IRIS publication 146554578
Assessing the Contributions of the LiaS Histidine Kinase to the Innate Resistance of Listeria monocytogenes to Nisin, Cephalosporins, and Disinfectants
RIS format for Endnote and similar
TY - JOUR - Collins, B,Guinane, CM,Cotter, PD,Hill, C,Ross, RP - 2012 - January - Applied and Environmental Microbiology - Assessing the Contributions of the LiaS Histidine Kinase to the Innate Resistance of Listeria monocytogenes to Nisin, Cephalosporins, and Disinfectants - Validated - () - 2-COMPONENT SIGNAL-TRANSDUCTION WALL-ACTING ANTIBIOTICS PENICILLIN-BINDING PROTEIN LACTOCOCCUS-LACTIS ANTIMICROBIAL PEPTIDES STAPHYLOCOCCUS-AUREUS BACILLUS-SUBTILIS LANTIBIOTIC LACTICIN-3147 GLUTAMATE-DECARBOXYLASE STRESS-RESPONSE - 78 - 2923 - 2929 - The Listeria monocytogenes LiaSR two-component system (2CS) encoded by lmo1021 and lmo1022 plays an important role in resistance to the food preservative nisin. A nonpolar deletion in the histidine kinase-encoding component (Delta liaS) resulted in a 4-fold increase in nisin resistance. In contrast, the Delta liaS strain exhibited increased sensitivity to a number of cephalosporin antibiotics (and was also altered with respect to its response to a variety of other antimicrobials, including the active agents of a number of disinfectants). This pattern of increased nisin resistance and reduced cephalosporin resistance in L. monocytogenes has previously been associated with mutation of a second histidine kinase, LisK, which is a predicted regulator of liaS and a penicillin binding protein encoded by lmo2229. We noted that lmo2229 transcription is increased in the Delta liaS mutant and in a Delta liaS Delta lisK double mutant and that disruption of lmo2229 in the Delta liaS Delta lisK mutant resulted in a dramatic sensitization to nisin but had a relatively minor impact on cephalosporin resistance. We anticipate that further efforts to unravel the complex mechanisms by which LiaSR impacts on the antimicrobial resistance of L. monocytogenes could facilitate the development of strategies to increase the susceptibility of the pathogen to these agents. - DOI 10.1128/AEM.07402-11 DA - 2012/01 ER -
BIBTeX format for JabRef and similar
@article{V146554578, = {Collins, B and Guinane, CM and Cotter, PD and Hill, C and Ross, RP }, = {2012}, = {January}, = {Applied and Environmental Microbiology}, = {Assessing the Contributions of the LiaS Histidine Kinase to the Innate Resistance of Listeria monocytogenes to Nisin, Cephalosporins, and Disinfectants}, = {Validated}, = {()}, = {2-COMPONENT SIGNAL-TRANSDUCTION WALL-ACTING ANTIBIOTICS PENICILLIN-BINDING PROTEIN LACTOCOCCUS-LACTIS ANTIMICROBIAL PEPTIDES STAPHYLOCOCCUS-AUREUS BACILLUS-SUBTILIS LANTIBIOTIC LACTICIN-3147 GLUTAMATE-DECARBOXYLASE STRESS-RESPONSE}, = {78}, pages = {2923--2929}, = {{The Listeria monocytogenes LiaSR two-component system (2CS) encoded by lmo1021 and lmo1022 plays an important role in resistance to the food preservative nisin. A nonpolar deletion in the histidine kinase-encoding component (Delta liaS) resulted in a 4-fold increase in nisin resistance. In contrast, the Delta liaS strain exhibited increased sensitivity to a number of cephalosporin antibiotics (and was also altered with respect to its response to a variety of other antimicrobials, including the active agents of a number of disinfectants). This pattern of increased nisin resistance and reduced cephalosporin resistance in L. monocytogenes has previously been associated with mutation of a second histidine kinase, LisK, which is a predicted regulator of liaS and a penicillin binding protein encoded by lmo2229. We noted that lmo2229 transcription is increased in the Delta liaS mutant and in a Delta liaS Delta lisK double mutant and that disruption of lmo2229 in the Delta liaS Delta lisK mutant resulted in a dramatic sensitization to nisin but had a relatively minor impact on cephalosporin resistance. We anticipate that further efforts to unravel the complex mechanisms by which LiaSR impacts on the antimicrobial resistance of L. monocytogenes could facilitate the development of strategies to increase the susceptibility of the pathogen to these agents.}}, = {DOI 10.1128/AEM.07402-11}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Collins, B,Guinane, CM,Cotter, PD,Hill, C,Ross, RP | ||
YEAR | 2012 | ||
MONTH | January | ||
JOURNAL_CODE | Applied and Environmental Microbiology | ||
TITLE | Assessing the Contributions of the LiaS Histidine Kinase to the Innate Resistance of Listeria monocytogenes to Nisin, Cephalosporins, and Disinfectants | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | 2-COMPONENT SIGNAL-TRANSDUCTION WALL-ACTING ANTIBIOTICS PENICILLIN-BINDING PROTEIN LACTOCOCCUS-LACTIS ANTIMICROBIAL PEPTIDES STAPHYLOCOCCUS-AUREUS BACILLUS-SUBTILIS LANTIBIOTIC LACTICIN-3147 GLUTAMATE-DECARBOXYLASE STRESS-RESPONSE | ||
VOLUME | 78 | ||
ISSUE | |||
START_PAGE | 2923 | ||
END_PAGE | 2929 | ||
ABSTRACT | The Listeria monocytogenes LiaSR two-component system (2CS) encoded by lmo1021 and lmo1022 plays an important role in resistance to the food preservative nisin. A nonpolar deletion in the histidine kinase-encoding component (Delta liaS) resulted in a 4-fold increase in nisin resistance. In contrast, the Delta liaS strain exhibited increased sensitivity to a number of cephalosporin antibiotics (and was also altered with respect to its response to a variety of other antimicrobials, including the active agents of a number of disinfectants). This pattern of increased nisin resistance and reduced cephalosporin resistance in L. monocytogenes has previously been associated with mutation of a second histidine kinase, LisK, which is a predicted regulator of liaS and a penicillin binding protein encoded by lmo2229. We noted that lmo2229 transcription is increased in the Delta liaS mutant and in a Delta liaS Delta lisK double mutant and that disruption of lmo2229 in the Delta liaS Delta lisK mutant resulted in a dramatic sensitization to nisin but had a relatively minor impact on cephalosporin resistance. We anticipate that further efforts to unravel the complex mechanisms by which LiaSR impacts on the antimicrobial resistance of L. monocytogenes could facilitate the development of strategies to increase the susceptibility of the pathogen to these agents. | ||
PUBLISHER_LOCATION | |||
ISBN_ISSN | |||
EDITION | |||
URL | |||
DOI_LINK | DOI 10.1128/AEM.07402-11 | ||
FUNDING_BODY | |||
GRANT_DETAILS |