Make the Biotechnology Explorer™ program a part of your professional development plan for 2013 by attending Bio-Rad's free teacher workshops offered at conferences around the U.S. and Canada. New scientific discoveries and technologies create more content for you to teach, but not more time. Biotechnology Explorer kits help you teach more effectively by integrating multiple core content subjects into a single unit. Learn to integrate hands-on molecular biology lab activities into your biology lessons. From career entry to mastery, Bio-Rad's workshops provide standards-based professional development for educators at the middle school, high school, and undergraduate levels.
Click on the link for the conference you are interested in to get more information about how to register and attend the conference. Our professional development workshops are free and require no preregistration; however, you may need to pay a registration fee to attend the conference.
How do you fit a person in a bottle? Your DNA contains all of the information that makes you who you are. Isolate your own DNA and capture your unique essence in a stylish necklace!
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What do pigs and people have in common? Swine flu is thought to be a rearrangement of four known strains of influenza A virus: one normally infecting humans, one normally infecting birds, and two normally infecting pigs (swine). The new strain, H1N1, is transmitted from person to person. An ELISA assay is a powerful diagnostic tool that enables the rapid detection of disease-causing agents such as H1N1. Discover how this disease is transmitted using a hands-on ELISA experiment and also learn how vaccinations work.
What happens when you cross a jellyfish with E. coli? You can create your own pGLO green glowing bacteria! By the end of this workshop, you'll become an actual genetic engineer — modifying genes and transforming bacteria with the green fluorescent protein (GFP). AP Biology Lab 6. Participants receive a free UV pen light and lab prep DVD!
Don't stop at cloning the gene — identify the protein responsible for the green fluorescence! Take white and green colonies from your transformed plates, prepare sample lysates, and identify the pGLO protein on SDS-PAGE gels. DNA > RNA > Protein > Trait — Green Fluorescence!
Use restriction enzyme digestion and DNA gel electrophoresis (popularly known as DNA fingerprinting) to determine, based on DNA evidence, which of a number of suspects could have committed the crime. Extend this kit with a plasmid mapping activity using the plasmid DNA restriction patterns from the experiment. AP Biology Lab 6.
Use DNA gel electrophoresis (popularly known as DNA fingerprinting) to determine, based on DNA evidence, which of a number of suspects could have committed the crime. Extend this kit with a plasmid mapping activity using the plasmid DNA restriction patterns from the experiment. AP Biology Lab 6.
Which human DNA sequences are used in crime scene investigations and why? In this hands-on workshop, you will learn to use the polymerase chain reaction (PCR) and gel electrophoresis to identify which suspects can be exonerated — based on DNA evidence. Learn how the statistics of chance are integral to modern DNA fingerprinting.
Have your favorite foods been genetically modified (GM)? This hands-on workshop teaches the basics of DNA extraction, PCR, and gel electrophoresis and how these techniques are used to test common grocery store food products for the presence of GM foods. Are GM crops a good thing? Regardless of where you stand in the GM debate, wouldn't it be interesting to know which of the foods that you eat are GM?
Learn how to clone a gene when you don't know the DNA sequence. In this workshop, you will learn how to use degenerate and nested PCR primers to amplify the highly conserved housekeeping gene GAPDH as the first step towards cloning.
In this hands-on workshop, you will generate protein profiles from distant and closely related species of fish using gel electrophoresis. Test the hypothesis that protein profiles are indicators of evolutionary relatedness and construct cladograms from your own gel results. Learn about proteomics and explore the central mantra of biology: DNA > RNA > Protein > Trait.
Take protein electrophoresis to the next level and explore evolution using western blotting to specifically identify a protein using immunodetection. In this workshop, you will identify the myosin light chain protein from hundreds of other muscle proteins present in prerun protein profile polyacrylamide gels. Attendance in the Protein Profiler workshop is highly recommended but not required.
Real-time PCR is fast becoming one of the most vital tools in medical and genomic research. In this workshop, you will understand the molecular basis of DNA amplification using real-time technology and discover the different applications for PCR and real-time PCR. Give your students a competitive edge in the real world of biotechnology research.
Finally, a quick, easy, visual way to teach the principals of chromatography! This 45-minute lab can be prepared in 5 minutes. Chromatography is a powerful method for separating complex mixtures into component parts based on molecular properties. You will separate a mixture containing the naturally pigmented molecules vitamin B12 and hemoglobin using size exclusion chromatography.
Introduce your students to microbiology using yogurt! In this lab, students isolate bacteria from yogurt on a Petri dish and then use those strains to inoculate fresh milk to produce more yogurt. Learn about disease transmission and progression, and apply Koch's postulates. Teach microbiology, microscopy, health science, and biology with one lab.
Explore the nutritional value of common beverages from milk to sports drinks using the Bradford assay. This versatile lab can be done qualitatively or quantitatively with a spectrophotometer. This is the perfect lab to integrate physics, chemistry, and biology.
What happens when you cross a jellyfish with E. coli? You can create your own pGLO green glowing bacteria! By the end of this workshop, you'll become an actual genetic engineer — modifying genes and transforming bacteria with the green fluorescent protein (GFP). Next, you'll purify GFP from transformed bacteria using a key process in biomanufacturing — chromatography. AP Biology Lab 6. Participants receive a free UV pen light and lab prep DVD!
Finally, a wet lab to apply the Hardy-Weinberg principle! Learn how trace amounts of DNA are used by forensic scientists to identify genetic ancestry. Using the PV92 PCR Informatics kit, you will extract the DNA from your own cheek cells (or hair follicles) and use the polymerase chain reaction (PCR) and gel electrophoresis to identify inherited variations in your own genotype at the PV92 locus. Learn how to apply DNA fingerprinting to test Hardy-Weinberg equilibrium theory within your own classroom population — and how to go online to compare your classroom results to population data around the world with bioinformatics.
Get your students published in GenBank! In this unique modular lab series, students are guided through an innovative research workflow identical to those performed in genomics labs worldwide. Learn about this multiple-week lab course, in which students combine traditional and cutting-edge molecular biology techniques and bioinformatics to clone, sequence, and analyze a housekeeping gene from a plant of your choice, ensuring that each class produces unique and novel data.
Biotech is where it's at! Learn about the nation's leading biotech programs and find out how they got to where they are now. Learn how to set the foundation for engaging students using relevant real-world lab experiences and what building blocks will allow you to continue to address the world's rapidly changing scientific landscape.
In this unique modular lab series, students are guided through an innovative research workflow identical to those performed in genomics labs worldwide. Learn about this multiple-week lab course, in which students combine traditional and cutting-edge molecular biology techniques and bioinformatics to clone, sequence, and analyze a housekeeping gene from a plant of your choice, ensuring each class produces unique and novel data. Work through several modules hands-on to learn advanced techniques and informatics analysis.
Need energy? Reveal the power of enzyme kinetics by illustrating the theory through a real-world application to biofuels. Through guided inquiry activities, your students will determine how temperature, pH, concentration of substrate, and concentration of enzyme affect an enzymatic reaction. In this workshop, you will determine the rate of reaction for the enzyme cellobiase — a key enzyme in the production of cellulosic ethanol (a highly researched biofuel). Can biofuels solve global warming? Let your students decide if this is possible! AP Biology Lab 2.
Whether you want to introduce hands-on laboratory coursework or build an entire biotechnology program at your school, this workshop will help you get started turning your dreams into reality. You'll receive grant writing tools, including samples of proposals, letters of support, budgets, and justifications. For a practical application of the new tools, participants are encouraged to submit proposals for a competitive grant from Bio-Rad for $500 in materials.
Transformation is just one step in the process of creating novel proteins for medical, environmental, and research applications. Once your pGLO transformation is complete, you can use the molecular factory within E. coli to mass produce your designer protein, green fluorescent protein (GFP). Discover more about GFP and how genetic engineers use the properties of designer proteins to isolate it from a complex mixture of bacterial proteins by purifying GFP from transformed bacteria using a key process in biomanufacturing — chromatography.
From industrial enzymes to cancer therapy — protein purification is essential! Learn how easy it is to teach the core process of protein expression and purification using the clear and concise modules in the Protein Expression and Purification Series (available summer 2011). Based on affinity purification, the series provides an adaptable set of techniques and content to match the goals of the beginning protein educator up to an advanced college level course. Discover more about this series, including how dihydrofolate reductase, DHFR, is a target for certain cancer treatments, and how the protein expression and purification process can be relevant to the world of biomanufacturing.
What's in your candy? Extract the colorful food dyes from candy and separate them on a do-it-yourself agarose electrophoresis box to identify what dyes were used to make them so appealing. This inquiry-based activity makes for a great skills lab by teaching pipetting, gel electrophoresis, and making solutions with stunning results. Turn this into a complete science, technology, engineering, and mathematics (STEM) activity by allowing your students to build their own horizontal electrophoresis box to investigate the science and engineering behind a workhorse in the biotechnology lab.
In this hands-on workshop, you will learn how easy it is to integrate evolution activities into your biology curriculum. Come try our innovative products!
Learn how to achieve rapid and robust results in western blotting using Bio-Rad's innovative V3 Western Workflow™ (stain-free rapid blotting), which incorporates stain-free technology with rapid blotting using the Trans-Blot® Turbo™ transfer system. The V3 Western Workflow provides the ability to immediately visualize, verify, and validate protein blotting results at several key steps of the experimental procedure. For optimal speed and ease of use, the entire V3 Western Workflow or selected sections, according to need, can be applied to western blotting experiments to increase time savings.
Clone a key glycolysis gene and integrate transformation, PCR, electrophoresis, sequencing, and bioinformatics in one student-led project. This workshop will focus on BLAST analysis and learning objectives alignment.
Extract genomic DNA, amplify it with PCR, and classify species using sequencing and bioinformatics to determine if that fish you just bought is really what the label says it is. Also learn about the International Barcode of Life initiative, which uses this technology, and find out how you can contribute to this global genetic repository for barcodes of all species.
How do genes influence behavior? Use the model organism C. elegans (a nematode) to answer this question in an engaging activity that compares normal and mutant worm behavior. We will use a simple and fast chemotaxis assay to explore worm taste preferences and examine the connection of our worm mutant to human diseases. Come see this great alternative AP fruit fly behavior lab!
In this hands-on workshop, learn how natural and synthetic pigments can be extracted and separated based upon their molecular properties. These biotechnology separation techniques cut across the chemistry and biology curricula, and are easy to bring into the classroom.
Using pGLO as an example, learn how to ask simple questions about labs you already do to make them inquiry based instead of "cookbook".
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