Amino acid, Antioxidant and Ion Profiles of Carpolobia lutea Leaf (Polygalaceae)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Efeito da deficiência de potássio sobre as atividades de glutamato desidrogenase e glutamato sintase em feijoeiro (Phaseolus vulgaris L.)

Foi estudado o efeito da deficiência de potássio sobre as atividades da glutamato desidrogenase (EC. 1.4.1.2) e glutamato sintase (EC. 2.6.1.53) em folhas de feijoeiro (Phaseolus vulgaris L.). Os resultados mostraram que a atividade específica da glutamato desidrogenase aumentou nas plantas deficientes em potássio nos dois cultivares estudados. Foi detectada redução na atividade de glutamato sintase nas plantas deficientes em potássio.

Reação enzimática ao estresse salino durante a germinação de estilosantes

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Isoenzimas no monitoramento da deterioração de sementes de Euterpe espiritosantensis Fernandes

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Antinociceptive effect on mice of the hydroalcoholic fraction and (-) epicatechin obtained from Combretum leprosum Mart & Eich

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

METABOLISMO do NITROGÊNIO ASSOCIADO À DEFICIÊNCIA HÍDRICA E SUA RECUPERAÇÃO em GENÓTIPOS DE MILHO

O estresse hídrico afeta profundamente o metabolismo celular vegetal. Neste trabalho, objetivou-se quantificar os efeitos da deficiência hídrica e sua recuperação sobre a atividade das enzimas do metabolismo do nitrogênio: redutase do nitrato (RN), glutamina sintetase (GS) e glutamato sintase (GOGAT) e sobre o acúmulo de prolina em plantas dos genótipos de milho BR 2121 e BR 205. O experimento foi conduzido em casa de vegetação, sob o delineamento inteiramente casualizado, com quatro repetições, utilizando-se vasos que continham 14,3kg de solo. Os tratamentos consistiram da combinação dos dois genótipos e quatro intervalos entre irrigações (1, 3, 5 e 7 dias). No dia da avaliação (49 dias após emergência), os tratamentos com intervalos entre 3 e 7 dias, haviam sido irrigados no dia anterior, caracterizando-se portanto como recuperação da deficiência hídrica leve e severa, respectivamente. As extrações e análises foram realizadas utilizando-se a terceira folha basípeta completamente expandida. As atividades das enzimas estudadas não diferiram entre os tratamentos de estresse hídrico, controle e recuperação do estresse moderado, entretanto as plantas sob recuperação do estresse severo apresentaram atividade enzimática superior à das plantas controle. O acúmulo de prolina livre nas folhas aumentou com o estresse hídrico e respondeu à recuperação do estresse apresentando redução. de modo geral, a atividade enzimática e o acúmulo de prolina apresentaram respostas inversas dentro dos tratamentos.

Síndrome glaucomatosa em cães: parte 1

O glaucoma é uma doença grave que acomete humanos e animais, levando à degeneração de estruturas nervosas e à perda progressiva da visão. Vários eventos estão relacionados à fisiopatologia do glaucoma, como o aumento da pressão intra-ocular, o aumento nos níveis de glutamato intra-celular e a diminuição do fluxo axoplasmático. Fármacos recentemente disponíveis no mercado, aliados às novas técnicas cirúrgicas, suscitam perspectivas mais eficazes para o controle do glaucoma e aq preservação da visão.

Nitrogen assimilation in Citrus based on CitEST data mining

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Molecular orbital calculation for the model compounds of kainoid amino acids, agonists of excitatory amino acid receptors. Does the kainoid C4-substituent directly interact with the receptors?

Kainoid amino acids are agonists of the AMPA/kainate receptors and exhibit highly potent neuroexcitatory activity. From the results of extensive structure-activity relationship studies, we previously postulated that the C4-substituent of the kainoid amino acids interacts with an allosteric site of the glutamate receptor with electron-donating character. In order to investigate the mode of action in more detail, molecular orbital calculation for model compounds of the kainoid were performed. The results indicated that the HOMO energy level of the C4-substituent is involved in the potent neuroexcitatory activity, thus supporting our hypothesis. (C) 2002 Elsevier B.V. Ltd. All rights reserved.

Dehydromonocrotaline inhibits mitochondrial complex 1. A potential mechanism accounting for hepatotoxicity of monocrotaline

Monocrotaline is a pyrrolizidine alkaloid present in plants of the Crotalaria species, which causes cytotoxicity and genotoxicity, including hepatotoxicity in animals and humans. It is metabolized by cytochrome P-450 in the liver to the alkylating agent dehydromonocrotaline. We evaluated the effects of monocrotaline and its metabolite on respiration, membrane potential and ATP levels in isolated rat liver mitochondria, and on respiratory chain complex I NADH oxidase activity in submitochondrial particles. Dehydromonocrotaline, but not the parent compound, showed a concentration-dependent inhibition of glutamate/malate-supported state 3 respiration (respiratory chain complex 1), but did not affect succinate-supported respiration (complex II). Only dehydromonocrotaline dissipated mitochondrial membrane potential, depleted ATP, and inhibited complex I NADH oxidase activity (IC50 = 62.06 mu M) through a non-competitive type of inhibition (K-I = 8.1 mu M). Therefore, dehydromonocrotaline is an inhibitor of the activity of respiratory chain complex I NADH oxidase, an action potentially accounting for the well-documented monocrotaline's hepatotoxicity to animals and humans. The mechanism probably involves change of the complex I conformation resulting from modification of cysteine thiol groups by the metabolite. (c) 2007 Elsevier Ltd. All rights reserved.

Anxiogenic-like effects induced by NMDA receptor activation are prevented by inhibition of neuronal nitric oxide synthase in the periaqueductal gray in mice

Glutamate-NMDA (N-methyl-D-aspartate) receptor activation within the periaqueductal gray (PAG) leads to antinociceptive, autonomic and behavioral responses characterized as the fear reaction. We have recently demonstrated that the vigorous defensive-like behaviors (e.g. jumping and running) and antinociception induced by intra-PAG injection of N-methyl-D-aspartate (NMDA) were completely blocked by prior infusion of N(omega)-propyl-L-arginine (NPLA), a specific neuronal nitric oxide synthesis (nNOS) enzyme inhibitor, into the same midbrain structure. It remains unclear however, whether the inhibition of nNOS within the mouse PAG changes the anxiety-like behavior per se or the effects of the inhibition of nNOS depend on the suppression of downstream of glutamate-NMDA receptor activation. This study investigated whether intra-PAG infusion of NPLA (i) attenuates anxiety in the elevated plus-maze (EPM) and (ii) antagonizes the anxiogenic-like effects induced by intra-PAG injection of NMDA. Test sessions were videotaped and subsequently scored for conventional indices of anxiety (percentage of open arm entries and percentage of open arm time) and locomotor activity (closed arm entries). Results showed that intra-PAG infusions of NPLA (0.2, 0.4 or 0.8 nmol/0.1 mu l) did not alter significantly any behavioral response in the EPM when compared to control group (Experiment 1). Intra-PAG infusion of NMDA (0 and 0.02 nmol/0.1 mu l; a dose that does not provoke vigorous defensive behaviors per se in mice) significantly reduced open arm exploration, confirming an anxiogenic-like effect (Experiment 2). When injected into the PAG 10 min prior local NMDA injection (0.02 nmol/0.1 mu l), NPLA (0.4 nmol/0.1 mu l) was able to revert the anxiogenic-like effect of glutamate-NMDA receptor activation. Neither intra-PAG infusion of NMDA nor NPLA altered closed arm entries, a widely used measure of locomotor activity in the EPM. These results suggest that intra-PAG nitric oxide synthesis does not play a role on anxiety-like behavior elicited during EPM exposure; however its synthesis is important for the proaversive effects produced by activation of glutamate-NMDA receptors located within this limbic midbrain structure. (C) 2008 Elsevier B.V. All rights reserved.

Astrocytes and human cognition: Modeling information integration and modulation of neuronal activity

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Partial purification and characterization of lysine-ketoglutarate reductase in normal and opaque-2 maize endosperms

Lysine-ketoglutaratc reductase catalyzes the first step of lysine catabolism in maize (Zea mays L.) endosperm. The enzyme condenses L-lysine and α-ketoglutarate into saccharopine using NADPH as cofactor. It is endosperm-specific and has a temporal pattern of activity, increasing with the onset of kernel development, reaching a peak 20 to 25 days after pollination, and thereafter decreasing as the kernel approaches maturity. The enzyme was extracted from the developing maize endosperm and partially purified by ammonium-sulfate precipitation, anion-exchange chromatography on DEAE-cellulose, and affinity chromatography on Blue-Sepharose CL-6B. The preparation obtained from affinity chromatography was enriched 275-fold and had a specific activity of 411 nanomoles per minute per milligram protein. The native and denaturated enzyme is a 140 kilodalton protein as determined by polyacrylamide gel electrophoresis. The enzyme showed specificity for its substrates and was not inhibited by either aminoethyl-cysteine or glutamate. Steady-state product-inhibition studies revealed that saccharopine was a noncompetitive inhibitor with respect to α-ketoglutarate and a competitive inhibitor with respect to lysine. This is suggestive of a rapid equilibriumordered binding mechanism with a binding order of lysine, α-ketoglutarate, NADPH. The enzyme activity was investigated in two maize inbred lines with homozygous normal and opaque-2 endosperms. The pattern of lysine-ketoglutarate reductase activity is coordinated with the rate of zein accumulation during endosperm development. A coordinated regulation of enzyme activity and zein accumulation was observed in the opaque-2 endosperm as the activity and zein levels were two to three times lower than in the normal endosperm. Enzyme extracted from L1038 normal and opaque-2 20 days after pollination was partially purified by DEAE-cellulose chromatography. Both genotypes showed a similar elution pattern with a single activity peak eluted at approximately 0.2 molar KCL. The molecular weight and physical properties of the normal and opaque-2 enzymes were essentially the same. We suggest that the Opaque-2 gene, which is a transactivator of the 22 kilodalton zein genes, may be involved in the regulation of the lysine-ketoglutarate reductase gene in maize endosperm. In addition, the decreased reductase activity caused by the opaque-2 mutation may explain, at least in part, the elevated concentration of lysine found in the opaque-2 endosperm.

N-methyl-D-aspartate channel and consciousness: From signal coincidence detection to quantum computing

Research on Blindsight, Neglect/Extinction and Phantom limb syndromes, as well as electrical measurements of mammalian brain activity, have suggested the dependence of vivid perception on both incoming sensory information at primary sensory cortex and reentrant information from associative cortex. Coherence between incoming and reentrant signals seems to be a necessary condition for (conscious) perception. General reticular activating system and local electrical synchronization are some of the tools used by the brain to establish coarse coherence at the sensory cortex, upon which biochemical processes are coordinated. Besides electrical synchrony and chemical modulation at the synapse, a central mechanism supporting such a coherence is the N-methyl-D-aspartate channel, working as a 'coincidence detector' for an incoming signal causing the depolarization necessary to remove Mg 2+, and reentrant information releasing the glutamate that finally prompts Ca 2+ entry. We propose that a signal transduction pathway activated by Ca 2+ entry into cortical neurons is in charge of triggering a quantum computational process that accelerates inter-neuronal communication, thus solving systemic conflict and supporting the unity of consciousness. © 2001 Elsevier Science Ltd.