Menu

Colin Hill

Identification and disruption of btlA, a locus involved in bile tolerance and general stress resistance in Listeria monocytogenes.

Typeset version

 

 

TY  - JOUR
  - Begley M, Hill C, Gahan CG
  - 2003
  - January
  - Fems Microbiology Letters
  - Identification and disruption of btlA, a locus involved in bile tolerance and general stress resistance in Listeria monocytogenes.
  - Validated
  - ()
  - 218
  - 1
  - 31
  - 38
  - A transposon Tn917 mutant of Listeria monocytogenes L028 was isolated on the basis of reduced growth on agar adjusted to pH 5.5. The disrupted gene, designated btlA (bile tolerance locus), encodes a putative secondary transporter of the major facilitator superfamily, which has significant homology to yxiO in Bacillus subtilis (lmo1417 in L. monocytogenes EGDe). The mutant demonstrated decreased growth rates relative to the wild-type when grown in sub-lethal levels of various stressors (acid, salt, ethanol, bile, SDS, ampicillin and phosphomycin). The mutant was also more sensitive to lethal levels of bile. A pORI19 insertion mutant demonstrated similar phenotypes. Murine virulence studies indicated that disruption of btlA does not influence virulence potential. BtlA therefore represents a membrane protein essential for the maintenance of homeostasis under stress conditions, but is not involved in pathogenicity.
DA  - 2003/01
ER  - 
@article{V14901079,
   = {Begley M,  Hill C and  Gahan CG },
   = {2003},
   = {January},
   = {Fems Microbiology Letters},
   = {Identification and disruption of btlA, a locus involved in bile tolerance and general stress resistance in Listeria monocytogenes.},
   = {Validated},
   = {()},
   = {218},
   = {1},
  pages = {31--38},
   = {{A transposon Tn917 mutant of Listeria monocytogenes L028 was isolated on the basis of reduced growth on agar adjusted to pH 5.5. The disrupted gene, designated btlA (bile tolerance locus), encodes a putative secondary transporter of the major facilitator superfamily, which has significant homology to yxiO in Bacillus subtilis (lmo1417 in L. monocytogenes EGDe). The mutant demonstrated decreased growth rates relative to the wild-type when grown in sub-lethal levels of various stressors (acid, salt, ethanol, bile, SDS, ampicillin and phosphomycin). The mutant was also more sensitive to lethal levels of bile. A pORI19 insertion mutant demonstrated similar phenotypes. Murine virulence studies indicated that disruption of btlA does not influence virulence potential. BtlA therefore represents a membrane protein essential for the maintenance of homeostasis under stress conditions, but is not involved in pathogenicity.}},
  source = {IRIS}
}
AUTHORSBegley M, Hill C, Gahan CG
YEAR2003
MONTHJanuary
JOURNAL_CODEFems Microbiology Letters
TITLEIdentification and disruption of btlA, a locus involved in bile tolerance and general stress resistance in Listeria monocytogenes.
STATUSValidated
TIMES_CITED()
SEARCH_KEYWORD
VOLUME218
ISSUE1
START_PAGE31
END_PAGE38
ABSTRACTA transposon Tn917 mutant of Listeria monocytogenes L028 was isolated on the basis of reduced growth on agar adjusted to pH 5.5. The disrupted gene, designated btlA (bile tolerance locus), encodes a putative secondary transporter of the major facilitator superfamily, which has significant homology to yxiO in Bacillus subtilis (lmo1417 in L. monocytogenes EGDe). The mutant demonstrated decreased growth rates relative to the wild-type when grown in sub-lethal levels of various stressors (acid, salt, ethanol, bile, SDS, ampicillin and phosphomycin). The mutant was also more sensitive to lethal levels of bile. A pORI19 insertion mutant demonstrated similar phenotypes. Murine virulence studies indicated that disruption of btlA does not influence virulence potential. BtlA therefore represents a membrane protein essential for the maintenance of homeostasis under stress conditions, but is not involved in pathogenicity.
PUBLISHER_LOCATION
ISBN_ISSN
EDITION
URL
DOI_LINK
FUNDING_BODY
GRANT_DETAILS
Close X