In this lesson, students will prepare samples for baking and then bake …
In this lesson, students will prepare samples for baking and then bake them before defining cellular respiration and its by-products. Then they will explain the process of fermentation and how it is used in bread making before recording, analyzing, and interpreting the results of the bread-making experiment.
In this lesson, students will identify the product life cycle, define the …
In this lesson, students will identify the product life cycle, define the development and validation process, and design and prepare the development lot.
In this lesson, students will complete development lots and understand the effect …
In this lesson, students will complete development lots and understand the effect of various ingredients and processes in bread making. Then they will evaluate development lots and choose procedure for validation lots.
In this lesson, students will complete Validation Lots and understand the process …
In this lesson, students will complete Validation Lots and understand the process of lot control and archiving samples before analyzing any variances or unexpected results.
In this lesson, students will define electrophoresis and distinguish between vertical and …
In this lesson, students will define electrophoresis and distinguish between vertical and horizontal gel electrophoresis. Then they will explain the relationship between agarose concentration and pore space before calculating % agarose and the mass of powdered agarose needed for specific agarose concentration. Finally, they will outline the steps in agarose gel electrophoresis.
In this lesson, students will construct standard curve for Hind III cut …
In this lesson, students will construct standard curve for Hind III cut DNA using semi-log graph paper and explain the relationship between number of base pairs and distance migrated before calculating the size of the DNA fragments cut with EcoRI.
In this lesson, students will explain the similarities and differences between DNA …
In this lesson, students will explain the similarities and differences between DNA and RNA structure, list the different types of RNA and describe their function, explain the central dogma of molecular biology, and explain the genetic code table.
In this lesson, students will design an experiment to separate DNA fragments …
In this lesson, students will design an experiment to separate DNA fragments by agarose gel electrophoresis under two different conditions either varying pH, voltage, or % agarose. They will calculate and prepare the necessary solutions required to perform the experiment.
In this lesson, students will estimate the size of Pst I Cut …
In this lesson, students will estimate the size of Pst I Cut DNA fragments from their agarose gels. Then they will explain how to identify a specific DNA fragment that encodes for a blood-clot-dissolving enzyme.
In this lesson, students will model pouring molten agarose and loading DNA …
In this lesson, students will model pouring molten agarose and loading DNA samples into agarose gels, then separate DNA Fragments using agarose gel electrophoresis and explain how methylene blue stains DNA.
In this lesson, students will define restriction enzyme and explain how restriction …
In this lesson, students will define restriction enzyme and explain how restriction enzymes work. Then they will model how restriction enzymes work using a game simulation and explain the use of restriction enzymes in DNA fingerprinting.
In this lesson, students will define restriction fragment length polymorphism (RFLP) and …
In this lesson, students will define restriction fragment length polymorphism (RFLP) and explain how RFLP are constructed. Then they will explain the role of VTNRs in RFLP and identify uses of VTNR analysis before modeling how VTNRs are used in DNA profiles.
In this lesson, students will describe the structure of DNA, list the …
In this lesson, students will describe the structure of DNA, list the components that make up a nucleotide, distinguish between a purine and pyrimidine, and explain complementary base pairing.
In this lesson, students will explain the purpose of Southern blot hybridization …
In this lesson, students will explain the purpose of Southern blot hybridization and describe the process of making a southern blot. They will define radioactive DNA probe and explain how DNA probes are used to visualize DNA.
In the lesson, students will describe and operate fume/laminar flow hoods as …
In the lesson, students will describe and operate fume/laminar flow hoods as well as know how to use an autoclave, and explain when an autoclave, fume hood, and laminar flow hood are necessary for use in a lab.
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