Biotechnology Research and Development Model
Units:
- The Role of Biotechnology
- Making Cheese
- Careers in Genetic Technology
- DNA Origami
- Lights, Camera, Action! The Biotech Experience: Introduction
- Making Apple Juice
- Lights, Camera, Action! The Biotech Experience: Storyboarding
- Lights, Camera, Action! The Biotech Experience: Filming
- Lights, Camera, Action! The Biotech Experience: Post-Production
- Web Page Design in Biotechnology
- Researching Biotechnology Companies for the Purpose of Investment
- Investing in Biotechnology Companies
- Root Beer Making
- How to Set Up a Legal Scientific Notebook
- Current Events in Biotechnology
- Mathematical and Scientific Concepts
- Getting to know each other! Our phenotypes and genotypes
- Metric Measurements
- Using C1V1=C2V2
- DNA Ornament
- Solutions, Measurements and Data Analysis - Olson
- Chromosomes and the Human Genome - Olson
- Mapping Central Dogma
- Antibodies
- Ouchterlony Test: Antibody Simulation
- Understanding Relative Sizes in Worlds We Don't See
- Biofuel Enzyme Kit
- Plant Tissue Culture
- Biotechnology Components and Fields
- Genetic Engineering with Bio-Rad pGLO
- Recombinant DNA Paper Lab
- Bioprospecting and Herbicide Development
- Environmental Microbiology and development of antibiotics
- Biotechnology Career Research Project
- Understanding Sequencing
- Anticipatory Set
- Lecture/Computer Simulations
- Modeling the Activity
- Student Models
- Bioinformatics - Primer Design
- Spectrophotometric Analysis of Phytoplankton Growth
- Laboratory Techniques and Safety
- Biotechnology Lab Equipment
- Micropipette Use
- Loading a Gel
- DNA Extraction Lab
- Polymerase Chain Reaction - Pre Lab (Part 1)
- Polymerase Chain Reaction - Virtual Lab (Part 2)
- Polymerase Chain Reaction - Lab
- Epidemiology Lab - Viral Transmission
- Microscopy- Observing Prepared Slides
- Sterile Transfer Techniques/ Starting a Broth Culture
- Microscopy- Preparation of wet mounts
- Microscopy- Gram Staining Techniques
- Microscopy- Introduction
- Chromatography
- How to Make LB Agar
- Plant Extraction Lab
- Intro to Gel Electrophoresis Lab
- DNA Gel Electrophoresis Lab
- Liquid Media/ Bacteria Identification
- Why Aseptic Technique?
- Bacteria Isolation/ Streak Plates
- The Effect of Hormone Concentration on Plant Propagation
- Plant as a gift
- Effect of Hormone Concentration on Plant Propagation Lab
- Day 1 Filter Rootone
- Day 2 Lecture and Serial Dilution
- Day 3 Make Fuchsia holding containers
- Day 4 Make Data Tables
- Students observe or record data daily or weekly
- Analyze Graphs and Conclusion
- Students plant successful fuchsias and give out as gifts.
- Student Safety Video by Students
- Pipette Pointillism
- Product Design, Procedures, Licensure and Regulations
- Ethical, Moral, Legal, and Cultural Issues
Tags
Activity Originally Created By:
Tina Doss
Lecture/Computer Simulations
Part of Lesson Plan: Understanding Sequencing
Activity Overview / Details
The sequencing PowerPoint can be used a couple of slides a day for 10-15 minutes or all eight slides can be used at once. Slides 5-7 have computer simulations. Simply click on the picture and it will open a new page on your internet browser, taking your class directly to the simulation. Teachers may run the PowerPoint with an LCD/ SmartBoard and have students do the simulations (slides 5-7) on personal computers if available. The simulations may also be run as a class with an LCD/ SmartBoard. After concluding the lecture (slides 1-7), have students make four copy down four large squares (as shown on slide 8) and fill it out. Teacher circulates and aids students filling out as needed. The lecture portion should take 10-15 minutes over two periods or 20-30 minutes over one class period.
Materials / Resource
Sequencing Lecture
[
Download
]
