![Microbial Protein Toxins](https://d3525k1ryd2155.cloudfront.net/f/620/235/9783540235620.IN.0.m.jpg)
Microbial Protein Toxins Hardcover - 2005 - 2005th Edition
by Manfred J. Schmitt (Editor); Raffael Schaffrath (Editor)
- Used
- very good
- Hardcover
Description
Standard delivery: 14 to 28 days
Details
- Title Microbial Protein Toxins
- Binding Hardcover
- Edition number 2005th
- Edition 2005
- Condition Used - Very Good
- Pages 237
- Volumes 1
- Language ENG
- Publisher Springer-Verlag Berlin and Heidelberg GmbH & Co. K
- Date 2005
- Illustrated Yes
- Features Bibliography, Illustrated, Index, Table of Contents
- Bookseller's Inventory # E-952-163
- ISBN 9783540235620 / 3540235620
- Weight 1.17 lbs (0.53 kg)
- Dimensions 9.45 x 6.42 x 0.71 in (24.00 x 16.31 x 1.80 cm)
- Dewey Decimal Code 615.952
About AMMAREAL France
Ammareal is a professional bookseller specialized in used books. We ship worldwide. We have more than 1 million books in stock, including a large number of technical and university-level books. We give back up to 15% of the price of each book to charities, libraries and organizations fighting in favor of literacy. What we do not sell, we give ; what we do not give, we recycle.
From the rear cover
Since the initial establishment of Robert Koch's postulates in the nineteenth century, microbial protein toxins have been recognized as a major factor of bacterial and fungal virulence. An increasing number of proteins produced and secreted by various bacteria, yeasts and plants are extremely toxic and most of them developed remarkably "intelligent" strategies to enter, to penetrate and to finally kill a eukaryotic target cell by modifying or blocking essential cellular components.
This book describes the strategies employed by protein toxins to render their pro- and eukaryotic producers a selective growth advantage over competitors. In providing an up-to-date overview on the mode of protein toxin actions, it accommodates biomedically and biologically relevant toxin model systems. As a result, it significantly broadens our perspective on biochemical architecture and molecular ploy behind the lethal principles of pro- and eukaryotic toxins.