Fundamental Bacterial Genetics
By
Nancy Trun (Author) Janine Trempy (Author)
Paperback
Available / dispatched within 1 - 4 weeks
Quantity
Description
Fundamental Bacterial Genetics presents a concise introduction to microbial genetics. The text focuses on one bacterial species, Escherichia coli, but draws examples from other microbial systems at appropriate points to support the fundamental concepts of molecular genetics.
A solid balance of concepts, techniques and applications makes this book an accessible, essential introduction to the theory and practice of fundamental microbial genetics.
FYI boxes - feature key experiments that lead to what we now know, biographies of key scientists, comparisons with other species and more.
Study questions - at the end of each chapter, review and test students' knowledge of key chapter concepts.
Key references - included both at chapter end and in a full reference list at the end of the book.
Full Chapter on Genomics, Bioinformatics and Proteomics - includes coverage of functional genomics and microarrays.
Dedicated website - animations, study resources, web research questions and illustrations downloadable for powerpoint files provide students and instructors with an enhanced, interactive experience.
About the Author
Janine E. Trempy, Ph.D., is an Associate Professor of Microbiology and the Associate Dean in the College of Science at Oregon State University. She has received numerous research and teaching awards from Oregon State University, and in 1996 she was named by the Carnegie Foundation/CASE as Oregon Professor of the Year for her development and use of innovative inquiry based cooperative learning environments. She was a Waksman/American Society for Microbiology Traveling Lecturer, presenting lectures focusing on science education reform. Her research focus is on bacterial crisis management systems, microbial applications (i.e. biosensor development; food safety) and developing inclusive learning environments that enhance science literacy. Nancy Trun is an Assistant Professor in the Dept of Biological Sciences at Duquesne University where she teaches undergraduate and graduate level microbial genetics. She has taught microbial genetics courses at the University of Maryland and at Cold Spring Harbor Laboratory and received the National Institutes of Health Director's Award for science education at the elementary school level. Currently, her research focus is on chromosome folding in bacteria.
More Details
- Contributor: Nancy Trun
- Imprint: Wiley-Blackwell
- ISBN13: 9780632044481
- Number of Pages: 302
- Packaged Dimensions: 221x277x19mm
- Packaged Weight: 753
- Format: Paperback
- Publisher: John Wiley and Sons Ltd
- Release Date: 2003-08-21
- Binding: Paperback / softback
- Biography: Janine E. Trempy, Ph.D., is an Associate Professor of Microbiology and the Associate Dean in the College of Science at Oregon State University. She has received numerous research and teaching awards from Oregon State University, and in 1996 she was named by the Carnegie Foundation/CASE as Oregon Professor of the Year for her development and use of innovative inquiry based cooperative learning environments. She was a Waksman/American Society for Microbiology Traveling Lecturer, presenting lectures focusing on science education reform. Her research focus is on bacterial crisis management systems, microbial applications (i.e. biosensor development; food safety) and developing inclusive learning environments that enhance science literacy. Nancy Trun is an Assistant Professor in the Dept of Biological Sciences at Duquesne University where she teaches undergraduate and graduate level microbial genetics. She has taught microbial genetics courses at the University of Maryland and at Cold Spring Harbor Laboratory and received the National Institutes of Health Director's Award for science education at the elementary school level. Currently, her research focus is on chromosome folding in bacteria.
Delivery Options
Home Delivery
Store Delivery
Free Returns
We hope you are delighted with everything you buy from us. However, if you are not, we will refund or replace your order up to 30 days after purchase. Terms and exclusions apply; find out more from our Returns and Refunds Policy.