946 resultados para Free-radical Polymerization
Resumo:
Palm juice, a common-cheap-antioxidants rich natural plant juice has been investigated for optimizing the effect of UV-radiation on the antioxidant activity using a DPPH free radical scavenging activity method. In this study separate set of samples of raw palm juice has been treated with 365 and 254 nm UV-lights (UVL) respectively for different exposure time. When exposed for 15 min with 365 nm UVL induces concentration factor of caffeic acid, whereas, 254 nm UVL induces gallic acid accumulation, but overall antioxidant activity was higher for 365 nm UVradiation. Caffeic acid and other polyphenol compounds are increased by 5.5 ± 0.5 % than normal palm juice, observed after irradiation with 365 nm UVL. Even after the exposure of UV irradiation for 15 min, did not affect on peptide bond modification of protein molecules present in palm juice, therefore a green effect of UVL is explored for the effective increase of antioxidant activity.
Resumo:
La crioconservación se ha descrito como una técnica de conservación ex situ a largo plazo que ha sido aplicada con éxito a numerosas especies, y resulta especialmente importante en aquellas con propagación vegetativa, infértiles o amenazadas, en las que sistemas de conservación ex situ más sencillos, como los bancos de semillas, no son posibles. También presenta ventajas frente a la conservación in vitro, ya que logra disminuir o eliminar problemas como la excesiva manipulación del material, evitando los subcultivos periódicos y disminuyendo así el riesgo de contaminaciones y de aparición de variación somaclonal. Sin embargo, someter al material vegetal a los procedimientos que implica la crioconservación provoca distintos estreses. Entre ellos, el estrés oxidativo puede potencialmente producir daños en membranas, proteínas, carbohidratos y en el ADN. En este trabajo se han evaluado diversos sistemas de crioconservación en ápices de Mentha × piperita L., híbrido estéril entre Mentha aquatica L. y Mentha spicata L. Se han utilizado ápices de dos genotipos (‘MEN 186’y ‘MEN 198’) en los cuales se compararon dos técnicas de crioconservación, encapsulación-deshidratación y vitrificación-droplet. El análisis de la supervivencia y capacidad de regeneración del material sometido a los tratamientos de crioconservación, junto con el análisis de la estabilidad genética de dicho material mediante marcadores moleculares (RAPD y AFLP) han permitido comparar los distintos protocolos y tratamientos establecidos. El estudio sobre el tipo de protocolo empleado reveló una mayor variabilidad genética en la técnica de encapsulación-deshidratación, especialmente en el genotipo ‘MEN 186’, ya que ‘MEN 198’ resultó ser más estable en todos los análisis. La inestabilidad encontrada en esta técnica no fue exclusiva de aquellos explantos crioconservados, sino que los pasos previos a la inmersión en nitrógeno líquido (NL) también provocaron variaciones en el ADN. Según el tipo de muestra analizada se encontraron diferencias en la estabilidad: muestras provenientes de callos presentaron una mayor inestabilidad que aquellas de hojas (brotes). Se utilizaron tres medios para la recuperación de los ápices tras la crioconservación con el uso de diferentes combinaciones de reguladores de crecimiento: “Reed” (0,5 mgL-1 6-bencilaminopurina, BAP), “Senula” (0,5 mgL-1 6-dimetilalilamino-purina, 2-iP + 0,1 mgL-1 ácido α-naftalen-acético, ANA) y “Nudos” (0,5 mgL-1 BAP + 0,1 mgL-1ANA). El medio “Reed” produjo un aumento en la supervivencia y recuperación de los ápices en ambos genotipos y técnicas, y disminuyó la formación de callo. Sin embargo, no tuvo un efecto significativo en la estabilidad genética. El medio “Senula” provocó una mayor estabilidad genética en el genotipo más inestable, ‘MEN 186’. Para reducir el daño oxidativo producido durante la encapsulación-deshidratación, e incrementar la recuperación de los ápices manteniendo su estabilidad genética, se comparó el efecto de añadir sustancias antioxidantes en el precultivo de los ápices (ácido ascórbico, vitamina E y glutatión). No se obtuvo la respuesta esperada y estos tratamientos no presentaron efectos significativos tanto en la estabilidad como en la recuperación. Para entender mejor qué sucede durante todo el proceso de encapsulación-deshidratación, se evaluó cada paso del protocolo por separado y su efecto en la estabilidad y la recuperación. Además, se determinó el estado de oxidación en cada etapa mediante la cuantificación de malondialdehído y la detección de la formación de radicales libres (mediante el ensayo del ácido tiobarbitúrico, y sondas fluorescentes específicas, respectivamente). Se determinó que a partir de los primeros pasos se genera estrés oxidativo, el cual aumenta a medida que se avanza por el protocolo hasta la inmersión en nitrógeno líquido. Esto se ve reflejado en la disminución progresiva tanto de la recuperación como de la estabilidad genética. Con el uso de antioxidantes en el precultivo (ácido ascórbico y vitamina E) no se obtuvo un efecto positivo en el mantenimiento de la estabilidad genética, y tan sólo con el uso de vitamina E se observó una recuperación mayor en uno de los pasos estudiados (después de la desecación). Sin embargo, cuando se utilizó ácido ascórbico durante el precultivo o la deshidratación osmótica se consiguió disminuir de forma significativa la formación de MDA y la acumulación del radical superóxido (O2•-) en la mayoría los pasos analizados, aunque esta reducción no parece tener un efecto directo en la estabilidad genética del material recuperado. ABSTRACT Cryopreservation has been described as an effective technique for the long term of ex situ conservation that has been successfully applied to numerous species, and is of especial relevance for those with vegetative propagation, infertile or endangered, in which simpler systems of ex situ conservation, such as seed banking, are not feasible. It also has advantages over in vitro conservation, as it reduces or eliminates excessive material handling, avoids periodic subcultures and thus limits the risk of contamination and the appearance of somaclonal variation. However, plant material is subjected to different treatments involved in the cryopreservation procedures, which impose several stresses. Among them, oxidative stress can potentially cause damage to membranes, proteins, carbohydrates and DNA. In this work, two cryopreservation techniques have been evaluated in Mentha × piperita L. shoot tips, sterile hybrid between Mentha aquatica L. and Mentha spicata L. Two genotypes ('MEN 186' and 'MEN 198') were used to compare two techniques: encapsulation-dehydration and droplet-vitrification. The analysis of survival and recovery capacity of the material after the cryopreservation treatments, and the analysis of the genetic stability by molecular markers (RAPD and AFLP) have enabled the comparison between protocols and treatments. The study of the two cryopreservation procedures revealed a higher genetic variability in the encapsulation-dehydration technique, especially in genotype 'MEN 186', as 'MEN 198' was more stable in all analyses. The instability generated in this technique was not exclusive of cryopreserved explants, pretreatments prior to immersion in NL also caused DNA variations. The type of sampled plant material revealed also differences in the stability: callus samples showed greater instability than shoots. Three different culture media were used for the recovery of shoot tips after cryopreservation, using different combinations of growth regulators: "Reed" (0.5 mgL-1 6-benzylaminopurine, BAP), "Senula" (0.5 mgL-1 6-dimetilalilamino-purine, 2-iP + 0.1 mgL-1 α-naphthalene acetic acid, ANA) and "Nodes" (0.5 mgL-1 BAP + 0.1 mgL-1 ANA). "Reed" medium increased survival and recovery of shoot tips in both genotypes and techniques and decreased callus formation. However, it didn`t have a significant effect on genetic stability. "Senula" medium caused a higher genetic stability in the most unstable genotype, 'MEN 186'. To reduce oxidative damage during encapsulation-dehydration, and increase shoot tip recovery and maintain genetic stability, the effect of added antioxidants (ascorbic acid, vitamin E and glutathione) in the shoot tip preculture medium was studied. These treatments had no significant effect on both stability and recovery. To better understand the events during the encapsulation-dehydration process, the effect of each step of the protocol on stability and recovery was evaluated separately. Moreover, the oxidation level was determined by quantifying malondialdehyde (MDA) formation and detecting free radical accumulation (using the thiobarbituric acid assay, and specific fluorescent probes, respectively). The oxidative stress was detected from the first steps and increased throughout the protocol until the immersion in liquid nitrogen. This was also reflected in the gradual decline of recovery and genetic stability. The use of antioxidants (ascorbic acid and vitamin E) in the shoot tip preculture medium had no effect in maintaining genetic stability; only vitamin E increased recovery in one of the steps studied (after desiccation). However, when ascorbic acid was used during the preculture or during the osmotic dehydration, a significantly decrease was observed in MDA formation and superoxide radical accumulation in most of the steps analyzed, although this reduction did not seem to have a direct effect on the genetic stability of recovered material.
Resumo:
Two regioisomers with C3 or D3 symmetry of water-soluble carboxylic acid C60 derivatives, containing three malonic acid groups per molecule, were synthesized and found to be equipotent free radical scavengers in solution as assessed by EPR analysis. Both compounds also inhibited the excitotoxic death of cultured cortical neurons induced by exposure to N-methyl-d-aspartate (NMDA), α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), or oxygen-glucose deprivation, but the C3 regioisomer was more effective than the D3 regioisomer, possibly reflecting its polar nature and attendant greater ability to enter lipid membranes. At 100 μM, the C3 derivative fully blocked even rapidly triggered, NMDA receptor-mediated toxicity, a form of toxicity with limited sensitivity to all other classes of free radical scavengers we have tested. The C3 derivative also reduced apoptotic neuronal death induced by either serum deprivation or exposure to Aβ1–42 protein. Furthermore, continuous infusion of the C3 derivative in a transgenic mouse carrying the human mutant (G93A) superoxide dismutase gene responsible for a form of familial amyotrophic lateral sclerosis, delayed both death and functional deterioration. These data suggest that polar carboxylic acid C60 derivatives may have attractive therapeutic properties in several acute or chronic neurodegenerative diseases.
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Stressed mammalian cells up-regulate heme oxygenase 1 (Hmox1; EC 1.14.99.3), which catabolizes heme to biliverdin, carbon monoxide, and free iron. To assess the potential role of Hmox1 in cellular antioxidant defense, we analyzed the responses of cells from mice lacking functional Hmox1 to oxidative challenges. Cultured Hmox1−/− embryonic fibroblasts demonstrated high oxygen free radical production when exposed to hemin, hydrogen peroxide, paraquat, or cadmium chloride, and they were hypersensitive to cytotoxicity caused by hemin and hydrogen peroxide. Furthermore, young adult Hmox1−/− mice were vulnerable to mortality and hepatic necrosis when challenged with endotoxin. Our in vitro and in vivo results provide genetic evidence that up-regulation of Hmox1 serves as an adaptive mechanism to protect cells from oxidative damage during stress.
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Chromosomal translocations induced by ionizing radiation and radiomimetic drugs are thought to arise by incorrect joining of DNA double-strand breaks. To dissect such misrepair events at a molecular level, large-scale, bleomycin-induced rearrangements in the aprt gene of Chinese hamster ovary D422 cells were mapped, the breakpoints were sequenced, and the original non-aprt parental sequences involved in each rearrangement were recovered from nonmutant cells. Of seven rearrangements characterized, six were reciprocal exchanges between aprt and unrelated sequences. Consistent with a mechanism involving joining of exchanged double-strand break ends, there was, in most cases, no homology between the two parental sequences, no overlap in sequences retained at the two newly formed junctions, and little or no loss of parental sequences (usually ≤2 bp) at the breakpoints. The breakpoints were strongly correlated (P < 0.0001) with expected sites of bleomycin-induced, double-strand breaks. Fluorescence in situ hybridization indicated that, in six of the mutants, the rearrangement was accompanied by a chromosomal translocation at the aprt locus, because upstream and downstream flanking sequences were detected on separate chromosomes. The results suggest that repair of free radical-mediated, double-strand breaks in confluence-arrested cells is effected by a conservative, homology-independent, end-joining pathway that does not involve single-strand intermediate and that misjoining of exchanged ends by this pathway can directly result in chromosomal translocations.
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Isoprostanes (iPs) are free radical catalyzed prostaglandin isomers. Analysis of individual isomers of PGF2α—F2-iPs—in urine has reflected lipid peroxidation in humans. However, up to 64 F2-iPs may be formed, and it is unknown whether coordinate generation, disposition, and excretion of F2-iPs occurs in humans. To address this issue, we developed methods to measure individual members of the four structural classes of F2-iPs, using liquid chromatography/tandem mass spectrometry (LC/MS/MS), in which sample preparation is minimized. Authentic standards of F2-iPs of classes III, IV, V, and VI were used to identify class-specific ions for multiple reaction monitoring. Using iPF2α-VI as a model compound, we demonstrated the reproducibility of the assay in human urine. Urinary levels of all F2-iPs measured were elevated in patients with familial hypercholesterolemia. However, only three of eight F2-iPs were elevated in patients with congestive heart failure, compared with controls. Paired analyses by GC/MS and LC/MS/MS of iPF2α-VI in hypercholesterolemia and of 8,12-iso-iPF2α-VI in congestive heart failure were highly correlated. This approach will permit high throughput analysis of multiple iPs in human disease.
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Eukaryotic Cu,Zn superoxide dismutases (CuZnSODs) are antioxidant enzymes remarkable for their unusually stable β-barrel fold and dimer assembly, diffusion-limited catalysis, and electrostatic guidance of their free radical substrate. Point mutations of CuZnSOD cause the fatal human neurodegenerative disease amyotrophic lateral sclerosis. We determined and analyzed the first crystallographic structure (to our knowledge) for CuZnSOD from a prokaryote, Photobacterium leiognathi, a luminescent symbiont of Leiognathid fish. This structure, exemplifying prokaryotic CuZnSODs, shares the active-site ligand geometry and the topology of the Greek key β-barrel common to the eukaryotic CuZnSODs. However, the β-barrel elements recruited to form the dimer interface, the strategy used to forge the channel for electrostatic recognition of superoxide radical, and the connectivity of the intrasubunit disulfide bond in P. leiognathi CuZnSOD are discrete and strikingly dissimilar from those highly conserved in eukaryotic CuZnSODs. This new CuZnSOD structure broadens our understanding of structural features necessary and sufficient for CuZnSOD activity, highlights a hitherto unrecognized adaptability of the Greek key β-barrel building block in evolution, and reveals that prokaryotic and eukaryotic enzymes diverged from one primordial CuZnSOD and then converged to distinct dimeric enzymes with electrostatic substrate guidance.
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Cells of the monocyte/macrophage lineage play a central role in both innate and acquired immunity of the host. However, the acquisition of functional competence and the ability to respond to a variety of activating or modulating signals require maturation and differentiation of circulating monocytes and entail alterations in both biochemical and phenotypic profiles of the cells. The process of activation also confers survival signals essential for the functional integrity of monocytes enabling the cells to remain viable in microenvironments of immune or inflammatory lesions that are rich in cytotoxic inflammatory mediators and reactive free-radical species. However, the molecular mechanisms of activation-induced survival signals in monocytes remain obscure. To define the mechanistic basis of activation-induced resistance to apoptosis in human monocytes at the molecular level, we evaluated the modulation of expression profiles of genes associated with the cellular apoptotic pathways upon activation and demonstrate the following: (i) activation results in selective resistance to apoptosis particularly to that induced by signaling via death receptors and DNA damage; (ii) concurrent with activation, the most apical protease in the death receptor pathway, caspase-8/FLICE is rapidly down-regulated at the mRNA level representing a novel regulatory mechanism; and (iii) activation of monocytes also leads to dramatic induction of the Bfl-1 gene, an anti apoptotic member of the Bcl-2 family. Our findings thus provide a potential mechanistic basis for the activation-induced resistance to apoptosis in human monocytes.
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Previously, we identified the heavy chain of ferritin as a developmentally regulated nuclear protein of embryonic chicken corneal epithelial cells. The nuclear ferritin is assembled into a supramolecular form indistinguishable from the cytoplasmic form of ferritin found in other cell types and thus most likely has iron-sequestering capabilities. Free iron, via the Fenton reaction, is known to exacerbate UV-induced and other oxidative damage to cellular components, including DNA. Since corneal epithelial cells are constantly exposed to UV light, we hypothesized that the nuclear ferritin might protect the DNA of these cells from free radical damage. To test this possibility, primary cultures of cells from corneal epithelium and stroma, and from skin epithelium and stroma, were UV irradiated, and DNA strand breaks were detected by an in situ 3′-end labeling method. Corneal epithelial cells without nuclear ferritin were also examined. We observed that the corneal epithelial cells with nuclear ferritin had significantly less DNA breakage than other cell types examined. Furthermore, increasing the iron concentration of the culture medium exacerbated the generation of UV-induced DNA strand breaks in corneal and skin fibroblasts, but not in the corneal epithelial cells. Most convincingly, corneal epithelial cells in which the expression of nuclear ferritin was inhibited became much more susceptible to UV-induced DNA damage. Therefore, it seems that corneal epithelial cells have evolved a novel, nuclear ferritin-based mechanism for protecting their DNA against UV damage.
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Morbidity and mortality from head trauma is highest among children. No animal model mimicking traumatic brain injury in children has yet been established, and the mechanisms of neuronal degeneration after traumatic injury to the developing brain are not understood. In infant rats subjected to percussion head trauma, two types of brain damage could be characterized. The first type or primary damage evolved within 4 hr and occurred by an excitotoxic mechanism. The second type or secondary damage evolved within 6–24 hr and occurred by an apoptotic mechanism. Primary damage remained localized to the parietal cortex at the site of impact. Secondary damage affected distant sites such as the cingulate/retrosplenial cortex, subiculum, frontal cortex, thalamus and striatum. Secondary apoptotic damage was more severe than primary excitotoxic damage. Morphometric analysis demonstrated that the N-methyl-d-aspartate receptor antagonists 3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonate and dizocilpine protected against primary excitotoxic damage but increased severity of secondary apoptotic damage. 2-Sulfo-α-phenyl-N-tert-butyl-nitrone, a free radical scavenger, did not affect primary excitotoxic damage but mitigated apoptotic damage. These observations demonstrate that apoptosis and not excitotoxicity determine neuropathologic outcome after traumatic injury to the developing brain. Whereas free radical scavengers may prove useful in therapy of head trauma in children, N-methyl-d-aspartate antagonists should be avoided because of their propensity to increase severity of apoptotic damage.
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Fungi that cause brown rot of wood are essential biomass recyclers and also the principal agents of decay in wooden structures, but the extracellular mechanisms by which they degrade lignocellulose remain unknown. To test the hypothesis that brown-rot fungi use extracellular free radical oxidants as biodegradative tools, Gloeophyllum trabeum was examined for its ability to depolymerize an environmentally recalcitrant polyether, poly(ethylene oxide) (PEO), that cannot penetrate cell membranes. Analyses of degraded PEOs by gel permeation chromatography showed that the fungus cleaved PEO rapidly by an endo route. 13C NMR analyses of unlabeled and perdeuterated PEOs recovered from G. trabeum cultures showed that a major route for depolymerization was oxidative C—C bond cleavage, a reaction diagnostic for hydrogen abstraction from a PEO methylene group by a radical oxidant. Fenton reagent (Fe(II)/H2O2) oxidized PEO by the same route in vitro and therefore might account for PEO biodegradation if it is produced by the fungus, but the data do not rule out involvement of less reactive radicals. The reactivity and extrahyphal location of this PEO-degrading system suggest that its natural function is to participate in the brown rot of wood and that it may enable brown-rot fungi to degrade recalcitrant organopollutants.
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The Schizosaccharomyces pombe stress-activated Sty1p/Spc1p mitogen-activated protein (MAP) kinase regulates gene expression through the Atf1p and Pap1p transcription factors, homologs of human ATF2 and c-Jun, respectively. Mcs4p, a response regulator protein, acts upstream of Sty1p by binding the Wak1p/Wis4p MAP kinase kinase kinase. We show that phosphorylation of Mcs4p on a conserved aspartic acid residue is required for activation of Sty1p only in response to peroxide stress. Mcs4p acts in a conserved phospho-relay system initiated by two PAS/PAC domain-containing histidine kinases, Mak2p and Mak3p. In the absence of Mak2p or Mak3p, Sty1p fails to phosphorylate the Atf1p transcription factor or induce Atf1p-dependent gene expression. As a consequence, cells lacking Mak2p and Mak3p are sensitive to peroxide attack in the absence of Prr1p, a distinct response regulator protein that functions in association with Pap1p. The Mak1p histidine kinase, which also contains PAS/PAC repeats, does not regulate Sty1p or Atf1p but is partially required for Pap1p- and Prr1p-dependent transcription. We conclude that the transcriptional response to free radical attack is initiated by at least two distinct phospho-relay pathways in fission yeast.
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A possible function for the alternative (nonphosphorylating) pathway is to stabilize the reduction state of the ubiquinone pool (Qr/Qt), thereby avoiding an increase in free radical production. If the Qr/Qt were stabilized by the alternative pathway, then Qr/Qt should be less stable when the alternative pathway is blocked. Qr/Qt increased when we exposed roots of Poa annua (L.) to increasing concentrations of KCN (an inhibitor of the cytochrome pathway). However, when salicylhydroxamic acid, an inhibitor of the alternative pathway, was added at the same time, Qr/Qt increased significantly more. Therefore, we conclude that the alternative pathway stabilizes Qr/Qt. Salicylhydroxamic acid increasingly inhibited respiration with increasing concentrations of KCN. In the experiments described here the alternative oxidase protein was invariably in its reduced (high-activity) state. Therefore, changes in the reduction state of the alternative oxidase cannot account for an increase in activity of the alternative pathway upon titration with KCN. The pyruvate concentration in intact roots increased only after the alternative pathway was blocked or the cytochrome pathway was severely inhibited. The significance of the pyruvate concentration and Qr/Qt on the activity of the alternative pathway in intact roots is discussed.