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DNA shuffling uses PCR technology in a very creative way. It allows you modify your protein to make a new protein you want. You can evolve proteins in microcentrifuge tubes on your very own lab bench. Isn’t that fantastic? DNA shuffling is also a very powerful technique for directed molecular evolution. W. Stemmer first used…
You have probably run a standard agarose gel hundreds of times. They are great for visualizing small DNA fragments up to 10 kb, but what if you want to examine really large pieces of DNA or even whole chromosomes? This is where pulsed field gel electrophoresis (PFGE) comes in! While the equipment required to run…
Restriction cloning, at its core, is quite simple. You simply cut the target vector and insert with the same enzymes, clean digested vector and insert up, ligate the two together, transform the ligated vector and insert into bacteria, and then screen. While getting each of the steps correct can be a bit of a hassle,…
Sonication is mostly used during preparation of protein extracts to help break apart the cell. Although most lysis buffers have buckets of detergent that lyse cell membranes, sonication just gives an extra hand in breaking everything apart. Sonication also breaks up, or shears, DNA in a sample—preventing it from interfering with further sample preparation. Have…
There is a growing trend in using microalgae as the expression system for heterologous proteins. However, I find most protocols dealing with microalgae available online are not that great or informative! So I would like to share my experience in using Chlamydomonas reinhardtii as the model microorganism. Before you start expressing your protein, you need…
Two years ago, all I knew was third BASE in my baseball field and the cutter ball from the pitcher. Now, I know a lot more about lab-based BASES and cutters: REBASE and NEBcutter. While they sound like baseball terms, REBASE and NEBcutter are tools for working with restriction enzymes. Read on to find out…
Plants are just not green gods—they can be more. You can cost-effectively express your recombinant complex proteins in a plant system. More interestingly, plants are ideal systems for producing functional monoclonal antibodies, enzymes, and vaccine components! They can also be used for protein localization studies. To save time, you can transiently express your protein using…
Apoptosis, often called programmed cell death, is a carefully regulated process that is part of normal development and homeostasis. Apoptosis is morphologically and biochemically distinct from necrosis, which is conversely called accidental cell death. Dysregulation of apoptosis is implicated in disease states such as cancer, autoimmune disease and degenerative conditions. Apoptosis consists of an orderly…
Sometimes the wide view is the best so a good genome viewer is a must for every molecular biologist. We review three leading genome viewer packages to get you started..
This is the first in a three-part series on the transformation of E.coli. By the end of this, you should be an expert on E.coli transformation and on which strains to choose for different applications. If you’re already an expert, I hope it’ll be an enjoyable refresher for you. In either case, please comment below…
There’s piloting a brand new technique for the first time. Then, there’s jumping through hoops trying to get an established lab technique to work. The former, in contrast to the latter, is expected to be fraught with hardships. Yet troubleshooting an old lab technique that isn’t working anymore, is frustrating at a whole new level….
You’ve tried all the usual stuff, and checked the primer sequences twice, but still can’t get that PCR fragment amplified. It’s time to enter the strange world of PCR additives. Over the years a variety of additives have been shown to enhance PCR reactions in certain situations. Here is a summary of some of the…
Now you’ve got great sequencing results, thanks to Nick’s article on improving sequencing results. Now what? Well now you need some software (preferably free) to analyze your data. BioEdit is a good option. But what I have to offer today is a much lighter and equally handy tool. It’s called Artemis and was developed by…
When restrictions come in the form of paperwork and approvals, we detest them. Whereas, when the restrictions come in the form of enzymes, we love them, don’t we? Restriction enzymes play a key role in biotechnology research. Read ahead for six useful facts about restriction enzymes. 1. Restriction enzymes are helpful to bacteria Restriction enzymes…
In part I, I answered the question, “How do proteins in thermophiles survive under high temperatures?“ In this part, I’ll look look at how nucleic acids survive -thrive, even- in conditions that are too hot for most of us, but ideal for a number of organisms, including the one that gave us Taq polymerase and…
You had been happily measuring your DNA samples with your NanoDrop for a while, until… you noticed that your results are not reproducible *gulp*.
Read on – here are 10 points that will help you troubleshoot the issue.
You open the incubator in the morning and to your dismay there are a hundred glorious colonies… on your vector-only control plate. While there are a number of potential causes, I’ll highlight a few of the more likely culprits and their solutions.
The ability for DNA polymerase to copy a long stretch of DNA is becoming increasingly important. Why? It has to do with the advances in our sequencing technologies. Our next generation sequencing (NGS) technology requires the DNA polymerase to copy a long stretch of DNA (sometimes up to 50kb) as NGS is churning out genetic…
Before I get into today’s topic, please allow me to digress a bit and start with a few sentences that sum up the polymerase chain reaction (PCR); the grand-daddy of molecular biology. PCR, a method that is at the heart of modern day molecular biology discoveries, is a process that amplifies genetic material through our…
Say you just joined a lab and have been assigned your very own project to work on. As part of your new responsibilities, you have to breed and maintain the mutant (or transgenic) mouse line which you will be using for your experiments. An integral part of mouse genetics experiments is determining the genotype of…
Formalin fixed paraffin embedded (FFPE) tissues are valuable samples that typically come from human specimens collected for examination of the histology of biopsies for the detection of cancer. But each sample contains much more information just waiting to be unlocked. Despite the tiny sample size, DNA can be extracted from the tissue sections and used…
Even in the most basic applications, fluorescence microscopy can be a very powerful technique. Simply put, the ability to actually see the biology you are interested in cannot be matched in directness. Often, the aim of fluorescence microscopy is to observe the effect of an experimental manipulation. Ultimately, you would like to know that the…
One of the most crucial steps in any cloning procedure is the preparation of the vector. Get it wrong and your chances of success will be drastically reduced. The overall aim for a good vector preparation is to obtain a fairly concentrated stock of undamaged, fully digested plasmid DNA that is free from contaminants. Missing…
Recently, I have witnessed the uprising of various next generation sequencing (NGS) platforms and it’s quite interesting because each platform uses a different method. Previously, I’ve written about the exciting possibility of nanopore sequencing—a new sequencing technology based on the “signature” electrical currents generated as a single strand of DNA passes through the nanopore. The…
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