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200 10$aBacterial Adaptation to Co-resistance /$fedited by Santi M. Mandal, Debarati Paul
205   $a1st ed. 2019.
210  1$aSingapore :$cSpringer Nature Singapore :$cImprint: Springer,$d2019.
215   $a1 online resource (VII, 322 p. 50 illus., 27 illus. in color.)
311 08$a981-13-8502-5 
327   $aChapter 1. Plasmids: The necessary Knowledge Wealth for Encountering Antibiotic-Resistance menace -- Chapter 2. Disinfectants amend the expression of membrane bound efflux transporters to augment antimicrobial resistance -- Chapter 3. Knowledge gaps and research needs in bacterial co-resistance in the environment -- Chapter 4. Microbial resistance to Antibiotics -- Chapter 5. Do non-medical uses of antibiotics develop cross-resistance in clinical pathogens? -- Chapter 6. Biofilms in antimicrobial activity and drug resistance -- Chapter 7. GAntimicrobial resistance in microbes: Mode of action of TolC like protein and their mechanism of regulating stress resistance and physiology -- Chapter 8. Efflux mediated co-resistance -- Chapter 9. Biofilm and Antibiotic resistance in Acinetobacter baumannii -- Chapter 10. Mechanism of bacterial co-resistance -- Chapter 11. Antibiotics and Microbial Antibiotic Resistance in Soil -- Chapter 12. Microbial adaptation and resistance to pesticides -- Chapter 13. Antimicrobial agents used in food preservation or as agricides and effect on microbes in developing antimicrobial resistance -- Chapter 14. Molecular Mechanisms of Action and Resistance of Antimalarial drugs -- Chapter 15. Management and control of antimalarial drug resistance.
330   $aThe proposed book aims to understand the mechanism of survival of microorganisms in response to chemical stress in various ecological niches that suffer direct human intervention, more so the agricultural, domestic and hospital settings. Microbicides (e.g. disinfectants, antiseptics, fungicides, algaecides, insecticides and pesticides) are used rampantly to control undesirable microbes. Insecticides and pesticides are routinely used in agriculture which directly affect the microbial population in farms, orchards and fields. Health care environments are always stressed with disinfectants and antibiotics. It is always probable that microbicide-stressed microorganisms are in a dynamic state, displaced from one niche to the other. Some soil and water borne bacteria or their resistance determinants are also getting prominence in hospital settings after suffering selective pressure from agricides. In order to reveal the survival strategies of microbicidal-resistant microbes, it is of prime importance to know the mode of action of these complete range of microbicides (agricides to antibiotics). The present book intends to address these issues. There will be several chapters dealing with tolerance and cross resistance in microbes and bacteria in particular, dwelling in various niches. Till date, there is no consensus among scientists in theorizing molecular mechanisms to explain bacterial tolerance and their cross resistance to agricides and antibiotics. .
606   $aAgriculture
606   $aMicrobial ecology
606   $aMolecular ecology
606   $aBiodiversity
606   $aCytology
606   $aAgriculture
606   $aMicrobial Ecology
606   $aMolecular Ecology
606   $aBiodiversity
606   $aCell Biology
615  0$aAgriculture.
615  0$aMicrobial ecology.
615  0$aMolecular ecology.
615  0$aBiodiversity.
615  0$aCytology.
615 14$aAgriculture.
615 24$aMicrobial Ecology.
615 24$aMolecular Ecology.
615 24$aBiodiversity.
615 24$aCell Biology.
676   $a630
702   $aMandal$b Santi M.$4edt$4http://id.loc.gov/vocabulary/relators/edt
702   $aPaul$b Debarati$4edt$4http://id.loc.gov/vocabulary/relators/edt
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