SEARCH

SEARCH BY CITATION

References

  • Abriouel, H., Herrmann, A., Stärke, J., Yousif, N.M.K., Wijaya, A., Tauscher, B., Holzapfel, W. and Franz, C.M.A.P. (2004) Cloning and heterologous expression of hematin dependent catalase produced by Lactobacillus plantarum CNRZ 1228. Appl Environ Microbiol 70, 603606.
  • Archibald, F.S. and Fridovich, I. (1981) Manganese and defenses against oxygen toxicity in Lactobacillus plantarum. J Bacteriol 145, 442451.
  • van Boekel, M.A. (2002) On the use of the Weibull model to describe thermal inactivation of microbial vegetative cells. Int J Food Microbiol 74, 139159.
  • Bron, P.A., Grangette, C., Mercenier, A., de Vos, W.M. and Kleerebezem, M. (2004) Identification of Lactobacillus plantarum genes that are induced in the gastrointestinal tract of mice. J Bacteriol 186, 57215729.
  • Brooijmans, R.J.W., de Vos, W.M. and Hugenholtz, J. (2009a) Lactobacillus plantarum electron transport chain. Appl Environ Microbiol 75, 35803585.
  • Brooijmans, R.J.W., Smit, B., Santos, F., van Riel, J., de Vos, W.M. and Hugenholtz, J. (2009b) Heme and menaquinone induced electron transport in lactic acid bacteria. Microb Cell Fact 8, 28.
  • Callewaert, R. and De Vuyst, L. (2000) Bacteriocin production with Lactobacillus amylovorus DCE471 is improved and stabilized by fed-batch fermentation. Appl Environ Microbiol 66, 606613.
  • Casselin, B., Derrè-Bobillot, A., Fernandez, A., Lamberet, G., Lechardeur, D., Yamamoto, Y., Pedersen, M.B., Garrigues, C. et al. (2011) Responses of lactic acid bacteria to oxidative stress. Chapter 6, In Stress Responses in Lactic Acid Bacteria, eds Tsakalidou, E. and Papadimitriou, K. pp. 111127. New York, NY: Springer; doi: 10.1007/978-0-387-92771-8.
  • Castro, L.P., Bernardez, P.F., Guerra, N.P., Guseva, E.V. and Fick, M. (2007) Fed-batch pediocin production on whey using different feeding media. Enzym Microb Technol 41, 397406.
  • Ciocia, F., McSweeney, P.L.H., Piraino, P. and Parente, E. (2013) Use of dairy and non-dairy Lactobacillus plantarum, Lactobacillus paraplantarum and Lactobacillus pentosus strains as adjuncts in Cheddar cheese. Dairy Sci Technol 93, 623640.
  • Dressaire, C., Redon, E., Milhem, H., Besse, P., Loubière, P. and Cocaign-Bousquet, M. (2008) Growth rate regulated genes and their wide involvement in the Lactococcus lactis stress responses. BMC Genomics 9, 343356.
  • Goffin, P., Muscariello, L., Lorquet, F., Stukkens, A., Prozzi, D., Sacco, M., Kleerebezem, M. and Hols, P. (2006) Involvement of pyruvate oxidase activity and acetate production in the survival of Lactobacillus plantarum during the stationary phase of aerobic growth. Appl Environ Microbiol 72, 79337940.
  • van de Guchte, M., Serror, P., Chervaux, C., Smokvina, T., Erlich, S.D. and Maguin, E. (2002) Stress responses in lactic acid bacteria. Antonie Van Leeuwenhoek 82, 187216.
  • Guidone, A., Ianniello, R.G., Ricciardi, A., Zotta, T. and Parente, E. (2013a) Aerobic metabolism and oxidative stress tolerance in the Lactobacillus plantarum group. Word J Microbiol Biotechnol 29, 17131722.
  • Guidone, A., Zotta, T., Ross, R.P., Stanton, C., Rea, M.C., Parente, E. and Ricciardi, A. (2013b) Functional properties of Lactobacillus plantarum strains: a multivariate screening study. LWT-Food Sci Technol. doi:10.1016/j.lwt.2013.10.036.
  • Hüfner, E., Markieton, T., Chaillou, S., Crutz-Le Coq, A.M., Zagorec, M. and Hertel, C. (2007) Identification of Lactobacillus sakei genes induced during meat fermentation and their role in survival and growth. Appl Environ Microbiol 73, 25222531.
  • Hwang, C., Chen, J., Huang, Y. and Mao, Z. (2011) Biomass production of Lactobacillus plantarum LP0 isolated from infant feces with potential cholesterol-lowering ability. Afr J Biotechnol 10, 70107020.
  • Lechardeur, D., Cesselin, B., Fernandez, A., Lamberet, G., Garrigues, C., Pedersen, M., Gaudu, P. and Gruss, A. (2011) Using heme as an energy boost for lactic acid bacteria. Curr Opin Biotech 22, 143149.
  • Lorquet, F., Goffin, P., Muscariello, L., Baudry, J.B., Ladero, V., Sacco, M., Kleerebezem, M. and Hols, P. (2004) Characterization and functional analysis of the poxB gene, which encodes pyruvate oxidase in Lactobacillus plantarum. J Bacteriol 186, 37493759.
  • Machielsen, R., Van Alen-Boerrigter, I.J., Koole, L.A., Bongers, R.S., Kleerebezem, M. and Van Hylckama Vlieg, J.E.T. (2010) Indigenous and environmental modulation of frequencies of mutation in Lactobacillus plantarum. Appl Environ Microbiol 76, 15871595.
  • Mazzeo, M.F., Cacace, G., Peluso, A., Zotta, T., Muscariello, L., Vastano, V., Parente, E. and Sicilano, R.A. (2012) Effect of inactivation of ccpA and aerobic growth in Lactobacillus plantarum: a proteomic perspective. J Proteomics 75, 40504061.
  • Mende, S., Krzyzanowski, L., Weber, J., Jaros, D. and Rhom, H. (2012) Growth and exopolysaccharide yield of Lactobacillus delbrueckii ssp. bulgaricus DSM 20081 in batch and continuous bioreactor experiments at constant pH. J Biosci Bioeng 113, 185191.
  • Miller, G.L. (1959) Use of dinitrosalicylic acid reagent for determination of reducing sugar. Anal Chem 31, 426428.
  • Papagianni, M., Avramidis, N. and Filiousis, G. (2007) Investigating the relationship between the specific glucose uptake rate and nisin production in aerobic batch and fed-batch glucostat cultures of Lactococcus lactis. Enzym Microb Technol 40, 15571563.
  • Parente, E., Ciocia, F., Ricciardi, A., Zotta, T., Felis, G.E. and Torriani, S. (2010) Diversity of stress tolerance in Lactobacillus plantarum, Lactobacillus pentosus, Lactobacillus paraplantarum: a multivariate screening study. Int J Food Microbiol 144, 270279.
  • Pedersen, M.B., Iversen, S.L., Sorensen, K.I. and Johansen, E. (2005) The long and winding road from the research laboratory to industrial applications of lactic acid bacteria. FEMS Microbiol Rev 29, 611624.
  • Pedersen, M.B., Gaudu, P., Lechardeur, D., Petit, M.A. and Gruss, A. (2012) Aerobic respiration metabolism in lactic acid bacteria and uses in biotechnology. Annu Rev Food Sci Technol 3, 3758.
  • Peng, H.Q., Zhang, S.L., Zhuang, Y.P., Wang, Y.H. and Xu, G.Q. (2006) Development of a continuous cell-recycle fermentation system for production of lactic acid by Lactobacillus paracasei. Process Biochem 41, 24582463.
  • Perpetuini, G., Scornec, H., Tofalo, R., Serror, P., Schirone, M., Suzzi, G., Corsetti, A., Cavin, J.F. et al. (2013) Identification of critical genes for growth in olives brines by transposon mutagenesis of Lactobacillus pentosus C11. Appl Environ Microbiol 79, 45684575.
  • Quatravaux, S., Remize, F., Bryckaert, E., Colavizza, D. and Guzzo, J. (2006) Examination of Lactobacillus plantarum lactate metabolism side effects in relation to the modulation of aeration parameters. J Appl Microbiol 101, 903912.
  • Racine, F.M. and Saha, B.C. (2007) Production of mannitol by Lactobacillus intermedius NRRL B-3693 in fed-batch and continuous cell-recycle fermentations. Process Biochem 42, 16091613.
  • Rezaiki, L., Cesselin, B., Yamamoto, Y., Vido, K., Van West, E., Gaudu, P. and Gruss, A. (2004) Respiration metabolism reduces oxidative and acid stress to improve long-term survival of Lactococcus lactis. Mol Microbiol 53, 13311342.
  • Risse, B., Stempfer, G., Rudolph, R., Mollering, H. and Jaenicke, R. (1992) Stability and reconstitution of pyruvate oxidase from Lactobacillus plantarum: dissection of the stabilizing effects of coenzyme binding and subunit interaction. Protein Sci 1, 16991709.
  • Sasikumar, P., Gomathi, S., Anbazhagan, K. and Selvam, G.S. (2013) Secretion of biologically active heterologous oxalate decarboxylase (OxdC) in Lactobacillus plantarum WCFS1 using homologous signal peptides. Biomed Res Int 2013(2013), 280432.
  • Stevens, M.J.A., Wiersma, A., de Vos, W.M., Kuipers, O.P., Smid, E.J., Molenaar, D. and Kleerebezem, M. (2008) Improvement of Lactobacillus plantarum aerobic growth as directed by comprehensive transcriptome analysis. Appl Environ Microbiol 74, 47764778.
  • Sybesma, W., Hugenholtz, J., de Vos, W.M. and Smid, E.J. (2006) Safe use of genetically modified lactic acid bacteria in food. Bridging the gap between consumers, green groups, and industry. Electron J Biotechnol 9, 424448.
  • Tittmann, K., Proske, D., Spinka, M., Ghisla, S., Rudolph, R., Hübner, G. and Kern, G. (1998) Activation of thiamin diphosphate and FAD in the phosphate-dependent pyruvate oxidase from Lactobacillus plantarum. J Biol Chem 273, 1292912934.
  • Tseng, C. and Montville, T.J. (1992) Enzymatic regulation of glucose catabolism by Lactobacillus plantarum in an aerobic chemostat. Biotechnol Prog 8, 126131.
  • Watanabe, M., van der Veen, S., Nakajima, H. and Abee, T. (2012a) Effect of respiration and manganese on oxidative stress resistance of Lactobacillus plantarum WCFS1. Microbiology 158, 293300.
  • Watanabe, M., van der Veen, S. and Abee, T. (2012b) Impact of respiration on resistance of Lactobacillus plantarum WCFS1 to acid stress. Appl Environ Microbiol 78, 40624064.
  • Zangh, J., Chongde, W., Xue, F., Guocheng, D. and Chen, G. (2011) Stress response in Lactococcus lactis. Chapter 10, In Stress Responses in Lactic Acid Bacteria, eds Tsakalidou, E. and Papadimitriou, K. pp. 199218. New York, NY: Springer; doi: 10.1007/978-0-387-92771-8.
  • Zotta, T., Ricciardi, A., Guidone, A., Sacco, M., Muscariello, L., Mazzeo, M.F., Cacace, G. and Parente, E. (2012) Inactivation of ccpA and aeration affect growth, metabolite production and stress tolerance Lactobacillus plantarum WCFS1. Int J Food Microbiol 155, 5159.
  • Zotta, T., Guidone, A., Ianniello, R.G., Parente, E. and Ricciardi, A. (2013) Temperature and respiration affect the growth and stress resistance of Lactobacillus plantarum C17. J Appl Microbiol 115, 848858.