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Related Concept Videos

Biological Methods for Microbial Control01:28

Biological Methods for Microbial Control

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Biological agents offer an effective means of controlling microbial growth by leveraging natural processes like predation, competition, and the secretion of antimicrobial substances.Predatory bacteria such as Bdellovibrio species target and kill pathogens like Salmonella and E. coli. They are widely used in poultry farms to control infections. Myxococcus species help combat plant-pathogenic fungi. These naturally occurring predators serve as eco-friendly alternatives to chemical pesticides and...
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Chemical Agents for Microbial Control01:27

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Chemicals play important roles in controlling microbial growth by targeting microbial structures and functions as sanitizers, antiseptics, disinfectants, and sterilants.Alcohols are commonly used sanitizers, effectively disrupting lipid membranes, which compromises cell integrity. They are also used as antiseptics and disinfectants due to their rapid action and versatility.Phenols and their derivatives phenolics , known for denaturing proteins and disrupting cell membranes, are particularly...
162

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Salmonella-Based Biorodenticides: Past Applications and Current Contradictions.

Anton E Shikov1,2, Maria E Belousova1, Mikhail V Belousov1,2

  • 1Laboratory for Proteomics of Supra-Organismal Systems, All-Russia Research Institute for Agricultural Microbiology (ARRIAM), Pushkin, St. Petersburg 196608, Russia.

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Salmonella bacteria were once used as rodenticides but were banned due to risks to humans and animals. Research now explores the complex genetic mechanisms behind Salmonella

Keywords:
Salmonellaagricultureenterobacteriahost specificitypathogensrodentsvirulence

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Area of Science:

  • Microbiology
  • Veterinary Entomology
  • Molecular Biology

Background:

  • The use of Salmonella bacteria as rodenticides dates back to the late 19th century.
  • Certain Salmonella strains exhibit host restriction, enabling their past use as biorodenticides.
  • Bans in the mid-20th century arose from pathogenicity in domestic animals and human gastroenteritis outbreaks.

Purpose of the Study:

  • To review the historical use and study of Salmonella-based rodenticides.
  • To discuss molecular mechanisms governing Salmonella host specificity and restriction.
  • To reconstruct gene networks influencing Salmonella host-restriction.

Main Methods:

  • Literature review of historical data on Salmonella rodenticides.
  • Analysis of accumulated data on Salmonella host specificity.
  • Exploration of molecular mechanisms underlying host-pathogen interactions.

Main Results:

  • Significant data on Salmonella host specificity and restriction have been gathered since their ban.
  • The complexity of molecular mechanisms controlling Salmonella-host interactions is increasingly understood.
  • Identification of specific genes and allelic variants potentially involved in host restriction.

Conclusions:

  • Understanding Salmonella's host-restriction mechanisms is crucial for evaluating past and potential future applications.
  • Molecular insights are key to deciphering the specificity of Salmonella infections in different hosts.
  • Further research can refine our understanding of the genetic basis for Salmonella's host range.