Sandra M. Ruzal scite author profile

M . P I U R I , C . S A N C H E Z -R I V A S A N D S . M . R U Z A L . 2004.Aims: To study the modification of the cell wall of Lactobacillus casei ATCC 393 grown in high salt conditions. Methods and Results: Differences in the overall structure of cell wall between growth in high salt (MRS + 1 mol l )1 NaCl; N condition) and control (MRS; C condition) conditions were determined by transmission electronic microscopy and analytical procedures. Lactobacillus casei cells grown in N condition were significantly larger than cells grown under unstressed C condition. Increased sensitivity to mutanolysin and antibiotics with target in the cell wall was observed in N condition. Purified cell wall also showed the increased sensitivity to lysis by mutanolysin. Analysis of peptidoglycan (PG) from stressed cells showed that modification was at the structural level in accordance with a decreased PG cross-link involving penicillin-binding proteins (PBP). Nine PBP were first described in this species and these proteins were expressed in low percentages or presented a modified pattern of saturation with penicillin G (Pen G) during growth in high salt. Three of the essential PBP were fully saturated in N condition at lower Pen G concentrations than in C condition, suggesting differences in functionality in vivo. Conclusions:The results show that growth in high salt modified the structural properties of the cell wall. Significance and Impact of Study: Advances in understanding the adaptation to high osmolarity, in particular those involving sensitivity to lysis of lactic acid bacteria.

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Adaptation to high salt in Lactobacillus: role of peptides and proteolytic enzymes

Piuri¹,

Sánchez-Rivas²,

Ruzal³

2003

J Appl Microbiol

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Aims: To study the influence of peptides and proteolytic enzymes in the osmotic adaptation of Lactobacillus casei. Methods and Results: Di-and tri-peptides added individually increased the osmotolerance of Lact. casei when grown in a chemically defined medium (CDM) containing NaCl. Growth stimulation and the reestablishment in their presence of plasmid DNA supercoiling (recovery of the linking number) in hyperosmotic medium indicated that they are used as osmocompatible solutes as carnithine a known osmoprotector does. The investigation of the proteolytic system showed that in high osmolarity medium, the cell envelope-associated proteinase (PrtP), and PepX (X-prolyl-dipeptidyl aminopeptidase) increased activity and lost repression by peptides. PepI, an iminopeptidase was also derepressed. PepQ, a prolidase that specifically liberated proline from dipeptides, was almost unaffected. Derepression in the presence of peptides took place at the transcriptional level. However, the twofold activation of PrtP in CDM hyperosmotic medium was essentially through an increase of the apparent V max of the enzyme. Conclusions: These results strongly suggest a contribution of the proteolytic system peptide supply in the osmotic adaptation. Significance and Impact of the Study: Advances in understanding the role of peptides in the adaptation to high osmolarity particularly involved in dairy processes.

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A novel antimicrobial activity of a Paenibacillus polymyxa strain isolated from regional fermented sausages

Piuri

Sanchez-Rivas

Ruzal

1998

Lett Appl Microbiol

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A strain isolated from Argentinean regional fermented sausages was found to produce and secrete a compound that inhibited growth of Lactobacillus strains used as indicators. It was characterized as Paenibacillus polymyxa (P13). The antimicrobial activity, named polyxin, was obtained from culture supernatant fluid of late stationary phase and was inhibitory to actively growing cells. It was effective against a wide range of Gram-positive and Gram-negative bacterial species tested including food-borne pathogens. Bacteriocin-like properties such as proteinaceous nature (sensitive to proteases), insensitivity to organic solvents and chelators, stability to heat (up to 10 min at 90 degrees C), and acidic pH but instability in alkaline conditions, were determined. A molecular mass of 10 kDa was estimated by molecular gel filtration.

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Biochemical and biophysical studies of Bacillus subtilis envelopes under hyperosmotic stress

López¹,

Heras²,

Garda³

et al. 2000

International Journal of Food Microbiology

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Sandra M. Ruzal

Cell wall modifications during osmotic stress in Lactobacillus casei

Adaptation to high salt in Lactobacillus: role of peptides and proteolytic enzymes

A novel antimicrobial activity of a Paenibacillus polymyxa strain isolated from regional fermented sausages

Biochemical and biophysical studies of Bacillus subtilis envelopes under hyperosmotic stress

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