µg/mL.

Hybridization with the probe

Hybridization is usually carried out in a sealed bag which will contain the Southern blot, and hybridization fluid containing the labeled probe. The time required for hybridization usually 1–16 hours depending on factors like the complexity of the probe and concentration.

Visualization of the result

After hybridization, the excess probe is washed from the membrane using a buffer, and the pattern of hybridization is visualized on X-ray film by autoradiography in the case of a radioactive or fluorescent probe, or by the development of color on the membrane if a chromogenic detection method is used.

Result Interpretation

Hybridization of the probe to a specific DNA fragment on the filter membrane indicates that this fragment contains DNA sequence that is complementary to the probe. A probe that has hybridized with a single fragment of DNA not being digested by restriction enzymes will result in only one band in the final blot. In case the probe binds to many of the similar sequences it will result in multiple bands.

Modification of the hybridization conditions (for example, increasing the hybridization temperature or decreasing salt concentration) may be used to increase specificity and decrease hybridization of the probe to sequences that are less similar.

Applications

Southern blotting is used to analyze the genome of organisms of interest in order to identify a specific sequence. Southern blot analysis can be used to:

  1. To study mutation and gene rearrangement, this property is used to diagnose neonatal disease and genetic disease.
  2. In phylogenetic studies, recombinant DNA technology, paternity & maternity analysis, forensic studies, and personal identification.
    1. To demonstrate the presence or absence of a specific target sequence in DNA,
    2. To determine whether chromosomal integration has occurred,
  3. In immunology, the clonal rearrangements of the immunoglobulins, as well as the T Cell receptor genes, can be analyzed by Southern blotting.
  4. To study the structure of a gene or to elucidate restriction enzyme maps.
  5. To determine the copy number of transgenes etc.,

References and Further Readings

Related

Southern Blotting: Principle, Steps, Applications | Microbe Online (2024)

FAQs

What are the steps of Southern blotting? ›

It is a classic technique that involves separating DNA fragments based on size via electrophoresis, transferring them to a membrane, hybridization with a labeled sequence-specific probe, washing, and finally detection of labeled DNA band(s).

What are the applications of Southern blotting? ›

Some of the key applications of Southern blot are listed below:
  • identification of a single gene in a pool of DNA fragments.
  • gene mapping.
  • analysis of genetic patterns of DNA.
  • detection of specific DNA sequences in a genome.
  • study of gene deletions, duplications, and mutations that cause various diseases.

What is Southern blotting pdf? ›

Southern blotting is a hybridization technique for identification of particular size of DNA from the mixture of other similar molecules. This technique is based on the principle of separation of DNA fragments by gel electrophoresis and identified by labelled probe hybridization.

What is hybridization in Southern blotting? ›

Southern Blotting

Nucleic hybridization is used for the identification of a specific DNA segment within a genomic DNA. This technique involves mixing of denatured DNA from two sources and then, under appropriate conditions, allowing complementary base pairing of homologous sequences.

What are the 6 steps of Western blotting? ›

There are six steps involved in western blot, including sample preparation, gel electrophoresis, proteins transfer, blocking, antibody incubation, and proteins detection and visualization.

What is Southern blotting quizlet? ›

Southern blotting \textbf{Southern blotting} Southern blotting is used as hybridization method that detects a specific target gene of interest among other DNA molecules present in a sample.

What are the applications of blotting techniques? ›

The blotting technique allows for the identification and verification of antigen-specific antibodies, making it a reliable method for disease detection. Additionally, Western Blot method is also useful in identifying modifications to proteins, such as phosphorylation, glycosylation, among others.

What is the process of blotting? ›

Blotting is the process of transferring macromolecules (proteins, nucleic acids, etc.) from a gel to the solid surface of an immobilised membrane to detect the molecules that have been transferred. Identification of specific sequences of DNA, RNA, and proteins is important for various studies in Molecular biology.

What is the application of southwestern blotting? ›

Southwestern blotting is a technique used to study DNA-protein interactions. This method detects specific DNA-binding proteins by incubating radiolabeled DNA with a gel blot, washing, and visualizing through autoradiography.

What buffer is used in Southern blotting? ›

Reagents. The buffer used for electrophoresis is TAE or TBE. The agarose preferred should be of electrophoresis grade. For staining the DNA, ethidium bromide (0.5 µg ml–1, dissolved in H2O) is used.

What is the Southern blotting experiment? ›

Southern blotting (named after its inventor, E.M. Southern) refers to the transfer of the DNA to a nylon or nitrocellulose membrane by capillary transfer. The DNA of interest can be identified by hybridization to radioactive or chemiluminescent probes and visualized by autoradiography or staining.

What are the results of a Southern blot? ›

The results of a Southern blot are observed in the form of bands on the membrane. The size of the DNA fragments can be determined by comparing their relative size with the DNA bands of known lengths.

What is the principle behind Southern blotting? ›

Southern blotting is the transfer of DNA fragments from an electrophoresis gel to a membrane support, resulting in immobilization of the DNA fragments, so the membrane carries a semipermanent reproduction of the banding pattern of the gel.

What are the disadvantages of Southern blotting? ›

It is labour-intensive. It is not scalable (only a limited number of samples can be processed simultaneously). Many laboratories have discontinued their southern blotting services. Rarely, variants in restriction enzyme cutting sites can lead to atypical results.

What is the first step in Southern blot technique? ›

When a Southern blot is performed on a DNA sample, the first step is digestion of DNA with restriction enzymes. Restriction enzymes cut DNA at known sites, and produces DNA fragments of a certain length. Once the DNA is cut into pieces, scientists conduct electrophoresis to separate them by size.

What is the process of southwestern blotting? ›

SWB, similar to other blotting techniques, separates proteins (or DNA) by gel electrophoresis. The gel containing the separated proteins is electro-transferred (blotted) to a membrane, such as nitrocellulose (NC) or polyvinylidine difluoride (PVDF).

What are the steps involved in eastern blotting? ›

In the case of eastern blotting, the proteins are electrophoresed on polyacrylamide gel in order to separate them from the mixture. The proteins are then transferred to a nitrocellulose or nylon membrane, where the target molecules are detected by their specific interaction with the probes.

How do Southern blots work in MCAT? ›

Southern Blotting (DNA)

Here is a summary of how it works: DNA fragments are separated by size using agarose gel electrophoresis. The separated DNA fragments are transferred to a membrane. The membrane is probed with a labeled DNA probe that hybridizes to the target DNA sequence.

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