6 results on '"Costa, Mónica"'
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2. Effect of Dietary Laminaria digitata with Carbohydrases on Broiler Production Performance and Meat Quality, Lipid Profile, and Mineral Composition.
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Costa, Mónica M., Pestana, José M., Osório, Diogo, Alfaia, Cristina M., Martins, Cátia F., Mourato, Miguel, Gueifão, Sandra, Rego, Andreia M., Coelho, Inês, Coelho, Diogo, Lemos, José P. C., Fontes, Carlos M. G. A., Lordelo, Madalena M., and Prates, José A. M.
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MEAT quality , *CARBOHYDRASES , *LAMINARIA , *ALGINATES , *METHIONINE , *CAROTENOIDS , *MECKEL diverticulum - Published
- 2022
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3. Influence of Feeding Weaned Piglets with Laminaria digitata on the Quality and Nutritional Value of Meat.
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Ribeiro, David Miguel, Alfaia, Cristina M., Pestana, José M., Carvalho, Daniela F. P., Costa, Mónica, Martins, Cátia F., Lemos, José P. C., Mourato, Miguel, Gueifão, Sandra, Delgado, Inês, Carvalho, Patrícia, Coelho, Diogo, Coelho, Inês, Freire, João P. B., Almeida, André M., and Prates, José A. M.
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NUTRITIONAL value ,LAMINARIA ,PIGLETS ,ANIMAL weaning ,MEAT quality ,DIGESTIVE organs ,MEAT ,BROMINE - Abstract
Laminaria digitata is a novel feedstuff that can be used in pig diets to replace conventional feedstuffs. However, its resilient cell wall can prevent the monogastric digestive system from accessing intracellular nutrients. Carbohydrate-active enzyme (CAZyme) supplementation is a putative solution for this problem, degrading the cell wall during digestion. The objective of this work was to evaluate the effect of 10% L. digitata feed inclusion and CAZyme supplementation on the meat quality and nutritional value of weaned piglets. Forty weaned piglets were randomly allocated to four experimental groups (n = 10): control, LA (10% L. digitata, replacing the control diet), LAR (LA + CAZyme (0.005% Rovabio
® Excel AP)) and LAL (LA + CAZyme (0.01% alginate lyase)) and the trial lasted for two weeks. The diets had no effect on any zootechnical parameters measured (p > 0.05) and meat quality traits, except for the pH measured 24 h post-mortem, which was higher in LAL compared to LA (p = 0.016). Piglets fed with seaweed had a significantly lower n-6/n-3 PUFA ratio compared to control, to which the higher accumulation of C20:5n-3 (p = 0.001) and C18:4n-3 (p < 0.0001) contributed. In addition, meat of seaweed-fed piglets was enriched with bromine (Br, p < 0.001) and iodine (I, p < 0.001) and depicted a higher oxidative stability. This study demonstrates that the nutritional value of piglets' meat could be improved by the dietary incorporation of L. digitata, regardless of CAZyme supplementation, without negatively affecting growth performance in the post-weaning stage. [ABSTRACT FROM AUTHOR]- Published
- 2022
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4. An individual alginate lyase is effective in the disruption of Laminaria digitata recalcitrant cell wall.
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Costa, Mónica, Pio, Luís, Bule, Pedro, Cardoso, Vânia, Alfaia, Cristina M., Coelho, Diogo, Brás, Joana, Fontes, Carlos M. G. A., and Prates, José A. M.
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ALGINATE lyase , *LAMINARIA digitata , *ALGAL cell walls , *HYDROLYSIS , *MONOUNSATURATED fatty acids - Abstract
In the present study, 199 pre-selected Carbohydrate-Active enZymes (CAZymes) and sulfatases were assessed, either alone or in combination, to evaluate their capacity to disrupt Laminaria digitata cell wall, with the consequent release of interesting nutritional compounds. A previously characterized individual alginate lyase, belonging to the family 7 of polysaccharide lyases (PL7) and produced by Saccharophagus degradans, was shown to be the most efficient in the in vitro degradation of L. digitata cell wall. The alginate lyase treatment, compared to the control, released up to 7.11 g/L of reducing sugars (p < 0.001) and 8.59 mmol/100 g dried alga of monosaccharides (p < 0.001), and reduced cell wall fluorescence intensity by 39.1% after staining with Calcofluor White (p = 0.001). The hydrolysis of gel-forming polymer alginate by the alginate lyase treatment could prevent the trapping of fatty acids and release beneficial monounsaturated fatty acids, particularly 18:1c9 (p < 0.001), to the extracellular medium. However, no liberation of proteins (p > 0.170) or pigments (p > 0.070) was observed. Overall, these results show the ability of an individual alginate lyase, from PL7 family, to partially degrade L. digitata cell wall under physiological conditions. Therefore, this CAZyme can potentially improve the bioavailability of L. digitata bioactive compounds for monogastric diets, with further application in feed industry. [ABSTRACT FROM AUTHOR]
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- 2021
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5. The impact of dietary Laminaria digitata and alginate lyase supplementation on the weaned piglet liver: A comprehensive proteomics and metabolomics approach.
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Ribeiro, David M., Leclercqc, Celine C., Charton, Sophie A.B., Costa, Mónica M., Carvalho, Daniela F.P., Sergeant, Kjell, Cocco, Emmanuelle, Renaut, Jenny, Freire, João P.B., Prates, José A.M., and de Almeida, André M.
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ALGINIC acid , *LAMINARIA , *ALGINATES , *PIGLETS , *FATTY acid oxidation , *PROTEOMICS - Abstract
The brown seaweed Laminaria digitata , a novel feedstuff for weaned piglets, has potentially beneficial prebiotic properties. However, its recalcitrant cell wall challenges digestion in monogastrics. Alginate lyase is a promising supplement to mitigate this issue. This study's aim was to investigate the impact of incorporating 10% dietary Laminaria digitata , supplemented with alginate lyase, on the hepatic proteome and metabolome of weaned piglets. These diets introduced minor variations to the metabolome and caused significant shifts in the proteome. Dietary seaweed provided a rich source of n-3 PUFAs that could signal hepatic fatty acid oxidation (FABP, ACADSB and ALDH1B1). This may have affected the oxidative stability of the tissue, requiring an elevated abundance of GST for regulation. The presence of reactive oxygen species likely inflicted protein damage, triggering increased proteolytic activity (LAPTM4B and PSMD4). Alginate lyase supplementation augmented the number of differentially abundant proteins, which included GBE1 and LDHC, contributing to maintain circulating glucose levels by mobilizing glycogen stores and branched-chain amino acids. The enzymatic supplementation with alginate lyase amplified the effects of the seaweed-only diet. An additional filter was employed to test the effect of missing values on the proteomics analysis, which is discussed from a technical perspective. Brown seaweeds such as Laminaria digitata have prebiotic and immune-modulatory components, such as laminarin, that can improve weaned piglet health. However, they have recalcitrant cell wall polysaccharides, such as alginate, that can elicit antinutritional effects on the monogastric digestive system. The aim of this study was to evaluate the effect of a high level of dietary L. digitata and alginate lyase supplementation on the hepatic metabolism of weaned piglets, using high throughput Omics approaches. [Display omitted] • Alginate lyase can potentially reduce digestibility issues of Laminaria digitata, in vivo. • The hepatic metabolome was less affected by experimental diets than the proteome. • PUFA signalling enhanced FA oxidation, compromising oxidative homeostasis. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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6. Enhanced ileum function in weaned piglets via Laminaria digitata and alginate lyase dietary inclusion: A combined proteomics and metabolomics analysis.
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Ribeiro, David Miguel, Leclercq, Céline C., Charton, Sophie A.B., Costa, Mónica M., Carvalho, Daniela Filipa Pires, Cocco, Emmanuelle, Sergeant, Kjell, Renaut, Jenny, Freire, João Pedro Bengala, Prates, José António Mestre, and de Almeida, André Martinho
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LAMINARIA , *ALGINIC acid , *PIGLETS , *ILEUM , *PROTEOMICS , *METABOLOMICS , *PEPTIDASE , *ALGINATES - Abstract
Laminaria digitata, a brown seaweed with prebiotic properties, can potentially enhance the resilience of weaned piglets to nutritional distress. However, their cell wall polysaccharides elude digestion by monogastric animals' endogenous enzymes. In vitro studies suggest alginate lyase's ability to degrade such polysaccharides. This study aimed to assess the impact of a 10% dietary inclusion of L. digitata and alginate lyase supplementation on the ileum proteome and metabolome, adopting a hypothesis-generating approach. Findings indicated that control piglets escalated glucose usage as an enteric energy source, as evidenced by the increased abundance of PKLR and PCK2 proteins and decreased tissue glucose concentration. Additionally, the inclusion of seaweed fostered a rise in proteins linked to enhanced enterocyte structural integrity (ACTBL2, CRMP1, FLII, EML2 and MYLK), elevated peptidase activity (NAALADL1 and CAPNS1), and heightened anti-inflammatory activity (C3), underscoring improved intestinal function. In addition, seaweed-fed piglets showed a reduced abundance of proteins related to apoptosis (ERN2) and proteolysis (DPP4). Alginate lyase supplementation appeared to amplify the initial effects of seaweed-only feeding, by boosting the number of differential proteins within the same pathways. This amplification is potentially due to increased intracellular nutrient availability, making a compelling case for further exploration of this dietary approach. Pig production used to rely heavily on antibiotics and zinc oxide to deal with post-weaning stress in a cost-effective way. Their negative repercussions on public health and the environment have motivated heavy restrictions, and a consequent search for alternative feed ingredients/supplements. One of such alternatives is Laminaria digitata , a brown seaweed whose prebiotic components that can help weaned piglets deal with nutritional stress, by improving their gut health and immune status. However, their recalcitrant cell walls have antinutritional properties, for which alginate lyase supplementation is a possible solution. By evaluating ileal metabolism as influenced by dietary seaweed and enzyme supplementation, we aim at discovering how the weaned piglet adapts to them and what are their effects on this important segment of the digestive system. [Display omitted] • Laminaria digitata is a prebiotic seaweed with low cell wall digestibility. • Alginate lyase has been demonstrated as an effective solution in vitro. • Dietary seaweed lowers enteric glucose utilization and lowers inflammatory pathways. • Enzymatic supplementation seemingly magnifies these effects. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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