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The application of pectinases in industrial olive-oil processes is restricted by its production cost. Consequently, new fungal strains able to produce higher pectinase titers are required. The aim of this work was to study the capability of Aspergillus giganteus NRRL10 to produce pectinolytic enzymes by SSF and evaluate the application of these in olive-oil extraction. A. giganteus was selected among 12 strains on the basis of high pectinolytic activity and stability. A mixture composed by wheat bran, orange, and lemon peels was selected as the best substrate for enzyme production. Statistical analyses of the experimental design indicated that pH, temperature, and CaCl2 are the main factors that affect the production. Subsequently, different aeration flows were tested in a tray reactor; the highest activity was achieved at 20 L min?1 per kilogram of dry substrate (kgds). Finally, the pectinolytic enzymes from A. giganteus improved the oil yield and rheological characteristics without affecting oil chemical properties.  相似文献   
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Invasive species can affect the function and structure of natural ecological communities, hence understanding and predicting their potential for spreading is a major ecological challenge. Once established in a new region, the spread of invasive species is largely controlled by their dispersal capacity, local environmental conditions and species interactions. The mussel Mytilus galloprovincialis is native to the Mediterranean and is the most successful marine invader in southern Africa. Its distribution there has expanded rapidly and extensively since the 1970s, however, over the last decade its spread has ceased. In this study, we coupled broad scale field surveys, Ecological Niche Modelling (ENM) and Lagrangian Particle Simulations (LPS) to assess the current invaded distribution of M. galloprovincialis in southern Africa and to evaluate what prevents further spread of this species. Results showed that all environmentally suitable habitats in southern Africa have been occupied by the species. This includes rocky shores between Rocky Point in Namibia and East London in South Africa (approx. 2800 km) and these limits coincide with the steep transitions between cool-temperate and subtropical-warmer climates, on both west and southeast African coasts. On the west coast, simulations of drifting larvae almost entirely followed the northward and offshore direction of the Benguela current, creating a clear dispersal barrier by advecting larvae away from the coast. On the southeast coast, nearshore currents give larvae the potential to move eastwards, against the prevalent Agulhas current and beyond the present distributional limit, however environmental conditions prevent the establishment of the species. The transition between the cooler and warmer water regimes is therefore the main factor limiting the northern spread on the southeast coast; however, biotic interactions with native fauna may also play an important role.  相似文献   
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A new phenotypic test, called the Carbapenem Inactivation Method (CIM), was developed to detect carbapenemase activity in Gram-negative rods within eight hours. This method showed high concordance with results obtained by PCR to detect genes coding for the carbapenemases KPC, NDM, OXA-48, VIM, IMP and OXA-23. It allows reliable detection of carbapenemase activity encoded by various genes in species of Enterobacteriaceae (e.g., Klebsiella pneumoniae, Escherichia coli and Enterobacter cloacae), but also in non-fermenters Pseudomonas aeruginosa and Acinetobacter baumannii. The CIM was shown to be a cost-effective and highly robust phenotypic screening method that can reliably detect carbapenemase activity.  相似文献   
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Summary Response characteristics of 130 single neurons in the superior olivary nucleus of the northern leopard frog (Rana pipiens pipiens) were examined to determine their selectivity to various behaviorally relevant temporal parameters [rise-fall time, duration, and amplitude modulation (AM) rate of acoustic signals. Response functions were constructed with respect to each of these variables. Neurons with different temporal firing patterns such as tonic, phasic or phasic-burst firing patterns, participated in time domain analysis in specific manners. Phasic neurons manifested preferences for signals with short rise-fall times, thus possessing low-pass response functions with respect to this stimulus parameter; conversely, tonic and phasic-burst units were non-selective and possessed all-pass response functions. A distinction between temporal firing patterns was also observed for duration coding. Whereas phasic units showed no change in the mean spike count with a change in stimulus duration (i.e., all-pass duration response functions), tonic and phasic-burst units gave higher mean spike counts with an increase in stimulus duration (i.e., primary-like high-pass response functions). Phasic units manifested greater response selectivity for AM rate than did tonic or phasic-burst units, and many phasic units were tuned to a narrow range of modulation rates (i.e., band-pass). The results suggest that SON neurons play an important role in the processing of complex acoustic patterns; they perform extensive computations on AM rate as well as other temporal parameters of complex sounds. Moreover, the response selectivities for rise-fall time, duration, and AM rate could often be shown to contribute to the differential responses to complex synthetic and natural sounds.Abbreviations SON superior olivary nucleus - DMN dorsal medullary nucleus - TS torus semicircularis - FTC frequency threshold curve - BF best excitatory frequency - PAM pulsatile amplitude modulation - SAM sinusoidal amplitude modulation - SQAM square-wave amplitude modulation - MTF modulation transfer function - PSTH peri-stimulus time histogram  相似文献   
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Five brain-derived and 17 urinary oligomannose-type oligosaccharides were isolated by ion-exchange chromatography on Mono Q or Dowex, followed by HPLC on Lichrosorb-NH2 from a Persian cat suffering from -mannosidosis. The structures ofthe carbohydrate chains were determined by 500- or 600-MHz1H-NMR spectroscopy. Different oligosaccharide patterns were found in brain and urine. 99% of the urinary oligosaccharides possess an (1-6)-linked mannose residue attached to -mannose, whereas only 5% of the brain-derived oligosaccharides contain such a residue. Furthermore, of the urinary carbohydrate chains 71% end with Man1-4GlcNAc1-4GlcNAc and 29% end with Man1-4GlcNAc, whereas the corresponding amounts are 23% and 77%, respectively, for the brain-derived oligosaccharides.Abbreviations MLEV-17 composite pulse devised by M. Levitt - HOHAHA homonuclear Hartman-Hahn spectroscopy - TPPI time-proportional phase incrementation - 2D two dimensional - GlcNAc N-acetylglucosamine - Man mannose - Fuc fucose  相似文献   
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During tomato (Solanum lycopersicum) fruit ripening, chloroplasts differentiate into photosynthetically inactive chromoplasts. It was recently reported that tomato chromoplasts can synthesize ATP through a respiratory process called chromorespiration. Here we show that chromoplast oxygen consumption is stimulated by the electron donors NADH and NADPH and is sensitive to octyl gallate (Ogal), a plastidial terminal oxidase inhibitor. The ATP synthesis rate of isolated chromoplasts was dependent on the supply of NAD(P)H and was fully inhibited by Ogal. It was also inhibited by the proton uncoupler carbonylcyanide m-chlorophenylhydrazone, suggesting the involvement of a chemiosmotic gradient. In addition, ATP synthesis was sensitive to 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone, a cytochrome b6f complex inhibitor. The possible participation of this complex in chromorespiration was supported by the detection of one of its components (cytochrome f) in chromoplasts using immunoblot and immunocytochemical techniques. The observed increased expression of cytochrome c6 during ripening suggests that it could act as electron acceptor of the cytochrome b6f complex in chromorespiration. The effects of Ogal on respiration and ATP levels were also studied in tissue samples. Oxygen uptake of mature green fruit and leaf tissues was not affected by Ogal, but was inhibited increasingly in fruit pericarp throughout ripening (up to 26% in red fruit). Similarly, Ogal caused a significant decrease in ATP content of red fruit pericarp. The number of energized mitochondria, as determined by confocal microscopy, strongly decreased in fruit tissue during ripening. Therefore, the contribution of chromoplasts to total fruit respiration appears to increase in late ripening stages.Chromoplasts are plastids specialized in the production and accumulation of carotenoids, conferring color to many fruits and flowers. During tomato (Solanum lycopersicum) fruit ripening, chloroplasts differentiate into chromoplasts in a process that involves the dismantling of the photosynthetic apparatus and a massive synthesis and deposition of lycopene (Camara et al., 1995). Chromoplasts show a barely studied respiratory process, first reported for daffodil (Narcissus pseudonarcissus) chromoplasts and called chromorespiration, which consists of a membrane-bound redox pathway associated with carotenoid desaturation and results in oxygen uptake activity (Nievelstein et al., 1995). The most likely oxidase involved in this respiratory activity is the plastidial terminal oxidase (PTOX), a plastoquinol oxidase homologous to the mitochondrial alternative oxidase (AOX; Carol et al., 1999; Wu et al., 1999). According to its role in chromorespiration and in carotenoid biosynthesis, the expression of PTOX increases during the ripening process of tomato and bell pepper (Capsicum annuum) fruits (Josse et al., 2003), in parallel to chromoplast differentiation. PTOX has been characterized in vitro and it has been reported to be inhibited by pyrogallol analogs, specially by octyl gallate (Ogal; Josse et al., 2000). In vivo, PTOX has been studied mainly in chloroplasts. PTOX not only participates in carotenoid biosynthesis in chloroplasts but is also involved in chlororespiration, an electron transport chain present in thylakoids that shares plastoquinone with the photosynthetic electron transport chain (Carol and Kuntz, 2001; McDonald et al., 2011).In daffodil chromoplast homogenates (Nievelstein et al., 1995) as well as in isolated tomato fruit chromoplasts (Pateraki et al., 2013), NAD(P)H acts as an electron donor for chromorespiration, indicating the participation of NAD(P)H plastoquinone oxidoreductase activity. Considering that tomato fruit chromoplasts derive from chloroplasts, it is possible that some components of the chromoplastic redox pathway could originate from chlororespiration, such as the NAD(P)H:plastoquinone-reductase complex (NDH), which could act as the electron entrance. However, the enzymes involved in chromorespiration are not well known. It was also reported that the oxygen uptake activity of daffodil chromoplast homogenates was sensitive to the classic uncoupler 2,4-dinitrophenol (Nievelstein et al., 1995), and this observation led to the proposal that chromorespiration could be linked to membrane energization. Morstadt et al. (2002) found that liposomes containing daffodil chromoplast proteins and energized by an acid-base transition were able to produce ATP through a chemiosmotic mechanism, demonstrating that daffodil chromoplasts contain a functional H+-ATP synthase complex. We recently reported that isolated chromoplasts from tomato fruits can synthesize ATP de novo (Pateraki et al., 2013). This process is dependent on an ATP synthase complex containing an atypical γ-subunit without the regulatory dithiol domain, which may be active using lower proton gradients than those present in the chloroplast (Pateraki et al., 2013). This finding is consistent with proteomic analyses that reveal that several proteins related to electron transport and ATP production are present in chromoplasts of ripe fruits, like ATP synthase, some subunits of the NDH complex, and the cytochrome b6f complex (Barsan et al., 2012; Wang et al., 2013).Several anabolic pathways that require ATP and reducing agents are active in ripe fruit chromoplasts, such as synthesis of carotenoids, lipids (glycolipids, phospholipids, and sterols), and the shikimate pathway (Bian et al., 2011; Angaman et al., 2012). On the other hand, the ATP synthesis capacity of mitochondria in ripe fruit is low, because its membrane potential diminishes during ripening as a result of the increasing activity of the mitochondrial uncoupling protein (Almeida et al., 1999; Costa et al., 1999). This fact raised the question of whether chromorespiration could play a significant role in the production of ATP at the last stages of ripening. To our knowledge, the ATP synthesis rates of chromoplasts have not been quantified; therefore, it was uncertain whether the endogenous production could provide ATP in significant amounts to address the energy requirements of the chromoplasts. Moreover, there was no information about the quantitative contribution of chromorespiration to total fruit tissue respiration. This work aimed to deepen the study of the chromorespiratory process in isolated tomato fruit chromoplasts and to analyze the relative participation of this pathway in the overall respiration and ATP levels of fruit pericarp in vivo.  相似文献   
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