Seventh Grade, Genetic Engineering Science Projects (4 results)
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.
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Try the annual Engineering Challenge from Science Buddies! Open to all students worldwide, a new challenge and prizes are announced every January. Explore the current challenge as well as ones from past years!
Have you ever heard or read about GMO?
GMO stands for
genetically modified
organisms.
Scientists can deliberately modify the DNA of organisms, such as bacteria or plants, to change their properties for a specific purpose. For example, crops can be modified to become more drought- or pest-resistant. Genetic engineering is a very powerful tool in biotechnology that has already found many different applications in agriculture, medicine, and industry. In this project, you will engineer a…
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In this engineering challenge, you will build a car powered by nothing but a rubber band. The farther the car goes, and the fewer materials you use to build it, the higher your score. Enter your score in the 2024 Science Buddies Engineering Challenge for a chance to win prizes! Teachers, lesson plan versions of this challenge are also available.
In this project, you'll learn how to isolate DNA from onion cells, separating it from other cellular components in a manner that still preserves its structure and sequence. In the end, you'll have enough DNA to see with the unaided eye, and you'll be able to spool it to demonstrate its strand-like structure.
New
Does your home have any pet doors or gates for dogs, cats, or other animals? Some automatic pet doors can be set up to allow only certain animals through. These doors can help you control which pets are able to go outside alone or which ones have access to specific food, litter boxes, or toys. But why buy such a door when you can make one? In this project you will build your own automatic pet door that works with a magnetic collar tag. Exactly how you use it is up to you!
Our genes are made up of hundreds to millions of building blocks, called DNA nucleotides, and if
just a single nucleotide of DNA becomes mutated it might cause a devastating genetic disease. But
sometimes a mutation actually does no damage. What kinds of mutations have to occur to cause a genetic disease?
In this science project, you will explore online genetic databases to identify how a mutation in a gene
can result in a dysfunctional protein, and how other mutations may have no effect…
Ever used a pair of molecular scissors? Restriction enzymes are molecular scissors that cut DNA into pieces. Find out which enzymes will cut, and where by making a restriction map. Then you can figure out what will happen if you change the sequence of the DNA. Will the same enzymes still cut the new DNA sequence?
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