Browsing by Subject "Lifespan"

Now showing 1 - 4 of 4
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    Bioactive potential and spectroscopical characterization of a novel family of plant pigments betalains derived from dopamine
    (Elsevier, 2022-09-22) Henarejos Escudero, Paula; Hernández García, Samanta; Martínez Rodríguez, Pedro; Gandía Herrero, Fernando; García Carmona, Francisco; Bioquímica y Biología Molecular "A"
    With two compounds first discovered in quinoa, an entire novel family of betalain pigments derived from dopamine is obtained and characterized. Betalains are nitrogenous water-soluble pigments and bioactive molecules with health-promoting effects and nutraceutical potential. It was assumed that all betalains contained betalamic acid as a structural unit derived from L-dihydroxyphenylalanine (L-DOPA). However, hitherto ignored compounds derived from dopamine have recently been discovered in nature. Here an entire family of betalains is described as decarboxylated pigments where 6-decarboxy-betalamic acid is the chromophoric and structural unit. This paper shows for the first time the production, purification and characterization of color and fluorescent properties of this novel family of pigments. Antioxidant and anti-aging effects of the just discovered betalains were tested in vivo using the animal model Caenorhabditis elegans. Some of them presented extraordinary properties, being glutamic acid-6-decarboxy-betaxanthin the most fluorescent molecule among both families of betalains. Methionine sulfoxide-6-decarboxy-betaxanthin is described as the most potent betalain in the reduction of oxidative stress in vivo in C. elegans (99.5 % at 25 µM) and dopa-6-decarboxy-betaxanthin increased the lifespan of the animal model up to 7.0 % at 25 µM. These results open new research lines in the search for molecules from plants with health-promoting properties and bioactivities.
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    Effect of sow body weight at first service on body status and performance during first parity and lifetime
    (MDPI, 2022-12-02) Carrión López, María José; Orengo Femenia, Juan; Madrid Sánchez, Josefa; Vargas, Antonio; Martínez Miró, Silvia; Producción Animal
    In this retrospective study, we aimed to assess the effect of body weight (BW) at first service on body status development and sow performance during first parity and lifetime efficiency. A total of 360 DanBred gilts were used, which we categorized into three groups according to their BW: (1) Small sows (<135 kg BW; n = 108); (2) Medium sows (135–150 kg BW; n = 155); (3) Large sows (>150 kg BW; n = 63). We studied the gilts from first insemination to first weaning, and then monitored until culling. Sow body status, litter size and weight, farrowing rate, weaning-to-conception interval, lifetime performance, and hormones linked to metabolism were recorded. Sows in the Small group had the lowest body weight, backfat thickness, and loin depth during gestation. Moreover, they had the smallest number of total piglets born and longest weaning-to-conception interval at first parity. The Small sows also had, on average, one less piglet born during their productive life, and they tended to have a higher culling rate over three parities. For immunoglobulins, insulin, cortisol, and IGF-I levels, no differences were found. In conclusion, achieving optimal body weight at first service is essential for maximizing the sow’s lifetime performance.
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    Extension of life-span using a RNAi model and in vivo antioxidant effect of Opuntia fruit extracts and pure betalains in Caenorhabditis elegans
    (Elsevier, 2018-09-11) Guerrero Rubio, M. Alejandra; Hernández García, Samanta; Gandía Herrero, Fernando; García Carmona, Francisco; Bioquímica y Biología Molecular A
    Betalains are nitrogenous plant pigments known for their high antioxidant capacity. For the first time, this antioxidant nature has been studied in an in vivo system using the model organism Caenorhabditis elegans. The oxidative stress caused in the fluorescent strain TJ375 (hsp-16.2::GFP) was reversed by the presence of both natural and semi-synthetic betalains, with an ED50 value around 25 μM for betacyanins and up to 10 μM for betaxanthins, with indicaxanthin, the major pigments in prickly pear fruits, as the most effective betalain. The effect of model betalains on the lifespan of the wild-type N2 strain was carefully studied using the automatic platform “Lifespan Machine”. In a search for different approaches to suppress progeny, pop-1 RNAi was used to avoid FUdR use. The presence of betalains in the medium, both as pure compounds and as enriched Opuntia extracts significantly increased the lifespan of C. elegans
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    Membrane lipids and maximum lifespan in clownfish
    (Springer, 2021-12-04) Almaida Pagán, Pedro Francisco; Lucas-Sanchez, A; Martinez-Nicolas, A; Terzibasi, E; Rol de Lama, MA; Cellerino, A; Mendiola, P; de Costa, J; Fisiología
    The longevity-homeoviscous adaptation (LHA) theory of ageing states that lipid composition of cell membranes is linked to metabolic rate and lifespan, which has been widely shown in mammals and birds but not sufficiently in fish. In this study, two species of the genus Amphiprion (Amphiprion percula and Amphiprion clarkii, with estimated maximum lifespan potentials [MLSP] of 30 and 9–16 years, respectively) and the damselfish Chromis viridis (estimated MLSP of 1–2 years) were chosen to test the LHA theory of ageing in a potential model of exceptional longevity. Brain, livers and samples of skeletal muscle were collected for lipid analyses and integral part in the computation of membrane peroxidation indexes (PIn) from phospholipid (PL) fractions and PL fatty acid composition. When only the two Amphiprion species were compared, results pointed to the existence of a negative correlation between membrane PIn value and maximum lifespan, well in line with the predictions from the LHA theory of ageing. Nevertheless, contradictory data were obtained when the two Amphiprion species were compared to the shorter-lived C. viridis. These results along with those obtained in previous studies on fish denote that the magnitude (and sometimes the direction) of the differences observed in membrane lipid composition and peroxidation index with MLSP cannot explain alone the diversity in longevity found among fishes.