Production of pediocin AcH by Lactobacillus plantarum WHE 92 isolated from cheese.

Applied and Environmental Microbiology
S EnnaharC Hasselmann

Abstract

Among 1,962 bacterial isolates from a smear-surface soft cheese (Munster cheese) screened for activity against Listeria monocytogenes, six produced antilisterial compounds other than organic acids. The bacterial strain WHE 92, which displayed the strongest antilisterial effect, was identified at the DNA level as Lactobacillus plantarum. The proteinaceous nature, narrow inhibitory spectrum, and bactericidal mode of action of the antilisterial compound produced by this bacterium suggested that it was a bacteriocin. Purification to homogeneity and sequencing of this bacteriocin showed that it was a 4.6-kDa, 44-amino-acid peptide, the primary structure of which was identical to that of pediocin AcH produced by different Pediococcus acidilactici strains. We report the first case of the same bacteriocin appearing naturally with bacteria of different genera. Whereas the production of pediocin AcH from P. acidilactici H was considerably reduced when the final pH of the medium exceeded 5.0, no reduction in the production of pediocin AcH from L. plantarum WHE 92 was observed when the pH of the medium was up to 6.0. This fact is important from an industrial angle. As the pH of dairy products is often higher than 5.0, L. plantarum WHE 92, ...Continue Reading

References

Sep 1, 1992·Applied and Environmental Microbiology·J B LuchanskyA J Maurer
May 15, 1992·Archives of Biochemistry and Biophysics·J T HendersonP D van Wassenaar
Jun 1, 1991·Applied and Environmental Microbiology·C B LewusT J Montville
Sep 1, 1991·Microbiological Reviews·J M Farber, P I Peterkin
Mar 28, 1991·European Journal of Biochemistry·P LepageA Van Dorseelaer
Feb 1, 1987·Applied and Environmental Microbiology·H J Tsai, W E Sandine
Mar 1, 1988·Biochimie·T R Klaenhammer
Nov 1, 1985·Applied and Environmental Microbiology·C A West, P J Warner
May 1, 1971·Applied Microbiology·J R Tagg, A R McGiven
Jun 1, 1969·Journal of Bacteriology·J O MundtF R Wieland
Jul 1, 1983·Applied and Environmental Microbiology·C F Gonzalez, B S Kunka
Jun 1, 1983·Applied and Environmental Microbiology·S F Barefoot, T R Klaenhammer
Oct 1, 1995·Applied and Environmental Microbiology·M J van Belkum, M E Stiles
Apr 1, 1995·Applied and Environmental Microbiology·G E AllisonT R Klaenhammer
Sep 1, 1993·International Journal of Food Microbiology·K I Garver, P M Muriana
Jun 1, 1993·International Journal of Food Microbiology·V F Jeppesen, H H Huss
Apr 1, 1996·International Journal of Systematic Bacteriology·F BringelJ C Hubert
Sep 1, 1983·Applied and Environmental Microbiology·M VescovoM J Gasson
Mar 1, 1985·Applied and Environmental Microbiology·C F Gonzalez, B S Kunka
Jun 1, 1975·Applied Microbiology·B E Terzaghi, W E Sandine
Nov 1, 1983·Journal of Food Protection·James L Smith, Samuel A Palumbo
Jun 1, 1989·Journal of Food Protection·L J HarrisT R Klaenhammer
Apr 1, 1993·Journal of Food Protection·Catherine G Nettles, Susan F Barefoot

❮ Previous
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Citations

Aug 30, 2008·Journal of Food Protection·Riina TolvanenHannu Korkeala
Jun 10, 2011·Current Microbiology·S Manjulata Devi, Prakash M Halami
Oct 21, 2016·Applied Microbiology and Biotechnology·Xing WanTimo M Takala
Mar 17, 2004·FEMS Microbiology Letters·Willy AucherJean-Marc Berjeaud
Apr 1, 2010·Journal of the Science of Food and Agriculture·Zhong-Yi LiuChi-Fang Zhu
May 29, 2013·World Journal of Microbiology & Biotechnology·Neha PandeyGarima Singroha
Dec 25, 2010·Biotechnology Letters·Ruiqing LiPer E J Saris
Oct 9, 2003·Applied and Environmental Microbiology·Hervé Nicoloff, Françoise Bringel
Jan 21, 2000·FEMS Microbiology Reviews·S EnnaharA Ishizaki
Jan 27, 2006·FEMS Microbiology Letters·Tanja PetrovicFrançoise Bringel
Aug 24, 2012·Journal of Basic Microbiology·Sundru Manjulata Devi, Prakash M Halami
Oct 10, 2007·Journal of Applied Microbiology·A C M ApolônioL M Farias
Jun 28, 2007·Applied Microbiology and Biotechnology·María MartínPablo E Hernández
Dec 12, 2012·International Journal of Molecular Sciences·Yanhua CuiHongyu Cui
Nov 26, 2009·Journal of Applied Microbiology·J A Renye, G A Somkuti
Jun 13, 2015·International Journal of Molecular Sciences·Yanhua CuiAijun Dong
May 7, 2004·Applied and Environmental Microbiology·Yasushi KawaiTadao Saito
Nov 24, 2007·FEMS Microbiology Reviews·Mercedes MaquedaManuel Martínez-Bueno
Jul 3, 2013·Journal of the Science of Food and Agriculture·Abigail B Snyder, Randy W Worobo
Feb 5, 2009·Journal of Applied Microbiology·T KabukiH Nakajima
Sep 8, 2017·Critical Reviews in Food Science and Nutrition·Eldin Maliyakkal JohnsonJoo Won Suh
Sep 29, 2018·AMB Express·C GasparA Palmeira-de-Oliveira
Oct 20, 2018·Applied Microbiology and Biotechnology·Piyush BaindaraVishakha Grover
Jan 5, 2021·World Journal of Microbiology & Biotechnology·Pooja Pradhan, Jyoti Prakash Tamang
Oct 31, 1998·Applied and Environmental Microbiology·J M MartínezP E Hernández
Mar 21, 1998·Applied and Environmental Microbiology·N HornH M Dodd
Oct 6, 2009·Analytical Biochemistry·Nack-Shick ChoiMin-Soo Kim
Apr 22, 2021·Scientific Data·Tae Woong WhonSeong Woon Roh

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