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171.
Carla António Carola P?pke Marcio Rocha Houssein Diab Anis M. Limami Toshihiro Obata Alisdair R. Fernie Joost T. van Dongen 《Plant physiology》2016,170(1):43-56
Based on enzyme activity assays and metabolic responses to waterlogging of the legume Lotus japonicus, it was previously suggested that, during hypoxia, the tricarboxylic acid cycle switches to a noncyclic operation mode. Hypotheses were postulated to explain the alternative metabolic pathways involved, but as yet, a direct analysis of the relative redistribution of label through the corresponding pathways was not made. Here, we describe the use of stable isotope-labeling experiments for studying metabolism under hypoxia using wild-type roots of the crop legume soybean (Glycine max). [13C]Pyruvate labeling was performed to compare metabolism through the tricarboxylic acid cycle, fermentation, alanine metabolism, and the γ-aminobutyric acid shunt, while [13C]glutamate and [15N]ammonium labeling were performed to address the metabolism via glutamate to succinate. Following these labelings, the time course for the redistribution of the 13C/15N label throughout the metabolic network was evaluated with gas chromatography-time of flight-mass spectrometry. Our combined labeling data suggest the inhibition of the tricarboxylic acid cycle enzyme succinate dehydrogenase, also known as complex II of the mitochondrial electron transport chain, providing support for the bifurcation of the cycle and the down-regulation of the rate of respiration measured during hypoxic stress. Moreover, up-regulation of the γ-aminobutyric acid shunt and alanine metabolism explained the accumulation of succinate and alanine during hypoxia.Plants are sessile, unable to relocate when exposed to diverse environmental and seasonal stimuli, and hence must be able to respond rapidly to survive stress conditions. Flooding or waterlogging of the soil is a common environmental condition that can greatly affect crop production and quality by blocking the entry of oxygen into the soil so that roots and other belowground organs cannot maintain respiration. In recent decades, the number of extreme floodings has strongly increased, which is especially tragic because most arable land worldwide is located in regions that are threatened by regular flooding events (Voesenek and Bailey-Serres, 2015).In plant heterotrophic tissues, respiratory metabolism is composed of various pathways, including glycolysis, the mitochondrial tricarboxylic acid cycle, and the mitochondrial electron transport chain. Under normal conditions, the conversion of Glc to pyruvate in the cytosol involves an initial input of ATP and produces the reduced cofactor NADH. The reactions of the tricarboxylic acid cycle occur within the mitochondrial matrix and lead to the complete oxidation of pyruvate, moving electrons from organic acids to the oxidized redox cofactors NAD+ and FAD, forming the reducing equivalents NADH and FADH2 and concomitantly releasing carbon dioxide (Tovar-Méndez et al., 2003; Millar et al., 2011). Finally, the reduced cofactors generated during glycolysis and the tricarboxylic acid cycle are subsequently oxidized by the mitochondrial electron transport chain to fuel ATP synthesis by a process known as oxidative phosphorylation (Fernie et al., 2004; Plaxton and Podesta, 2006). The tricarboxylic acid cycle turnover rate depends greatly on the rate of NADH reoxidation by the mitochondrial electron transport chain and on the cellular rate of ATP utilization (Plaxton and Podesta, 2006). Besides supporting ATP synthesis, the reactions of the tricarboxylic acid cycle also contribute to the production of key metabolic intermediates for use in many other fundamental biosynthetic processes elsewhere in the cell (Fernie et al., 2004; Sweetlove et al., 2010; van Dongen et al., 2011; Araújo et al., 2012). Nevertheless, the control and regulation of the carbon flux through the tricarboxylic acid cycle are still poorly understood in plants, and noncyclic modes have been described to operate under certain circumstances (Rocha et al., 2010; Sweetlove et al., 2010; Araújo et al., 2012).Upon hypoxia, respiratory energy (ATP) production via oxidative phosphorylation by the mitochondrial electron transport chain goes down. To compensate for this, the glycolytic flux increases and Glc is consumed faster in an attempt to produce ATP via the glycolytic pathway, a process known as the Pasteur effect. To survive short-term hypoxia during flooding or waterlogging, plants must generate sufficient ATP and regenerate NADP+ and NAD+, which are required for glycolysis (Narsai et al., 2011; van Dongen et al., 2011). In addition to the accumulation of ethanol and lactate in oxygen-deprived plant tissues, metabolites such as Ala, succinate, and γ-aminobutyric acid (GABA) have also been shown to accumulate (Sousa and Sodek, 2003; Kreuzwieser et al., 2009; van Dongen et al., 2009; Rocha et al., 2010; Zabalza et al., 2011), although hardly anything is known about the fate of these products of hypoxic metabolism. However, the relative abundance of these products of hypoxic metabolism varies between plant species, genotypes, and tissues and can change throughout the course of oxygen limitation stress as well (Narsai et al., 2011).A model describing metabolic changes during hypoxia has been described previously for waterlogged roots of the highly flood-tolerant model crop legume Lotus japonicus (Rocha et al., 2010): upon waterlogging, the rate of pyruvate production is enhanced due to the activation of glycolysis (Pasteur effect) and the concomitant production of ATP via substrate-level phosphorylation. At the same time, the fermentation pathway is activated with the accumulation of lactate via lactate dehydrogenase and ethanol via two subsequent reactions catalyzed by pyruvate decarboxylase and alcohol dehydrogenase (Tadege et al., 1999). The amount of pyruvate produced can be reduced via alanine aminotransferease (AlaAT), which catalyzes the reversible reaction interconverting pyruvate and Glu to Ala and 2-oxoglutarate (2OG). Concomitantly, 2OG was suggested to reenter the tricarboxylic acid cycle to be used to produce another ATP and also succinate, which accumulates in the cell (Rocha et al., 2010). This Ala pathway provides a means for the role of Ala accumulation during hypoxia via reorganization of the tricarboxylic acid cycle. Furthermore, given that the use of this strategy prevents pyruvate accumulation, the continued operation of glycolysis during waterlogging can occur.It should be noted, however, that measurements of metabolite levels alone do not provide information about the actual activity of the metabolic pathways involved. Furthermore, the previous studies did not reveal which enzymes of the tricarboxylic acid cycle change their activity that leads to reorganization of the tricarboxylic acid cycle. To overcome this, analysis of metabolism using isotope-labeled substrates has proven to be essential for understanding the control and regulation of metabolic networks, and it has often been observed that significant changes in carbon flow are sometimes associated with only small adjustments in metabolite abundance (Schwender et al., 2004; Ratcliffe and Shachar-Hill, 2006). Metabolomics studies that require extensive metabolite labeling utilize uniformly labeled stable isotope tracers. Alternatively, detailed analysis of central carbon metabolism can make use of positional labeling as well. Following the extraction of labeled metabolites, the 13C label redistribution is measured usually with NMR or gas chromatography-mass spectrometry methods (Jorge et al., 2015). Schwender and Ohlrogge (2002) used both labeling approaches to investigate embryo development in Brassica napus seeds. While uniformly labeled [13C6]Glc and [13C12]Suc were applied to determine the metabolic flux through the major pathways of carbon metabolism, positionally labeled [1,2-13C]Glc was used to specifically outline the glycolytic/oxidative pentose phosphate pathway network during embryo development (Schwender and Ohlrogge, 2002). Gas chromatography-mass spectrometry analysis was used in this study to evaluate the 13C enrichment and isotopomer composition. In earlier studies of hypoxic metabolism, positionally labeled [1-13C]Glc was used to specifically investigate energy metabolism and pH regulation in hypoxic maize (Zea mays) root tips (Roberts et al., 1992; Edwards et al., 1998).In this study, we performed stable isotope labeling experiments using wild-type soybean (Glycine max) roots in order to better understand the dynamics of metabolism in operation in plant cells under hypoxic conditions. For this, we used fully labeled 13C and 15N tracers rather than positional labeling, as this allowed us to cover a broad view of the central carbon and nitrogen metabolic network. The labeling pattern of metabolites was subsequently measured with gas chromatography-time of flight-mass spectrometry (GC-TOF-MS). Our studies confirm the activity of Ala metabolism while revealing the parallel activity of the GABA shunt. The results provide evidence that the bifurcation of the tricarboxylic acid cycle results from the inhibition of the tricarboxylic acid cycle enzyme succinate dehydrogenase (SDH), also known as complex II of the mitochondrial electron transport chain (mETC). 相似文献
172.
173.
Transparency,usability, and reproducibility: Guiding principles for improving comparative databases using primates as examples
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Carola Borries Aaron A. Sandel Andreas Koenig Eduardo Fernandez‐Duque Jason M. Kamilar Caroline R. Amoroso Robert A. Barton Joel Bray Anthony Di Fiore Ian C. Gilby Adam D. Gordon Roger Mundry Markus Port Lauren E. Powell Anne E. Pusey Amanda Spriggs Charles L. Nunn 《Evolutionary anthropology》2016,25(5):232-238
174.
Carola Marzi Lesca M Holdt Giovanni Fiorito Pei-Chien Tsai Anja Kretschmer Simone Wahl Simonetta Guarrera Daniel Teupser Tim D. Spector Licia Iacoviello Carlotta Sacerdote Konstantin Strauch Serene Lee Wolfgang E. Thasler Annette Peters Barbara Thorand Petra Wolf Holger Prokisch Rosario Tumino Christian Gieger Vittorio Krogh Salvatore Panico Jordana T. Bell Giuseppe Matullo Melanie Waldenberger Harald Grallert Wolfgang Koenig 《PloS one》2016,11(11)
BackgroundElevated levels of C-reactive protein (CRP, determined by a high-sensitivity assay) indicate low-grade inflammation which is implicated in many age-related disorders. Epigenetic studies on CRP might discover molecular mechanisms underlying CRP regulation. We aimed to identify DNA methylation sites related to CRP concentrations in cells and tissues regulating low-grade inflammation.ResultsGenome-wide DNA methylation was measured in peripheral blood in 1,741 participants of the KORA F4 study using Illumina HumanMethylation450 BeadChip arrays. Four CpG sites (located at BCL3, AQP3, SOCS3, and cg19821297 intergenic at chromosome 19p13.2, P ≤ 1.01E-07) were significantly hypomethylated at high CRP concentrations independent of various confounders including age, sex, BMI, smoking, and white blood cell composition. Findings were not sex-specific. CRP-related top genes were enriched in JAK/STAT pathways (Benjamini-Hochberg corrected P < 0.05). Results were followed-up in three studies using DNA from peripheral blood (EPICOR, n = 503) and adipose tissue (TwinsUK, n = 368) measured as described above and from liver tissue (LMU liver cohort, n = 286) measured by MALDI-TOF mass spectrometry using EpiTYPER. CpG sites at the AQP3 locus (significant p-values in peripheral blood = 1.72E-03 and liver tissue = 1.51E-03) and the SOCS3 locus (p-values in liver < 2.82E-05) were associated with CRP in the validation panels.ConclusionsEpigenetic modifications seem to engage in low-grade inflammation, possibly via JAK/STAT mediated pathways. Results suggest a shared relevance across different tissues at the AQP3 locus and highlight a role of DNA methylation for CRP regulation at the SOCS3 locus. 相似文献
175.
Synthesis of the kyotorphin precursor benzoyl‐L‐tyrosine‐L‐argininamide with immobilized α‐chymotrypsin in sequential batch with enzyme reactivation
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Carola Bahamondes Lorena Wilson Claudia Bernal Andrés Illanes Gregorio Álvaro Fanny Guzmán 《Biotechnology progress》2016,32(1):54-59
α‐Chymotrypsin was immobilized in activated agarose support and the stability of the biocatalyst was assessed in three polar organic solvents, namely, ethanol, diglyme, and acetonitrile. Ethanol was the solvent in which the stability of the enzyme was higher and was then selected to perform the synthesis of the kyotorphin derivative benzoyl‐tyrosine argininamide, evaluating enzyme reactivation after synthesis. Substrates for reaction were benzoyl tyrosine ethyl ester and argininamide, the reaction being performed under kinetic control. High conversion yield (85%) was obtained and the immobilized enzyme was successfully used in sequential batch reactor operation with enzyme reactivation after three batches. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 32:54–59, 2016 相似文献
176.
Amelia Fiorilli Bruno Venerando Carola Siniscalco Eugenio Monti Roberto Bresciani Luigi Caimi Augusto Preti Guido Tettamanti 《Journal of neurochemistry》1989,53(3):672-680
A lysosomal preparation, obtained from brain homogenate of 17-day-old C57BL mice by centrifugation on a self-generating Percoll linear density gradient, showed relative specific activity (RSA) values for typical lysosomal enzymes of 40-120 and for mitochondria, plasma membrane, and cytosol markers of much lower than 1, a result indicating a high degree of homogeneity. The lysosomal preparation contained a sialidase activity that was assayed radiometrically with ganglioside [3H]GD1a and fluorimetrically with 4-methylumbelliferyl-1-alpha-D-N-acetylneuraminic acid (MUB-NeuAc). The properties of the lysosomal enzyme were compared with those of the plasma membrane-bound sialidase contained in a purified synaptosomal plasma membrane fraction that was prepared from the same homogenate and assayed with the same substrates. The optimal pH was 4.2 for the lysosomal and 5.1 for the plasma membrane-bound enzyme. The apparent Km values for GD1a and MUB-NeuAc were 1.5 X 10(-5) and 4.2 X 10(-5) M, respectively, for the lysosomal enzyme and 2.7 X 10(-4) and 6.3 X 10(-5) M for the plasma membrane-bound one. Triton X-100 had a predominantly inhibitory effect on the lysosomal enzyme, whereas it strongly activated the plasma membrane-bound one. The lysosomal enzyme was highly unstable on storage and freezing and thawing cycles, whereas the plasma membrane-bound one was substantially stable. The RSA value of the lysosomal sialidase in the lysosomal fraction closely resembled that of authentic lysosomal enzymes, whereas the RSA value of plasma membrane-bound sialidase in the plasma membrane fraction was very similar to that of typical plasma membrane markers.(ABSTRACT TRUNCATED AT 250 WORDS) 相似文献
177.
178.
Carola Kloska und Jürgen Nicolai 《Journal of Ornithology》1988,129(2):185-204
Zusammenfassung Das Verhalten eines Paares vonAepypodius arfakianus wurde während der Fortpflanzungsperiode Mai bis September 1985 im Vogelpark Walsrode untersucht. Der Bruthügel wurde nur vom gebaut und instand gehalten. In die Voliere eingebrachtes Laub wurde vom durch systematisches Rückwärtsscharren auf den Hügel gebracht. Balzverhalten trat eng gekoppelt mit dem Öffnen des Hügels während der frühen Morgenstunden auf. Kopulationen wurden auf dem Hügel vollzogen und fanden vermehrt an den Tagen der Eiablage statt. In den frühen Morgenstunden wurde der Hügel verstärkt bei sonnigem warmem Wetter geöffnet. Eine Korrelation zwischen Dauer der Hügelöffnung und Außentemperatur ist im gemäßigten mitteleuropäischen Klima nicht feststellbar. Vom 7. Mai bis 1. September legte das insgesamt 20 Eier, mehr als das Dreifache seines Körpergewichts. Der durchschnittliche Legeabstand betrug 6 Tage. Die Eier wogen im Durchschnitt 183,4 g und wurden zwischen 25 und 50 cm tief im Hügel vergraben. Die Beziehungen zwischen Brutmethode und Eheform der Megapodiiden wird diskutiert.
Reproductive behaviour ofAepypodius arfakianus
Summary The behaviour of a pair ofAepypodius arfakianus was studied during the breeding season from May to Sepember 1985 in Walsrode Bird Park. The building and maintenance of the nest-mound is the responsibility of the . Any foliage introduced into the aviary was moved onto the mound by the by means of systematic backward-scraping movements. Display activity was closely associated with the opening of the mound in the early morning. Copulation takes place on the mound and is carried out with increased frequency on days when egg-laying occurs. Early morning mound-opening activity intensifies in warm, sunny weather. No correlation, however, can be established between ambient temperature and duration of mound opening in the moderate Central-European climate. The laid 20 eggs between 7th May and 1st September, which represented more than three times his own weight. The average length of time between eggs laid was 6 days. The eggs were buried between 25 and 50 cm deep in the mound; their average mass was 183,4 g. The interrelationships between incubation methods and mating system in the Megapods are discussed.相似文献
179.
180.
Rui-e Nie Carmelo Andújar Carola Gómez-Rodríguez Ming Bai Huai-Jun Xue Min Tang Chen-Tao Yang Pu Tang Xing-Ke Yang Alfried P. Vogler 《Systematic Entomology》2020,45(1):188-204
The high-level classification of Chrysomelidae (leaf beetles) currently recognizes 12 or 13 well-established subfamilies, but the phylogenetic relationships among them remain ambiguous. Full mitochondrial genomes were newly generated for 27 taxa and combined with existing GenBank data to provide a dataset of 108 mitochondrial genomes covering all subfamilies. Phylogenetic analysis under maximum likelihood and Bayesian inference recovered the monophyly of all subfamilies, except that Timarcha was split from Chrysomelinae in some analyses. Three previously recognized major clades of Chrysomelidae were broadly supported: the ‘chrysomeline’ clade consisting of (Chrysomelinae (Galerucinae + Alticinae)); the ‘sagrine’ clade with internal relationships of ((Bruchinae + Sagrinae) + (Criocerinae + Donaciinae)), and the ‘eumolpine’ clade comprising (Spilopyrinae (Cassidinae (Eumolpinae (Cryptocephalinae + Lamprosomatinae)))). Relationships among these clades differed between data treatments and phylogenetic algorithms, and were complicated by two additional deep lineages, Timarcha and Synetinae. Various topological tests favoured the PhyloBayes software as the preferred inference method, resulting in the arrangement of (chrysomelines (eumolpines + sagrines)), with Timarcha placed as sister to the chrysomeline clade and Synetinae as a deep lineage splitting near the base. Whereas mitogenomes provide a solid framework for the phylogeny of Chrysomelidae, the basal relationships do not agree with the topology of existing molecular studies and remain one of the most difficult problems of Chrysomelidae phylogenetics. 相似文献