Your search keyword '"GIL, VERÓNICA"' showing total 8 results

1. Impact of lactic acid bacteria inoculation on fungal diversity during Spanish-style green table olive fermentations

Author

López-García, Elio, Romero-Gil, Verónica, Arroyo-López, Francisco Noé, and Benítez-Cabello, Antonio

Published

2024

2. Immune Biomarkers in Metastatic Castration-resistant Prostate Cancer

Author

Fenor de la Maza, María Dolores, Chandran, Khobe, Rekowski, Jan, Shui, Irene M., Gurel, Bora, Cross, Emily, Carreira, Suzanne, Yuan, Wei, Westaby, Daniel, Miranda, Susana, Ferreira, Ana, Seed, George, Crespo, Mateus, Figueiredo, Ines, Bertan, Claudia, Gil, Veronica, Riisnaes, Ruth, Sharp, Adam, Rodrigues, Daniel Nava, Rescigno, Pasquale, Tunariu, Nina, Liu, Xiao Qiao, Cristescu, Razvan, Schloss, Charles, Yap, Christina, and de Bono, Johann S.

Published

2022

3. Evaluation of the potential of a quinidine-based monolithic column on the enantiomeric separation of herbicides by nano-liquid chromatography

Author

Zhang, Qiaoxuan, Gil, Verónica, Sánchez-López, Elena, García, María Ángeles, Jiang, Zhengjin, and Marina, María Luisa

Published

2015

4. Impact of gut microbiota on plasma oxylipins profile under healthy and obesogenic conditions.

Author

Ávila-Román, Javier, Arreaza-Gil, Verónica, Cortés-Espinar, Antonio J., Soliz-Rueda, Jorge R., Mulero, Miquel, Muguerza, Begoña, Arola-Arnal, Anna, Arola, Lluís, and Torres-Fuentes, Cristina

Abstract

Oxylipins (OXLs) are bioactive lipid metabolites derived from polyunsaturated fatty acids (PUFAs) which act as signaling molecules and are involved in inflammatory processes such as those that occur in obesity. On the other hand, gut microbiota plays an essential role in regulating inflammatory responses. However, little is known about the potential impact of gut bacteria on OXLs metabolism. Thus, the objective of this study was to investigate the effect of gut microbiota dysbiosis on plasma oxylipins profile in healthy and diet-induced obese animals. Eight-week-old male Wistar rats were fed with either a standard or cafeteria diet (CAF) for 5 weeks and administered an antibiotic cocktail (ABX) in the drinking water (Ampicillin: 1 g/ml, Vancomycin: 0.5 g/ml, Imipenem: 0.25 g/ml) for the last 2 weeks in order to induce gut microbiota dysbiosis. Metabolomics analysis of OXLs in plasma was performed by HPLC–MS analysis. No antibiotic treated animals were included as controls. Plasma OXLs profile was significantly altered due to both CAF feeding and ABX administration. ABX effect was more pronounced under obesogenic conditions. Several significant correlations between different bacteria taxa and these lipid mediators were observed. Among these, the positive correlation of Proteobacteria with LTB4, a proinflammatory OXL involved in obesity-related disorders, was especially remarkable. Gut microbiota plays a key role in regulating these lipid metabolites and, therefore, affecting oxylipins-mediated inflammatory processes. These results are the first evidence to our knowledge of gut microbiota impact on OXLs metabolism. Moreover, this can set the basis for developing new obesity markers based on OXLs and gut microbiota profiles. • Gut microbiota dysbiosis altered the plasma profile of oxylipins (inflammatory lipid mediators) in healthy and obese rats. • Significant correlations between different bacteria taxa and oxylipins were found. • Gut microbiota may play a key role in regulating these lipid metabolites impacting on inflammatory processes. [ABSTRACT FROM AUTHOR]

Published

2021

5. Metataxonomic analysis of the bacterial diversity in table olive dressing components.

Author

Benítez-Cabello, Antonio, Romero-Gil, Verónica, Medina, Eduardo, Sánchez, Borja, Calero-Delgado, Beatriz, Bautista-Gallego, Joaquín, Jiménez-Díaz, Rufino, and Arroyo-López, Francisco Noé

Subjects

*BACTERIAL diversity, *PASTE, *HALOBACTERIUM, *MULTIVARIATE analysis, *FENNEL

Abstract

In this work, we have used a metataxonomic analysis to study the bacterial biodiversity in three types of commercial dressing and ingredients habitually used in table olive packaging. The bioinformatics analysis showed that salt samples (marine and spring) had the highest biodiversity indexes, followed by the aromatic herbs (thyme, oregano, and fennel) and finally by fermented dressing samples (garlic, pepper, and pepper paste). In salt samples, a significant high presence of Cytophagia , Sphingobacteria, Deltaproteobacteria and Halobacteria classes was observed. On the contrary, the presence of Bacilli class in fermented dressing samples was significantly higher compared to the other samples. Finally, the abundance of Gammaproteobacteria was statistically higher in the samples of herbs. At genus or family taxonomic level, Pseudomonas and diverse non-assigned genus of the Enterobacteriaceae family predominated in many samples of herbs. In fermented dressing samples, a diverse genus belonging to the Enterobacteriaceae family appeared in a high relative abundance in pepper paste and garlic, and the presence of Vibrio sp. was detected in pepper. However, Lactobacillus, Weisella, and Pediococcus were the predominant genera found in many of these fermented samples. Salinibacter was the most representative genus in both types of salt samples. Multivariate analysis (PCA) of the metataxonomic data sets discriminated well the samples belonging to the three different groups, showing a high proportion of sequences shared by samples-group. This survey reports for the first time the presence of new bacterial species not previously related to table olive processing, as well as the presence of others which could compromise the stability of olive packaging. • Metataxonomic analysis has provided a deep knowledge of the microbiota present in olive dressing. • Pseudomonas and diverse non-assigned genus of Enterobacteriaceae predominated in aromatic herbs. • Lactobacillus , Weisella, and Pediococcus were the predominant genera found in many fermented dressing samples. • Salinibacter was the most representative genus found in samples of salt. • Olive dressing includes spoilage microorganisms that may alter the stability of table olive packaging. [ABSTRACT FROM AUTHOR]

Published

2019

6. Chitosan hydrogels functionalized with either unfractionated heparin or bemiparin improve diabetic wound healing.

Author

Cifuentes, Alberto, Gómez-Gil, Verónica, Ortega, Miguel A., Asúnsolo, Ángel, Coca, Santiago, Román, Julio San, Álvarez-Mon, Melchor, Buján, Julia, and García-Honduvilla, Natalio

Subjects

*WOUND healing, *HEPARIN, *HYDROGELS, *CHITOSAN, *SCARS

Abstract

• Functionalized hydrogels improved diabetes-associated impaired wound healing. • Bemiparin showed a greater capacity for collagen maturation and contributes to the stabilization of neoformed scar tissue. • Chitosan hydrogels promote the progression of the reparative process and induce the formation of stable scar tissue. • Quality of scar tissue at 21 days is clearly better and this would lead us, to a lower recurrence of ulcers. Diabetes mellitus causes severe impairment in the cutaneous wound healing process, which has led to extensive research striving to establish new treatments. In this work, we describe the effects of chitosan hydrogels functionalized with either unfractionated heparin or bemiparin (a low molecular weight heparin, LMWH) as topical treatments in an experimental diabetic wound healing model. Although wound morphometry showed similar values at the end of the study, microscopic analyses revealed impaired healing in diabetic animals in terms of inflammation and tissue formation. However, both types of loaded hydrogels accelerated inflammation resolution and improved the epithelialization process, while showing a neodermal thickness similar to that of nondiabetic animals. Immunohistochemistry analyses revealed an intermediate response in macrophage evolution between diabetic and nondiabetic controls in the treated groups, as well as enhanced collagenization and myofibroblast progression patterns. However, these changes were not accompanied by differences among groups in collagen I, III and TGF-β1 gene expression. Functionalized hydrogels improved diabetes-associated impaired wound healing, thus promoting the progression of the process and inducing the formation of high-quality cicatricial tissue. Although the beneficial healing effect observed after topical treatment with chitosan hydrogels loaded with bemiparin or unfractionated heparin was similar, the chitosan hydrogel loaded with bemiparin is the preferred choice as it exhibited high-quality tissue in the neoformed dermal tissue. [ABSTRACT FROM AUTHOR]

Published

2020

7. Delving into the bacterial diversity of spoiled green Manzanilla Spanish-style table olive fermentations.

Author

Arroyo-López, Francisco Noé, Benítez-Cabello, Antonio, Romero-Gil, Verónica, Rodríguez-Gómez, Francisco, and Garrido-Fernández, Antonio

Subjects

*BACTERIAL diversity, *FERMENTATION, *FERMENTATION products industry, *ENTEROBACTER, *ENTEROCOCCUS, *OLIVE

Abstract

This work applies metataxonomic, standard statistics, and compositional data (CoDa) techniques to study the bacterial diversity of spoiled and normal Spanish-style table olive fermentations, analysing a total of 10-tons of industrial fermentation containers from two processing yards. Forty percent were affected by butyric, sulfidic, or putrid spoilage, while 60% followed the ordinary fermentation course. The samples were obtained at 30 days of fermentation, determining their 16S rRNA gene Amplicon Sequence Variant compositions (ASVs). The butyric containers showed a bacterial profile strongly associated with the genera Enterococcus , Leuconostoc , and Atlantibacter , but also with Lactiplantibacillus and Melissococcus , and less confident to Raoultella , Enterobacter , Serratia , and Celerinatantimonas. The sulfidic fermentation was linked to Alkalibacterium and, to a lesser extent, Marinilactibacillus and the absence of Lactiplantibacillus. Putrid spoilage was mainly related to Halolactibacillus and Alkalibacterium. Sulfidic/putrid (together) differed from butyric spoilage by the presence of Alkalibacterium / Marinilactibacillus as well as by Halomonas / Halanaerobium. Lactiplantibacillus dominated normal fermentations, but Vibrio was also frequently found (0–46%), apparently not causing any alteration. These results contribute to a better microbial characterisation of non-zapatera spoiled table olive fermentations. They also suggest using several statistical techniques to discriminate normal vs spoiled fermentations adequately. • Bacterial profiles of spoiled industrial table olive fermentation vessels was studied. • Butyric spoilage was mainly related to Enterococcus , Leuconostoc , and Atlantibacter. • Sulfidic spoilage was primary associated with Alkalibacterium. • Putrid spoilage was linked to Halolactobacillus and Alkalibacterium. • Propionibacterium , Bacillus or Pseudomonas were not detected in the spoiled vessels. [ABSTRACT FROM AUTHOR]

Published

2021

8. Bacterial metataxonomic analysis of industrial Spanish-style green table olive fermentations.

Author

López-García, Elio, Benítez-Cabello, Antonio, Rodríguez-Gómez, Francisco, Romero-Gil, Verónica, Garrido-Fernández, Antonio, Jiménez-Díaz, Rufino, and Arroyo-López, Francisco Noé

Subjects

*FERMENTATION, *OLIVE, *LACTIC acid bacteria, *BACTERIAL population

Abstract

In this work, metataxonomic-compositional data analysis was applied to study the influence of inoculation, type of ecosystem (brine or fruit), and time of fermentation (0, 24, and 83 days) on the bacterial composition dynamic during industrial Manzanilla Spanish-style green table olive fermentations. Differences in the physicochemical and microbiological characteristics between inoculated and spontaneous fermentations were scarce, except for the high lactic acid bacteria population (>10 million CFU/g) in the inoculated olive biofilms. The metataxonomic analysis showed eight relevant taxa (Lactiplantibacillus, Vibrio, Halolactibacillus, Aerococcus, Catenococcus, Salinivibrio, Alkalibacterium, and Marinilactibacillus) and absence of pathogens, but the microbiota composition markedly changed throughout fermentation. At the process onset, the main genera were Vibrio, Halolactibacillus, Marinilactibacillus, and Alkalibacterium, while Lactiplantibacillus was almost absent. Regardless of inoculation, Lactiplantibacillus became the predominant genus as the fermentation progressed, albeit Vibrio, Marinilactibacillus, Alkalibacterium, and Halolactibacillus also persisted until the end of the process (but did not cause spoilage). Ferrimonas genus was detected for the first time in table olives, being found in 71% of the samples. Besides, there was more bacterial biodiversity in the brine ecosystem than olive biofilms. Overall, inoculation led to more homogenous and equilibrated bacterial populations at the end of the process. This study expands the knowledge on the bacterial population changes occurring during industrial table olive fermentation, the differences between populations in brines and biofilms, and the beneficial effects of inoculation for using table olives as a carrier of beneficial microorganisms. • Compositional analysis provided new insights of food metataxonomic data. • Low number of bacterial genera typifies green Spanish-style table olive processing. • Lactiplantibacillus became the predominant genera as the fermentation progressed. • Inoculation led to more homogenous bacterial populations at the end of the process. [ABSTRACT FROM AUTHOR]

Published

2022