Understanding Pathogen Behaviour Virulence, Stress Response and ResistanceMansel Griffiths CRC Press, 12.08.2005 - 611 Seiten Pathogens respond dynamically to their environment. Understanding their behavior is critical for two important reasons: because of emerging evidence of increased pathogen resistance to established sanitation and preservation techniques and because of the increased use of minimal processing technologies, which are potentially more vulnerable to the development of resistance. Understanding Pathogen Behavior: Virulence, Stress Response And Resistance collects and summarizes the wealth of recent research in this area and its implications for microbiologists and QA staff in the food industry. ISBN 1 85573 953 4 |
Inhalt
proteome | 3 |
Mechanistic modelling of pathogen stress response | 53 |
94 | 77 |
5 | 87 |
7 | 93 |
Hostpathogen interactions | 99 |
4 | 105 |
7 | 111 |
stress response and resistance | 279 |
factors affecting virulence | 309 |
the staphylococcal | 331 |
pathogenesis and stress response | 358 |
Understanding pathogen survival and resistance in | 391 |
Pathogen resistance and adaptation to heat stress | 422 |
Pathogen resistance and adaptation to emerging technologies | 442 |
Pathogen resistance and adaptation to natural antimicrobials | 460 |
2 | 117 |
5 | 124 |
Sublethal injury pathogen virulence and adaptation | 152 |
or maximize injury | 190 |
Detecting sublethally damaged cells | 199 |
virulence stress response and resistance | 215 |
virulence stress response and resistance | 240 |
Pathogen resistance and adaptation to disinfectants | 484 |
Pathogen resistance and adaptation to low temperature | 507 |
Clostridium botulinum | 531 |
Quorumsensing and virulence in foodborne pathogens | 549 |
| 599 | |
Andere Ausgaben - Alle anzeigen
Understanding Pathogen Behaviour: Virulence, Stress Response and Resistance M. Griffiths Eingeschränkte Leseprobe - 2005 |
Understanding Pathogen Behaviour: Virulence, Stress Response and Resistance Mansel Griffiths Keine Leseprobe verfügbar - 2005 |
Häufige Begriffe und Wortgruppen
acid tolerance activity adaptation analysis antimicrobial Appl Environ Microbiol Appl Microbiol autoinducer Bacillus cereus bacteria Bacteriol biofilm botulinum botulism broth Campylobacter jejuni cellular Clostridium contamination cross-protection detection disease disinfectants effect EHEC encoding enterotoxin environmental enzymes EPEC Escherichia coli Escherichia coli O157:H7 Food Microbiol Food Prot foodborne pathogens function gene expression genetic genome Gram-negative heat resistance heat shock host identified inactivation increased induced Infect Immun inhibit injury Int J Food interactions intestinal involved isolates Listeria monocytogenes mechanisms membrane metabolic metabolites metabolome microbial Microbiology microorganisms Mol Microbiol molecular mutants nisin operon organisms outbreaks pathogenicity island peptides phage plasmid production proteins proteome quorum-sensing recovery regulation regulatory role RpoS Salmonella enterica Salmonella typhimurium sequence serovar sigma factor signal specific spores Staphylococcus aureus stationary phase strains stress response studies sublethal subtilis survival thermal toxin transcription treatment Vibrio cholerae virulence factors virulence genes vulnificus