Genetic engineering, also called gene editing or genetic modification, is the process of altering an organism's DNA in order to change a trait. This can mean changing a single base pair, adding or deleting a single gene, or changing an even larger strand of DNA. Using genetic engineering, genes from one organism can be added to the genome of a completely different species. It is even possible to experiment with synthesizing and inserting novel genes in the hopes of creating new traits.
Many products and therapies have already been developed using genetic engineering. For example, crops with higher nutritional value, improved taste, or resistance to pests have been engineered by adding genes from one plant species into another. Similarly, expression of a human gene in yeast and bacteria allows pharmaceutical companies to produce insulin to treat diabetic patients. In 2020, scientists had their first successful human trial with CRISPR (a genetic engineering technique), to correct a mutant gene that causes sickle cell anemia, a painful and sometimes deadly blood disease.
There are many different genetic engineering techniques, including molecular cloning and CRISPR, and new techniques are being developed rapidly. Despite this variety, all genetic engineering projects involve carrying out four main steps:
Identifying the trait to be introduced, eliminated, or otherwise modified.
Determining what piece of DNA needs to be added or removed in order to get the desired trait modification.
Making the physical modifications to the organism's DNA.
Verifying that the trait has been modified as desired.
Learn more about genetic engineering, and even try your hand at it, with these resources.
Can you imagine a glowing loaf of bread? You might not be able to make the whole loaf glow, but you can get baker's yeast to fluoresce! The way to do this is to modify the genetic information of the yeast organism. The technology that is used to do this is called genetic engineering. With genetic engineering, you can insert a fluorescent protein gene from a jellyfish into yeast cells, so they start glowing under blue light! Do this project to see for yourself!
Many scientists are currently very excited about CRISPR, as it has the potential to revolutionize gene editing. But what exactly is CRISPR and what does it do? CRISPR is a novel tool in gene editing that allows the modification of genetic DNA at specific target sites in many different organisms. Researchers have high hopes that this technology can, one day, cure genetic diseases, as mutated DNA sequences can easily be corrected. In this project, you will use CRISPR to mutate a DNA sequence…
Genetically modified organisms (GMOs) are organisms whose DNA have been manipulated to give them new traits. In genetically modified (GM) food crops traits like resistance to drought or pesticide might be added, or the crop may have been made more nutritious, or the taste may be altered to give you something like the impossible burger. Are there GMOs in your favorite foods? Many countries have implemented or are in the process of implementing GMO labeling on foods, but with a little bit of…
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Can bacteria be altered to produce life-saving insulin for diabetics? Or change color to indicate the presence of a harmful toxin? Yes, it can! Using biotechnology, scientists work daily on problems like these. It starts with selecting a gene you want bacteria to produce and creating a sequence of DNA that has that gene and a promoter that will help express it at the right time and at the right levels. The next hurdle is actually getting this engineered DNA into the bacteria and…
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BioBuilder What a Colorful World Kit …
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