Cellular Microbiology: Bacteria-Host Interactions in Health and Disease
Wiley, Jun 18, 1999 - Science - 478 pages
Cellular Microbiology is a new area of microbiology research, bridging the gap between the disciplines of microbiology and cell biology. It is the study of the interaction between cells and microbes, especially mammalian or plant cells and bacteria.
Cellular Microbiology is an advanced textbook for students of microbiology and medical microbiology, presenting a comprehensive introduction to the current molecular and cellular biology of the interactions between bacteria and eukaryotic cells, and their relevance to human diseases.
* Covers an exciting new area of research and is an ideal introduction for the subject
* The only textbook to cover this rapidly-growing field of research
* Authored by well-renowned experts in the field
11 pages matching cloned in this book
Results 1-3 of 11
What people are saying - Write a review
We haven't found any reviews in the usual places.
AN INTRODUCTION TO CELLULAR MICROBIOLOGY
THE CELLULAR BIOLOGY UNDERLYING
PROKARYOTIC AND EUKARYOTIC SIGNALLING MECHANISMS
9 other sections not shown
acquired immunity actin actin filaments activation adhesins adhesion amino acids antibiotic antibody antigens apoptosis bacteria bacterium binding biology cause cell cycle cell surface cell wall cellular microbiology Chapter chemokines cholera chromosome cloned coli colonization complement complex components contain cytokines cytoplasmic cytoskeleton defence described disease domain encoding endothelial cells enzyme epithelial cells eukaryotic eukaryotic cells example exotoxins expression Figure function G proteins genes genome Gram-negative growth factor host cell human identified immune response induce infection inhibit integrins interactions intracellular invasion involved known large number leukocytes ligand lipid lymphocytes macrophages major mechanisms mediated microflora molecular molecules mutation organism outer membrane pathogens peptides phagocytes phagosome phosphorylation plasma membrane plasmid produce proinflammatory proteases protein kinase receptor recognized regulated release role Salmonella secretion sequence Shigella signalling pathways specific stimulate structure subunits superantigens synthesis target tissue toxins transcription transposons tyrosine vacuole vesicles virulence viruses Yersinia