Your search keyword '"M. Vallicelli"' showing total 16 results

1. Spaghetti cooking by microwave oven: Cooking kinetics and product quality

Author

Emiliano Cocci, M. Dalla Rosa, Giampiero Sacchetti, M. Vallicelli, Alessandro Angioloni, COCCI E., SACCHETTI G., VALLICELLI M., ANGIOLONI A., and DALLA ROSA M.

Subjects

chemistry.chemical_classification, Cooking process, Microwave oven, GELATINIZATION, Thermal effect, technology, industry, and agriculture, food and beverages, MICROWAVE COOKING, TEXTURE, Gluten, chemistry.chemical_compound, chemistry, Yellow colour, Amylose, Boiling, SPAGHETTI, SEM, otorhinolaryngologic diseases, Food science, Food Science

Abstract

The cooking kinetics of spaghetti cooked in boiling water by a traditional method: (TRC) and by microwave (MWC) using an innovative oven suitable for pasta cooking were investigated. The quality of cooked spaghetti was studied as a function of the following cooking parameters: weight increase, total thermal effect and gelatinization extent. Microwave cooking resulted in a time–temperature profile different from that of the traditional cooking process and when the cooking parameters were equal, the microwave cooking was characterized by a lower total thermal effect. In spite of the lower total thermal effect, when the weight increase was equivalent, microwave cooking resulted in more gelatinized and softer products than traditional cooking. The higher gel degree and amylose solubility were not reflected in a higher cooking loss or stickiness; this was due to a more compact gluten network in the outer layer of spaghetti. By modulating the cooking time it was possible to obtain MWC samples with values of weight increase, gel degree and firmness, respectively, equal to the TRC ones; thus different “optimum cooking times” were defined. Sensory panels did not perceive any significant differences between TRC spaghetti and MWC spaghetti samples cooked for different “optimum cooking times” except for the yellow colour intensity, which resulted higher for MWC pasta in agreement with the instrumental analysis data.

Published

2008

2. Effect of high-pressure homogenization, nonfat milk solids, and milkfat on the technological performance of a functional strain for the production of probiotic fermented milks

Author

Wilhelm H. Holzapfel, Melania Vallicelli, Rosalba Lanciotti, Maria Elisabetta Guerzoni, J. Maina Mathara, Luciana Iucci, Francesca Patrignani, F. Patrignani, L. Iucci, R. Lanciotti, M. Vallicelli, J. Maina Mathara, W. H. Holzapfel, and M. E. Guerzoni

Subjects

Time Factors, Lactobacillus paracasei, Cultured Milk Products, LACTOBACILLUS PARACASEI, Sensation, Acetaldehyde, Diacetyl, Homogenization (chemistry), law.invention, Butterfat, Fats, Probiotic, law, Refrigeration, Lactobacillus, Genetics, Pressure, Humans, Food science, Response surface methodology, Organic Chemicals, HIGH-PRESSURE HOMOGENIZATION, biology, Chemistry, Viscosity, Probiotics, food and beverages, PROBIOTIC FERMENTED MILK, Lactobacillaceae, biology.organism_classification, Animal Science and Zoology, Fermentation, RESPONSE SURFACE METHODOLOGY, Food Science

Abstract

The aim of this research was the evaluation of the effects of milkfat content, nonfat milk solids content, and high-pressure homogenization on 1) fermentation rates of the probiotic strain Lactobacillus paracasei BFE 5264 inoculated in milk; 2) viability loss of this strain during refrigerated storage; and 3) texture parameters, volatile compounds, and sensorial properties of the coagula obtained. The data achieved suggested a very strong effect of the independent variables on the measured attributes of fermented milks. In fact, the coagulation times were significantly affected by pressure and added milkfat, and the rheological parameters of the fermented milk increased with the pressure applied to the milk for added nonfat milk solids concentrations lower than 3%. Moreover, the polynomial models and the relative response surfaces obtained permitted us to identify the levels of the 3 independent variables that minimized the viability loss of the probiotic strain used during refrigerated storage.

Published

2007

3. New signaling molecules in some gram-positive and gram-negative bacteria

Author

Pier Sandro Cocconcelli, Fabrizio Cappa, Pasquale Saracino, Maria Elisabetta Guerzoni, Melania Vallicelli, Pamela Vernocchi, Aldo Corsetti, Lucia Vannini, Maurice Ndagijimana, L. Vannini, M. Ndagijimana, P. Saracino, P. Vernocchi, A. Corsetti, M. Vallicelli, F. Cappa, P.S. Cocconcelli, and M.E. Guerzoni

Subjects

Colony Count, Microbial, Lactobacillus sanfranciscensis, CONDITIONED MEDIA, Lactobacillus paraplantarum, Microbiology, Enterococcus faecalis, Gas Chromatography-Mass Spectrometry, Species Specificity, Lactobacillus, Cluster Analysis, SALMONELLA ENTERICA, STRESS EXPOSURE, Furans, 2(5H)-FURANONES, Principal Component Analysis, Lactobacillus helveticus, biology, Molecular Structure, Cell autolysis, LACTOBACILLI, food and beverages, General Medicine, biology.organism_classification, Biochemistry, Salmonella enterica, Culture Media, Conditioned, Food Microbiology, Microscopy, Electron, Scanning, Lactobacillus plantarum, Food Science, Signal Transduction

Abstract

A new family of putative signaling molecules having a 2(5H)- furanone configuration has been described in this work. They were released during late exponential or stationary phase in different growth media by some gram-positive bacteria, such as Lactobacillus helveticus, Lactobacillus plantarum, Lactobacillus paraplantarum, Lactobacillus sanfranciscensis, Enterococcus faecalis, and a gram-negative species, i.e. Salmonella enterica. A pair of 2(5H)-furanones called furanones A and B occurred in all the conditioned media (CMs) of the species considered. These two molecules showed similar retention times and their spectral data shared the key fragments to include them in the 2(5H)-furanones family. However, some differences were observed in the mass fragmentation profiles. In particular the use of PCA analysis of all the mass fragments enabled the grouping of furanone A profiles of S. enterica, L. helveticus, L. plantarum, L. paraplantarum, L. sanfranciscensis and E. faecalis in one unique cluster with only few exceptions. On the other hand, the mass fragmentation profiles of furanone B of the major part of the species and strains could be grouped together and were differentiated from those of L. helveticus. The specific activity of cell-free supernatants of high density cultures of S. enterica confirmed that the release of active molecules, and specifically of furanones A and B, was cell density dependent. Moreover, a preliminary experiment suspending S. enterica cells into cell-free supernatants of L. helveticus previously exposed to an oxidative stress demonstrated that furanones A and B have a strong interspecific activity. In fact cell autolysis and cell envelope damages were observed with Scanning Electron Microscopy (SEM) in S. enterica.

Published

2007

4. Metabolite mediate Lab-Yeast interaction in Sourdough

Author

VERNOCCHI, PAMELA, SERRAZANETTI, DIANA ISABELLA, VALLICELLI, MELANIA, NDAGIJIMANA, MAURICE, GIANOTTI, ANDREA, GUERZONI, MARIA ELISABETTA, A. Corsetti, GOBBETTI, M. DE ANGELIS, M. DI CAGNO, F. MINERVINI, C. RIZZIELLO, P. Vernocchi, D. Serrazanetti, M. Vallicelli, M. Ndagijimana, A. Gianotti, A. Corsetti, and M.E. Guerzoni

Subjects

METABOLITE, LAB-YEAST, SOURDOUGH, METABOLITES, MICROBIAL INTERACTION, LAB-YEASTS

Published

2006

5. Improvement of Sensory Characteristics of Probiotic Fermented Milks using Milk High Pressure Homogenization Treatment

Author

IUCCI, LUCIANA, PATRIGNANI, FRANCESCA, VALLICELLI, MELANIA, LANCIOTTI, ROSALBA, GUERZONI, MARIA ELISABETTA, J. M. Mathara, W. H. Holzapfel, E. PARENTE, L. COCOLIN, D. ERCOLINI, L. VANNINI, L. Iucci, F. Patrignani, M. Vallicelli, R. Lanciotti, J. M. Mathara, W. H. Holzapfel, and M. E. Guerzoni

Subjects

HIGH PRESSURE HOMOGENIZATION, FERMENTED PROBIOTIC MILK, LACTOBACILLUS PARACASEI, ORGANOLEPTIC FEATURES

Published

2006

6. New signalling molecules in some Gram-negative bacteria

Author

VANNINI, LUCIA, NDAGIJIMANA, MAURICE, PATRIGNANI, FRANCESCA, VALLICELLI, MELANIA, VERNOCCHI, PAMELA, LANCIOTTI, ROSALBA, GUERZONI, MARIA ELISABETTA, P. Saracino, F. Cappa, P. S. Cocconcelli, E. PARENTE, L. COCOLIN, D. ERCOLINI, L. VANNINI, L. Vannini, P. Saracino, M. Ndagijimana, F. Patrignani, M. Vallicelli, P. Vernocchi, R. Lanciotti, F. Cappa, P. S. Cocconcelli, and M. E. Guerzoni

Subjects

2(5H)-FURANONES, GRAM-POSITIVE BACTERIA, SIGNALLING MOLECULES, GRAM-NEGATIVE BACETRIA

Published

2006

7. Improvement of technological performances of wheat flours and volatile metabolites of fermented dough by addition of exogenous enzymes

Author

S. Ruggeri, GIANOTTI, ANDREA, VALLICELLI, MELANIA, SERRAZANETTI, DIANA ISABELLA, VERNOCCHI, PAMELA, GUERZONI, MARIA ELISABETTA, S. Ruggeri, A. Gianotti, M. Vallicelli, D. Serrazanetti, P. Vernocchi, and M. E. Guerzoni

Subjects

VOLATILE METABOLITES, DOUGH, ENZYMES, WHEAT FLOURS

Published

2005

8. Studio dei fattori che influenzano la dinamica di adesione ad una superficie di acciao di ceppi di B. cereus termotolleranti e psicrotrofi isolati da alimenti

Author

GIANOTTI, ANDREA, VALLICELLI, MELANIA, GUERZONI, MARIA ELISABETTA, A. Gianotti, M. Vallicelli, M. E. Guerzoni, Gianotti A., Vallicelli M., and Guerzoni M.E.

Published

2005

9. Effects of dough chemico-physical factors on aroma compounds production and their retention

Author

VERNOCCHI, PAMELA, VALLICELLI, MELANIA, NDAGIJIMANA, MAURICE, GIANOTTI, ANDREA, GUERZONI, MARIA ELISABETTA, M. Gaggiano, M. Gobbetti, Vernocchi P., M. Gaggiano, M. Vallicelli, M. Ndagijimana, A. Gianotti, M. Gobbetti, and M.E. Guerzoni.

Published

2004

10. Dietary fiber and flavan-3-ols in shortbread biscuits enriched with barley flours co-products.

Author

Verardo V, Riciputi Y, Messia MC, Vallicelli M, Falasca L, Marconi E, and Caboni MF

Subjects

Dietary Fats metabolism, Edible Grain chemistry, Food Handling, Functional Food analysis, Lipid Peroxidation, Triticum, Antioxidants analysis, Dietary Fiber analysis, Flavonoids analysis, Flour analysis, Food, Fortified analysis, Hordeum chemistry, beta-Glucans analysis

Abstract

The coarse fraction obtained by air classification of barley flour, rich in dietary fiber and flavan-3-ols, was utilized to develop functional biscuits. The flavan-3-ol content, antioxidant activity and oxidative stability of biscuits were measured during storage under retail conditions for 1 year. The replacement of 60% (w/w) refined wheat flour with barley coarse fraction increased the ash, fiber and flavan-3-ol contents significantly. Biscuit samples enriched with barley coarse fraction had a significantly higher amount of fiber compared with the control sample (six times higher). The β-glucan content in enriched samples was 15 times higher than control samples. The flavan-3-ol loss in biscuits after baking was about 67%. The initial content of flavan-3-ols increased from 0.6 to 4.3 mg/100 g in biscuits formulated with barley coarse fraction and showed improved antioxidant properties. Lipid oxidation increased during the shelf-life; the enriched biscuit showed the higher lipid oxidation status, but the level reached during the shelf-life was lower than the limit of acceptance reported for bakery products and, for this reason, does not compromise the safety.

Published

2011

11. Effect of a pre-treatment of milk with high pressure homogenization on yield as well as on microbiological, lipolytic and proteolytic patterns of "Pecorino" cheese.

Author

Vannini L, Patrignani F, Iucci L, Ndagijimana M, Vallicelli M, Lanciotti R, and Guerzoni ME

Subjects

Animals, Colony Count, Microbial, Electrophoresis, Polyacrylamide Gel, Fats metabolism, Fatty Acids, Nonesterified analysis, Female, Fermentation, Food Handling instrumentation, Food Microbiology, Food Technology, Gas Chromatography-Mass Spectrometry, Hot Temperature, Lipolysis, Milk chemistry, Milk Proteins metabolism, Sheep, Solid Phase Microextraction, Species Specificity, Taste, Volatilization, Cheese microbiology, Cheese standards, Food Handling methods, Hydrostatic Pressure, Milk microbiology

Abstract

The principal aim of this work was to compare Pecorino cheeses obtained from ewes' milk previously subjected to high pressure homogenization (HPH) at 100 MPa with those produced from raw and heat treated ewes' milk. The HPH milk treatment induced a significant increase of the cheese yield and caused a reduction of enterococci, lactococci and yeasts in the curds. Enterococci cell loads remained at lower levels in cheeses obtained from HPH milk over the ripening period. Analyses of free fatty acids, Sodium Dodecil Sulphate (SDS)-PAGE profiles, Gas Chromatography-Mass Spectrometry-Solid Phase Microextraction (GC-MS-SPME) measurements of volatile compounds and sensory traits evidenced that the pressure treatment can be regarded also as a useful tool to differentiate products obtained from the same raw material. In fact such a milk treatment induced a marked lipolysis, an early proteolysis, a relevant modification of the volatile molecule profiles and sensory properties of Pecorino cheese.

Published

2008

12. New signaling molecules in some gram-positive and gram-negative bacteria.

Author

Vannini L, Ndagijimana M, Saracino P, Vernocchi P, Corsetti A, Vallicelli M, Cappa F, Cocconcelli PS, and Guerzoni ME

Subjects

Cluster Analysis, Colony Count, Microbial, Culture Media, Conditioned, Enterococcus faecalis ultrastructure, Furans analysis, Gas Chromatography-Mass Spectrometry, Lactobacillus ultrastructure, Microscopy, Electron, Scanning, Molecular Structure, Principal Component Analysis, Salmonella enterica metabolism, Salmonella enterica ultrastructure, Species Specificity, Enterococcus faecalis metabolism, Food Microbiology, Furans metabolism, Lactobacillus metabolism, Signal Transduction

Abstract

A new family of putative signaling molecules having a 2(5H)-furanone configuration has been described in this work. They were released during late exponential or stationary phase in different growth media by some gram-positive bacteria, such as Lactobacillus helveticus, Lactobacillus plantarum, Lactobacillus paraplantarum, Lactobacillus sanfranciscensis, Enterococcus faecalis, and a gram-negative species, i.e. Salmonella enterica. A pair of 2(5H)-furanones called furanones A and B occurred in all the conditioned media (CMs) of the species considered. These two molecules showed similar retention times and their spectral data shared the key fragments to include them in the 2(5H)-furanones family. However, some differences were observed in the mass fragmentation profiles. In particular the use of PCA analysis of all the mass fragments enabled the grouping of furanone A profiles of S. enterica, L. helveticus, L. plantarum, L. paraplantarum, L. sanfranciscensis and E. faecalis in one unique cluster with only few exceptions. On the other hand, the mass fragmentation profiles of furanone B of the major part of the species and strains could be grouped together and were differentiated from those of L. helveticus. The specific activity of cell-free supernatants of high density cultures of S. enterica confirmed that the release of active molecules, and specifically of furanones A and B, was cell density dependent. Moreover, a preliminary experiment suspending S. enterica cells into cell-free supernatants of L. helveticus previously exposed to an oxidative stress demonstrated that furanones A and B have a strong interspecific activity. In fact cell autolysis and cell envelope damages were observed with Scanning Electron Microscopy (SEM) in S. enterica.

Published

2007

13. Effect of high-pressure homogenization, nonfat milk solids, and milkfat on the technological performance of a functional strain for the production of probiotic fermented milks.

Author

Patrignani F, Iucci L, Lanciotti R, Vallicelli M, Mathara JM, Holzapfel WH, and Guerzoni ME

Subjects

Acetaldehyde analysis, Diacetyl analysis, Humans, Lactobacillus physiology, Organic Chemicals analysis, Refrigeration, Sensation, Time Factors, Viscosity, Cultured Milk Products chemistry, Cultured Milk Products microbiology, Fats, Pressure, Probiotics

Abstract

The aim of this research was the evaluation of the effects of milkfat content, nonfat milk solids content, and high-pressure homogenization on 1) fermentation rates of the probiotic strain Lactobacillus paracasei BFE 5264 inoculated in milk; 2) viability loss of this strain during refrigerated storage; and 3) texture parameters, volatile compounds, and sensorial properties of the coagula obtained. The data achieved suggested a very strong effect of the independent variables on the measured attributes of fermented milks. In fact, the coagulation times were significantly affected by pressure and added milkfat, and the rheological parameters of the fermented milk increased with the pressure applied to the milk for added nonfat milk solids concentrations lower than 3%. Moreover, the polynomial models and the relative response surfaces obtained permitted us to identify the levels of the 3 independent variables that minimized the viability loss of the probiotic strain used during refrigerated storage.

Published

2007

14. Role of surface-inoculated Debaryomyces hansenii and Yarrowia lipolytica strains in dried fermented sausage manufacture. Part 1: Evaluation of their effects on microbial evolution, lipolytic and proteolytic patterns.

Author

Patrignani F, Iucci L, Vallicelli M, Guerzoni ME, Gardini F, and Lanciotti R

Abstract

The aim of this work was to study the effects of Debaryomyces hansenii and Yarrowia lipolytica strains, used with lactic acid starter cultures (Lactobacillus plantarum), on the manufacture of dried fermented sausages to understand their role on sausage microbial evolution, lipolytic and proteolytic patterns. The inoculation of the yeast strains did not markedly affect the sausage's microbial flora. The sausages with the yeast strains showed more marked and earlier water activity (a(w)) reductions. Moreover, the surface inoculation of the yeast strains resulted, at the end of ripening, in more pronounced proteolysis and lipolysis. The lipolytic patterns of the products were affected not only by the yeast strain but also by the level of mincing of the meat mixture used.

Published

2007

15. Two 2[5H]-furanones as possible signaling molecules in Lactobacillus helveticus.

Author

Ndagijimana M, Vallicelli M, Cocconcelli PS, Cappa F, Patrignani F, Lanciotti R, and Guerzoni ME

Subjects

Cheese microbiology, Culture Media, Conditioned, Food Microbiology, Furans chemistry, Furans pharmacology, Gas Chromatography-Mass Spectrometry, Hydrogen Peroxide pharmacology, Lactobacillus helveticus drug effects, Lactobacillus helveticus ultrastructure, Microscopy, Electron, Scanning, Molecular Structure, N-Acetylmuramoyl-L-alanine Amidase metabolism, Signal Transduction, Furans metabolism, Lactobacillus helveticus metabolism

Abstract

Two 2[5H]-furanones, in association with medium-chain fatty acids, were released in whey by Lactobacillus helveticus exposed to oxidative and heat stresses. This species plays an important role in cheese technology, particularly for Swiss-type cheeses and Grana cheese. Moreover, it significantly contributes to cheese ripening by means of an early autolysis and the release of enzymes during processing. Experimental evidence of the involvement of the two 2[5H]-furanones, detected by a gas chromatography-mass spectrometry/solid-phase microextraction technique, in the autolysis phenomenon has been obtained. Zymograms performed by using renaturing sodium dodecyl sulfate-polyacrylamide gels were used to detect the bioactivity of the supernatants containing the two furanones on fresh cells of the same strain. In addition to bands corresponding to known autolysins, new autolysins were detected concomitant with the exposure of Lactobacillus helveticus to the supernatants, which can be regarded as conditioned media (CM), and to a commercial furanone, 5-ethyl-3-hydroxy-4-methyl-2[5H]-furanone (HEMFi), having spectral data similar to those of the newly described 2[5H]-furanones. Morphological changes were observed when fresh cells were exposed to CM containing the two 2[5H]-furanones and HEMFi. The two furanones produced by Lactobacillus helveticus, which met a number of criteria to be included in cell-cell signaling molecules, have a presumptive molecular mass lower than those of already known 3[2H]-furanones having an autolytic activity and being produced by gram-negative bacteria. Moreover, they present a different chemical structure with respect to the furanones already identified as products of Lactococcus lactis subsp. cremoris or to those identified in some cheeses with Lactobacillus helveticus as a starter culture.

Published

2006

16. Effect of high pressure homogenisation of milk on cheese yield and microbiology, lipolysis and proteolysis during ripening of Caciotta cheese.

Author

Lanciotti R, Vannini L, Patrignani F, Iucci L, Vallicelli M, Ndagijimana M, and Guerzoni ME

Subjects

Animals, Cattle, Cheese standards, Colony Count, Microbial veterinary, Fats metabolism, Female, Fermentation, Food Microbiology, Food Technology, Lipolysis, Milk microbiology, Milk Proteins metabolism, Taste, Time Factors, Cheese analysis, Cheese microbiology, Food Handling methods, Hydrostatic Pressure, Milk chemistry

Abstract

The principal aim of this work was to compare Caciotta cheeses obtained from cow milk previously subjected to high pressure homogenisation (HPH) at 100 MPa with those produced from raw (R) or heat-treated (P) cow milk. HPH had both direct and indirect effects on cheese characteristics and their evolution during ripening. In particular, HPH treatment of milk induced a significant increase of the cheese yield; moreover, it affected the microbial ecology of both curd and cheese. Compared with the thermal treatment, the HPH treatment resulted in a decrease of about one log cfu/g of yeast and lactobacilli cell loads of the curd. The initial milk treatment also affected the evolution over time and the levels attained at the end of ripening of all the microbial groups studied. In fact, lactobacilli, microstaphylococci and yeast cell loads remained at lower levels in the cheeses obtained from HPH milk with respect to the other cheese types over the whole ripening period. Moreover, HPH of milk induced marked and extensive lipolysis. Cheeses from HPH milk showed the presence of high amounts of free fatty acids immediately after brining. The electrophoretic patterns of the different cheese types showed that Caciotta made from HPH-treated milk was characterized by a more extensive and faster proteolysis as well as a significant modification of its volatile molecule profile. The results obtained and the sensory analysis indicated that HPH treatment of milk was able to differentiate Caciotta cheese or to modify its ripening patterns.

Published

2006