A Dynamic Natural Approach to Instruction, Biotechnology I: The Fusion of Imagination, and Inquiry

Edition: 1

Copyright: 2011

Pages: 340

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$97.24

ISBN 9781465225467

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Written specifically for Arizona's science and CTE standards, A Dynamic Natural Approach to Instruction, Biotechnology I: The Fusion of Imagination, and Inquiry includes 39 protocols perfected for students to preform in 50 minute lab periods. Good laboratory practices of sterility, chemical handling, and reproducibility are reinforced throughout this year-long text. Students perform solution preparation, DNA extraction, cellular transformation, protein harvesting and everything in between as they are introduced to the Biotechnology industry.

Each lab is written in student friendly language with essential vocabulary assignments and comprehension questions included. Students will be successful in this very hands-on program of study.
Acknowledgement
Lab 1: Key Events in the History of Biotechnology
Lab 2: Biotechnology Company Development
Lab 3: Bioscience in Arizona
Lab 4: How to Maintain a Legal Scienti?c Notebook
Lab 5: Safety in the Biotechnology Laboratory
Lab 6: Biotechnology General Lab Practices
Lab 7: Aseptic Technique
Lab 8: Quick Guides
Lab 9: Making Cheese in Biotechnology Lab
Lab 10: Biotechnology Careers
Lab 11: Preparing Effective Protocols
Lab 12: The Parts of a Standard Operating Procedure
Lab 13: Biotechnology Lab Format
Lab 14: Model Organisms Internet Activity
Lab 15: Small Volume Measurements with a Micropipet
Lab 16: Solution Preparation
Lab 17: Making a Bacterial Culture: Preparing Bacterial Cultures, Glycerol Stocks, and a Culture Log
Lab 18a: Microbiology for the Biotechnician
Lab 18b: Gram Stain Lab
Lab 19: The Chemistry Connection Between Electrolysis and Electrophoresis
Lab 20: Which Macromolecules are Found in an Egg?
Lab 21: Does DNA Look the Same in All Organisms?
Lab 22: Spooling DNA From Salmon Sperm
Lab 23: Making Agarose Gels and Running Buffer
Lab 24: Gel Electrophoresis
Lab 25: DNA Restriction Enzyme Computer Simulation Lab
Lab 26: Restriction Enzyme Digest of Lambda DNA
Lab 27: Ouchterlony Simulation Lab
Lab 28: Using the ELISA Assay for Disease Detection
Lab 29: Paper Transformation Activity
Lab 30: Bacterial Transformation
Lab 31: Extracting Plasmid DNA
Lab 32: PCR of pGLO™ DNA from Transformed E. coli
Lab 33: Rainbow Plasmids Transformation
Lab 34: Rainbow Protein Puri?cation
Lab 35: DNA Quanti?cation
Lab 36: Preparation of Chemi-Competent E. coli
Lab 37: Bioinformatics Paper Lab
Lab 38: Microarray Virtual Lab
Lab 39: What’s in My Soil?
Appendix A: Microsoft Excel® in Science Class: Tables and Graphing Review
Marshall Logvin
Nina Xan Simonson
Stephanie King
Amanda Cherry
Christine Remenih

eBook Version

You will receive access to this electronic text via email after using the shopping cart above to complete your purchase.


Written specifically for Arizona's science and CTE standards, A Dynamic Natural Approach to Instruction, Biotechnology I: The Fusion of Imagination, and Inquiry includes 39 protocols perfected for students to preform in 50 minute lab periods. Good laboratory practices of sterility, chemical handling, and reproducibility are reinforced throughout this year-long text. Students perform solution preparation, DNA extraction, cellular transformation, protein harvesting and everything in between as they are introduced to the Biotechnology industry.

Each lab is written in student friendly language with essential vocabulary assignments and comprehension questions included. Students will be successful in this very hands-on program of study.

Acknowledgement
Lab 1: Key Events in the History of Biotechnology
Lab 2: Biotechnology Company Development
Lab 3: Bioscience in Arizona
Lab 4: How to Maintain a Legal Scienti?c Notebook
Lab 5: Safety in the Biotechnology Laboratory
Lab 6: Biotechnology General Lab Practices
Lab 7: Aseptic Technique
Lab 8: Quick Guides
Lab 9: Making Cheese in Biotechnology Lab
Lab 10: Biotechnology Careers
Lab 11: Preparing Effective Protocols
Lab 12: The Parts of a Standard Operating Procedure
Lab 13: Biotechnology Lab Format
Lab 14: Model Organisms Internet Activity
Lab 15: Small Volume Measurements with a Micropipet
Lab 16: Solution Preparation
Lab 17: Making a Bacterial Culture: Preparing Bacterial Cultures, Glycerol Stocks, and a Culture Log
Lab 18a: Microbiology for the Biotechnician
Lab 18b: Gram Stain Lab
Lab 19: The Chemistry Connection Between Electrolysis and Electrophoresis
Lab 20: Which Macromolecules are Found in an Egg?
Lab 21: Does DNA Look the Same in All Organisms?
Lab 22: Spooling DNA From Salmon Sperm
Lab 23: Making Agarose Gels and Running Buffer
Lab 24: Gel Electrophoresis
Lab 25: DNA Restriction Enzyme Computer Simulation Lab
Lab 26: Restriction Enzyme Digest of Lambda DNA
Lab 27: Ouchterlony Simulation Lab
Lab 28: Using the ELISA Assay for Disease Detection
Lab 29: Paper Transformation Activity
Lab 30: Bacterial Transformation
Lab 31: Extracting Plasmid DNA
Lab 32: PCR of pGLO™ DNA from Transformed E. coli
Lab 33: Rainbow Plasmids Transformation
Lab 34: Rainbow Protein Puri?cation
Lab 35: DNA Quanti?cation
Lab 36: Preparation of Chemi-Competent E. coli
Lab 37: Bioinformatics Paper Lab
Lab 38: Microarray Virtual Lab
Lab 39: What’s in My Soil?
Appendix A: Microsoft Excel® in Science Class: Tables and Graphing Review

Marshall Logvin
Nina Xan Simonson
Stephanie King
Amanda Cherry
Christine Remenih