What is the purpose of purifying DNA samples?
DNA purification is considered to be of vital importance for most methods involved in molecular biology, genomics, biotechnology and clinical research since it can help determine the success or failure of all your immediate and downstream experimentations. In a nutshell, DNA purification can help you:
Extract ample amounts of your genomic and/or plasmid DNA sample from a limited source to satisfy the requirements of your research.
Purify it to reduce the amount of contaminants that can compromise the results of your research and shorten the shelf-life of your precious samples.
DNA Purification – The Fundamental Steps Involved in the Process
Basically, you can purify your DNA samples by lysating your cell and/or tissue samples using the most appropriate procedure (mechanical disruption, chemical treatment or enzymatic digestion), isolating the nucleic acids from its contaminants and precipitating it in a suitable buffer solution.
There are a number of techniques used in purifying genomic and plasmid DNA samples. These include the following:
Salting out using an appropriate cosmotrope such as potassium acetate
Extraction using organic solvents and chaotropes (guanidium salts)
Glass milk/silica resin-based strategies
Anion exchange strategies
Hydroxyapatite-based strategies
Cesium chloride (CsCl) purification
Affinity techniques using triple helix affinity resins and/or chemically modified silica resin
Since there are a lot of techniques to choose from, you should take the following criteria into consideration to determine the most suitable purification method for your sample:
Target nucleic acid
Source organism and starting material
Desired results
Downstream application
To make the process less time-consuming, biochemical companies developed genomic isolation kits that will suit a wide array of applications. There are also a number of products available for the isolation, transformation and high throughput screening of plasmids.