Biotechnology could most likely prove harmful either through the unintended consequences of benevolent research or from the purposeful manipulation of biology to cause harm. One could also imagine messy controversies, in which one group engages in an application for biotechnology that others consider dangerous or unethical.

Agricultural biotechnology uses biological processes to develop technologies and products that address farming challenges. In the face of a rising world population, the agricultural industry is seeking solutions for how to produce enough food to feed more people. The Biotechnology Program includes a state-of-the-art technical research experience provided by local biotechnology companies and research facilities/ labs at local universities including University of. At its simplest, biotechnology is technology based on biology - biotechnology harnesses cellular and biomolecular processes to develop technologies and products that help improve our lives and the health of our planet. We have used the biological processes of microorganisms for more than 6,000 years to make useful. Biotechnology is the industry that uses the molecules of life (DNA, RNA, and proteins mostly) to treat and diagnose disease. We report on the latest biomedical science and technological research.

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Use these free STEM lesson plans and activities to teach students about biotechnology—options for all grade levels!

Biotechnology involves using biological processes and systems to make or improve products. Using yeast to make bread is often offered as a simple example of biotechnology, as a living organism (yeast) is used to make a specific food product (bread). Many people think of biotechnology, however, in more cutting-edge contexts, specifically within areas of medicine, genetics, food and agriculture, and environmental sciences.

Because biotechnology is positioned at the nexus of biology and chemistry, teachers can introduce students to biotechnology at all grade levels with projects and activities that focus on chemistry, genetics and genomics, biochemistry, and microbiology.

Science Buddies has biotechnology lessons and activities that can be used with students at all grade levels.

Biotechnology and K-5

Students in elementary school can explore the structure of DNA and the role of enzymes with hands-on activities like: Candy DNA, Paper DNA, Strawberry DNA, and What Do Enzymes in Pineapple Juice Do to Milk?.

Candy DNA Model

In the Make A Candy DNA Model activity, students use candies to make a model of a segment of DNA and then give it a twist.

Paper DNA Model

In the Colorful Double Helix, A Gene-ius Activity activity, students make models of DNA using paper, markers, and tape.

Spooling Strawberry DNA

In the Do-It-Yourself DNA activity, students extract DNA from strawberries and see firsthand what DNA looks like when spooled.

Mixing Milk and Pineapple Juice

The What Do Enzymes in Pineapple Juice Do to Milk? lesson teaches elementary school students about the role enzymes play in chemical reactions. Enzymes play a role in the human body and can also be used to create and control other reactions.

Make Art with Bacteria

In the Create a Painting with Genetically Modified Bacteria activity, students learn about gene editing and genetic engineering and explore by using colorful genetically modified bacteria to create a painting.

Elementary school students doing independent science projects or science fair projects can explore biotechnology questions with projects like these:

Biotechnology in Middle School

Phenotypes and Genotypes

With the Investigate Alien Genetics lesson, middle school students can learn about phenotypes and genotypes as they use principles of genetics to see what characteristics an 'alien baby' will have based on the traits of the parents.

Gene Mutations

The How Gene Mutations Change Your Ability to Taste lesson uses a phenylthiocarbamide (PTC) taste test to teach students about genetic mutation in a hands-on and immediately accessible way. How many students will be taste-sensitive to the PTC strip and what does that tell them about genetic mutation?

Middle school students interested in learning more about biotechnology with an independent science project may be interested in:

Biotechnology in High School

CRISPR Technology and CRISPR-Cas9

In the CUT! How Does CRISPR Work? lesson, students model CRISPR-Cas9 components and demonstrate their understanding of CRISPR technology by making a stop-motion animation video.

Enzymes and Substrates

In the Control the Reaction Rate of a Foaming Reaction chemistry lesson, students explore how to use enzymes and substrates to control the rate of a reaction.

High school students can continue exploring biotechnology with independent science projects like these:

Careers in Biotechnology

Because biotechnology is a multi-disciplinary area, there are a number of STEM careers someone interested in biotechnology might pursue. Students can learn more about relevant career paths in the following career profiles:

Development of resources for K-12 educators to teach biotechnology was made possible through generous support from Amgen Foundation.
To learn more about the Amgen Foundation, visit AmgenInspires.com.

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Biotechnology Examples

• Reverse Engineering 3D Chromosome Models for Individual Cells
• Feces and Algorithms: Artificial Intelligence to Map Our Intestinal Bacteria
• Physical Virology Shows the Dynamics of Virus Reproduction
• Cancer Research Reveals How Mutations in a Specific Gene Cause Different Types of Disease

• Asian Butterfly Mimics Other Species to Defend Against Predators
• Evolution: Speciation in the Presence of Gene Flow
• Researchers Uncover Viral Small RNAs in Mosquito Cells
• Scientists Find Antibody That Blocks Dengue Virus

• Gene-Editing Produces Tenfold Increase in Superbug Slaying Antibiotics
• New Method Helps pocket-sized DNA Sequencer Achieve Near-Perfect Accuracy
• DNA in Water Used to Uncover Genes of Invasive Fish
• A Bucket of Water Can Reveal Climate Change Impacts on Marine Life in the Arctic
• Comprehensive Characterization of Vascular Structure in Plants

• Cracking the Code of a Shapeshifting Protein
• Researchers Engineer Novel Disease Model to Identify Potential Targets for Ulcerative Colitis Drugs
• Bacterium Produces Pharmaceutical All-Purpose Weapon
• How Different Plants Can Share Their Genetic Material With Each Other
• Uncovering Basic Mechanisms of Intestinal Stem Cell Self-Renewal and Differentiation

Biotechnology Definition

• A Beginner's Guide to DNA Origami

• Bacteria Can Tell the Time
• Unravelling the Mystery That Makes Viruses Infectious
• Single-Dose COVID-19 Vaccine Triggers Antibody Response in Mice
• Scientists Paint Multicolor Atlas of the Brain
• Antibiotic Resistance from Random DNA Sequences
• High-Speed Atomic Force Microscopy Visualizes Cell Protein Factories

• New Mechanism Underlying Male Infertility
• Patterns in Primordial Germ Cell Migration
• Ancient DNA Analysis Reveals Asian Migration and Plague
• Response to Infection Therapy Better Understood Thanks to a New Technique
• Where Antibiotic Resistance Comes from

• Shiga Toxin's Not Supposed to Kill You
• Wait for Me: Cell Biologists Decipher Signal That Ensures No Chromosome Is Left Behind
• Designer Protein Patches Boost Cell Signaling
• Competitive Athletics: Detecting CRISPR/Cas Gene Doping

• Natural Products With Potential Efficacy Against Lethal Viruses
• Making Therapeutic Sense of Antisense Oligonucleotides
• Integrator: A Guardian of the Human Transcriptome
• Deep Neural Network Predicts Transcription Factors
• New Imaging Method Reveals If Antibiotics Reach Bacteria Hiding in Tissues

• Study Resolves Long-Running Controversy Over Critical Step in Gene Silencing
• New Study on Circadian Clock Shows 'junk DNA' Plays a Key Role in Regulating Rhythms
• Antibiotic-Resistant Bacteria: Fluoride to the Rescue?

• Sugars Influence Cell-to-Surface Adhesion
• Protein Twist and Squeeze Confers Cancer Drug Resistance

• High-Speed Atomic Force Microscopy Takes on Intrinsically Disordered Proteins
• Chemists Develop a New Drug Discovery Strategy for 'undruggable' Drug Targets
• Switching DNA Functions on and Off by Means of Light
• Discovery Boosts Theory That Life on Earth Arose from RNA-DNA Mix

Biotech X Ray

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• A Powerful Computational Tool for Efficient Analysis of Cell Division 4D Image Data
• How a Large Protein Complex Assembles in a Cell
• Brain Gene Expression Patterns Predict Behavior of Individual Honey Bees
• Frozen: Cutting-Edge Technology Reveals Structures Within Cells
• Neuroscientists Isolate Promising Mini Antibodies Against COVID-19 from a Llama

• Biotech Cotton Key to Eliminating Devastating Pest from US and Mexico
• New 3D Maps Reveal Inner Workings of Immune Cell Gene Expression
• Variety: Spice of Life for Bumble Bees
• Fungal RNA Viruses: Unexpected Complexity Affecting More Than Your Breakfast Omelet
• How Colorado Potato Beetles Beat Pesticides
• Targeting the Deadly Coils of Ebola
• How Cancers Hurt Themselves to Hurt Immune Cells More

• Plants Can Be Larks or Night Owls Just Like Us

• Scientists Get the Most Realistic View Yet of a Coronavirus Spike's Protein Structure
• New Mechanism of Force Transduction in Muscle Cells Discovered
• Cell Atlas of Tropical Disease Parasite May Hold Key to New Treatments
• New Insights Into Cholera Microbe and Chances of Pandemic Strain
• Engineers Reveal Molecular Secrets of Cephalopod Powers

• Scientists Set a Path for Field Trials of Gene Drive Organisms
• Study Tracks Elephant Tusks from 16th Century Shipwreck
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