Your search keyword '"Spaccasassi A"' showing total 6 results

1. Sensoproteomic Characterization of Lactobacillus Johnsonii -Fermented Pea Protein-Based Beverage: A Promising Strategy for Enhancing Umami and Kokumi Sensations while Mitigating Bitterness.

Author

Spaccasassi A, Ye L, Rincón C, Börner RA, Bogicevic B, Glabasnia A, Hofmann T, and Dawid C

Subjects

Humans, Proteomics, Adult, Male, Female, Young Adult, Beverages analysis, Beverages microbiology, Fermentation, Taste, Pea Proteins metabolism, Pea Proteins chemistry, Lactobacillus metabolism, Lactobacillus genetics, Pisum sativum chemistry, Pisum sativum metabolism, Flavoring Agents metabolism, Flavoring Agents chemistry

Abstract

This study investigated the mechanism underlying the flavor improvement observed during fermentation of a pea protein-based beverage using Lactobacillus johnsonii NCC533. A combination of sensomics and sensoproteomics approach revealed that the fermentation process enriched or generated well-known basic taste ingredients, such as amino acids, nucleotides, organic acids, and dipeptides, besides six new taste-active peptide sequences that enhance kokumi and umami notes. The six new umami and kokumi enhancing peptides, with human recognition thresholds ranging from 0.046 to 0.555 mM, are produced through the degradation of Pisum sativum 's storage protein. Our findings suggest that compounds derived from fermentation enhance umami and kokumi sensations and reduce bitterness, thus improving the overall flavor perception of pea proteins. In addition, the analysis of intraspecific variations in the proteolytic activity of L. johnsonii and the genome-peptidome correlation analysis performed in this study point at cell-wall-bound proteinases such as PrtP and PrtM as the key genes necessary to initiate the flavor improving proteolytic cascade. This study provides valuable insights into the molecular mechanisms underlying the flavor improvement of pea protein during fermentation and identifies potential future research directions. The results highlight the importance of combining fermentation and senso(proteo)mics techniques in developing tastier and more palatable plant-based protein products.

Published

2024

2. Screening of a Microbial Culture Collection: Empowering Selection of Starters for Enhanced Sensory Attributes of Pea-Protein-Based Beverages.

Author

Spaccasassi A, Utz F, Dunkel A, Aragao Börner R, Ye L, De Franceschi F, Bogicevic B, Glabasnia A, Hofmann T, and Dawid C

Subjects

Humans, Female, Male, Adult, Beverages analysis, Beverages microbiology, Fermentation, Taste, Pea Proteins metabolism, Pea Proteins chemistry, Pisum sativum chemistry, Pisum sativum metabolism, Pisum sativum microbiology, Flavoring Agents metabolism, Flavoring Agents chemistry

Abstract

Pea-protein-based ingredients are gaining attention in the food industry due to their nutritional benefits and versatility, but their bitter, astringent, green, and beany off-flavors pose challenges. This study applied fermentation using microbial cultures to enhance the sensory qualities of pea-protein-based beverages. Using UHPLC-TOF-MS analyses along with sensory profile comparisons, microbial species such as Limosilactobacillus fermentum , Lactococcus lactis , Lactobacillus johnsonii , Lacticaseibacillus rhamnosus , and Bifidobacterium longum were preselected from an entire culture collection and found to be effective in improving the overall flavor impression by reducing bitter off-notes and enhancing aroma profiles. Notably, L. johnsonii NCC533 and L. fermentum NCC660 exhibited controlled proteolytic activities after 48 h of fermentation, enriching the matrix with taste-active amino acids, nucleotides, and peptides and improving umami and salty flavors while mitigating bitterness. This study has extended traditional volatile analyses, including nonvolatile metabolomic, proteomic, and sensory analyses and offering a detailed view of fermentation-induced biotransformations in pea-protein-based food. The results highlight the importance of combining comprehensive screening approaches and sensoproteomic techniques in developing tastier and more palatable plant-based protein products.

Published

2024

3. Human Sensory, Taste Receptor, and Quantitation Studies on Kaempferol Glycosides Derived from Rapeseed/Canola Protein Isolates.

Author

Walser C, Spaccasassi A, Gradl K, Stark TD, Sterneder S, Wolter FP, Achatz F, Frank O, Somoza V, Hofmann T, and Dawid C

Subjects

Humans, Plant Extracts chemistry, Seeds chemistry, Seeds metabolism, Brassica rapa chemistry, Brassica rapa metabolism, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Kaempferols, Brassica napus chemistry, Brassica napus metabolism, Brassica napus genetics, Taste, Plant Proteins genetics, Plant Proteins metabolism, Plant Proteins chemistry, Glycosides chemistry

Abstract

Beyond the key bitter compound kaempferol 3- O -(2‴- O -sinapoyl-β-d-sophoroside) previously described in the literature ( 1 ), eight further bitter and astringent-tasting kaempferol glucosides ( 2 - 9 ) have been identified in rapeseed protein isolates ( Brassica napus L.). The bitterness and astringency of these taste-active substances have been described with taste threshold concentrations ranging from 3.3 to 531.7 and 0.3 to 66.4 μmol/L, respectively, as determined by human sensory experiments. In this study, the impact of 1 and kaempferol 3- O -β-d-glucopyranoside ( 8 ) on TAS2R-linked proton secretion by HGT-1 cells was analyzed by quantification of the intracellular proton index. mRNA levels of bitter receptors TAS2R3, 4, 5, 13, 30, 31, 39, 40, 43, 45, 46, 50 and TAS2R8 were increased after treatment with compounds 1 and 8 . Using quantitative UHPLC-MS/MS MRM measurements, the concentrations of 1 - 9 were determined in rapeseed/canola seeds and their corresponding protein isolates. Depending on the sample material, compounds 1 , 3 , and 5 - 9 exceeded dose over threshold (DoT) factors above one for both bitterness and astringency in selected protein isolates. In addition, an increase in the key bitter compound 1 during industrial protein production (apart from enrichment) was observed, allowing the identification of the potential precursor of 1 to be kaempferol 3- O -(2‴- O -sinapoyl-β-d-sophoroside)-7- O -β-d-glucopyranoside ( 3 ). These results may contribute to the production of less bitter and astringent rapeseed protein isolates through the optimization of breeding and postharvest downstream processing.

Published

2024

4. Ethnicity, gender and physiological parameters: Their effect on in vivo flavour release and perception during chewing gum consumption.

Author

Pedrotti M, Spaccasassi A, Biasioli F, and Fogliano V

Subjects

Adult, Female, Humans, Male, Mass Spectrometry, Mentha, Mouth, Perception, Sex Factors, Volatile Organic Compounds analysis, Young Adult, Chewing Gum analysis, Ethnicity, Flavoring Agents analysis, Taste physiology

Abstract

In this study, the impact of physiological parameters, ethnicity and gender on flavour perception and flavour release of chewing gum was investigated. Proton Transfer Reaction Mass Spectrometry in-nose monitoring of volatile organic compounds was coupled to discontinuous time intensity sensory evaluation for mint flavour and sweetness perception. Each of the 29 subjects, 14 European and 15 Chinese panelists (13 male and 16 females, age 24 ± 1.4 years old) consumed the samples in triplicates. Physiological parameters (oral cavity volume, salivary flow, acetone and isoprene concentration and fungiform papillae density) were measured. Significant differences for in vivo flavour release between Chinese and European panelists after 90 s of consumption and after the gum was removed from the mouth were found. Significant differences were observed also in flavour and sweetness perception while no gender effect was detected. In this work, for the first time an effect of ethnicity on in-nose flavour release monitored through PTR-MS was noticed during chewing gum consumption, in agreement with the findings from sensory evaluation. Single physiological parameters do not explain the relation between flavour in nose release and perception during consumption., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

5. Quantification and Bitter Taste Contribution of Lipids and Their Oxidation Products in Pea-Protein Isolates (

Author

Peter, Gläser, Verena Karolin, Mittermeier-Kleßinger, Andrea, Spaccasassi, Thomas, Hofmann, and Corinna, Dawid

Subjects

Taste, Peas, Humans, Lipids, Chromatography, High Pressure Liquid, Pea Proteins

Abstract

An ultra-high-performance liquid chromatography-differential ion mobility (DMS)-tandem mass spectrometry method was developed to quantify 14 bitter-tasting lipids in 17 commercial pea-protein isolates (

Published

2021

6. Ethnicity, gender and physiological parameters: Their effect on in vivo flavour release and perception during chewing gum consumption

Author

M. Pedrotti, Franco Biasioli, Vincenzo Fogliano, and A. Spaccasassi

Subjects

Adult, Male, media_common.quotation_subject, Flavour, Oral cavity, Mass Spectrometry, Chewing Gum, Young Adult, Sex Factors, stomatognathic system, Perception, Ethnicity, Humans, Food science, Proton-transfer-reaction mass spectrometry, VLAG, media_common, Mouth, Volatile Organic Compounds, Chemistry, In-vivo analysis, Cross-cultural, Sweetness, Flavour release, Chewing gum, PTR-MS, Flavoring Agents, Settore AGR/15 - SCIENZE E TECNOLOGIE ALIMENTARI, Food Quality and Design, Gender effect, Taste, Female, Time intensity, Food Science, Mentha

Abstract

In this study, the impact of physiological parameters, ethnicity and gender on flavour perception and flavour release of chewing gum was investigated. Proton Transfer Reaction Mass Spectrometry in-nose monitoring of volatile organic compounds was coupled to discontinuous time intensity sensory evaluation for mint flavour and sweetness perception. Each of the 29 subjects, 14 European and 15 Chinese panelists (13 male and 16 females, age 24 ± 1.4 years old) consumed the samples in triplicates. Physiological parameters (oral cavity volume, salivary flow, acetone and isoprene concentration and fungiform papillae density) were measured. Significant differences for in vivo flavour release between Chinese and European panelists after 90 s of consumption and after the gum was removed from the mouth were found. Significant differences were observed also in flavour and sweetness perception while no gender effect was detected. In this work, for the first time an effect of ethnicity on in-nose flavour release monitored through PTR-MS was noticed during chewing gum consumption, in agreement with the findings from sensory evaluation. Single physiological parameters do not explain the relation between flavour in nose release and perception during consumption.

Published

2018