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941.
Y Kimura T Hanami Y Tanaka MJ de Hoon T Soma M Harbers A Lezhava Y Hayashizaki K Usui 《Biochemistry》2012,51(31):6056-6067
Nucleic acid oligonucleotides are widely used in hybridization experiments for specific detection of complementary nucleic acid sequences. For design and application of oligonucleotides, an understanding of their thermodynamic properties is essential. Recently, exciton-controlled hybridization-sensitive fluorescent oligonucleotides (ECHOs) were developed as uniquely labeled DNA oligomers containing commonly one thymidine having two covalently linked thiazole orange dye moieties. The fluorescent signal of an ECHO is strictly hybridization-controlled, where the dye moieties have to intercalate into double-stranded DNA for signal generation. Here we analyzed the hybridization thermodynamics of ECHO/DNA duplexes, and thermodynamic parameters were obtained from melting curves of 64 ECHO/DNA duplexes measured by ultraviolet absorbance and fluorescence. Both methods demonstrated a substantial increase in duplex stability (ΔΔG°(37) ~ -2.6 ± 0.7 kcal mol(-1)) compared to that of DNA/DNA duplexes of the same sequence. With the exception of T·G mismatches, this increased stability was mostly unaffected by other mismatches in the position opposite the labeled nucleotide. A nearest neighbor model was constructed for predicting thermodynamic parameters for duplex stability. Evaluation of the nearest neighbor parameters by cross validation tests showed higher predictive reliability for the fluorescence-based than the absorbance-based parameters. Using our experimental data, a tool for predicting the thermodynamics of formation of ECHO/DNA duplexes was developed that is freely available at http://genome.gsc.riken.jp/echo/thermodynamics/ . It provides reliable thermodynamic data for using the unique features of ECHOs in fluorescence-based experiments. 相似文献
942.
Mayr JA Haack TB Graf E Zimmermann FA Wieland T Haberberger B Superti-Furga A Kirschner J Steinmann B Baumgartner MR Moroni I Lamantea E Zeviani M Rodenburg RJ Smeitink J Strom TM Meitinger T Sperl W Prokisch H 《American journal of human genetics》2012,90(2):314-320
Exome sequencing of an individual with congenital cataracts, hypertrophic cardiomyopathy, skeletal myopathy, and lactic acidosis, all typical symptoms of Sengers syndrome, discovered two nonsense mutations in the gene encoding mitochondrial acylglycerol kinase (AGK). Mutation screening of AGK in further individuals with congenital cataracts and cardiomyopathy identified numerous loss-of-function mutations in an additional eight families, confirming the causal nature of AGK deficiency in Sengers syndrome. The loss of AGK led to a decrease of the adenine nucleotide translocator in the inner mitochondrial membrane in muscle, consistent with a role of AGK in driving the assembly of the translocator as a result of its effects on phospholipid metabolism in mitochondria. 相似文献
943.
The intracellular parasite Toxoplasma gondii produces two nucleoside triphosphate diphosphohydrolases (NTPDase1 and -3). These tetrameric, cysteine-rich enzymes require activation by reductive cleavage of a hitherto unknown disulfide bond. Despite a 97% sequence identity, both isozymes differ largely in their ability to hydrolyze ATP and ADP. Here, we present crystal structures of inactive NTPDase3 as an apo form and in complex with the product AMP to resolutions of 2.0 and 2.2 Å, respectively. We find that the enzyme is present in an open conformation that precludes productive substrate binding and catalysis. The cysteine bridge 258–268 is identified to be responsible for locking of activity. Crystal structures of constitutively active variants of NTPDase1 and -3 generated by mutation of Cys258–Cys268 show that opening of the regulatory cysteine bridge induces a pronounced contraction of the whole tetramer. This is accompanied by a 12° domain closure motion resulting in the correct arrangement of all active site residues. A complex structure of activated NTPDase3 with a non-hydrolyzable ATP analog and the cofactor Mg2+ to a resolution of 2.85 Å indicates that catalytic differences between the NTPDases are primarily dictated by differences in positioning of the adenine base caused by substitution of Arg492 and Glu493 in NTPDase1 by glycines in NTPDase3. 相似文献
944.
Nielsen AB Székely K Gath J Ernst M Nielsen NC Meier BH 《Journal of biomolecular NMR》2012,52(4):283-288
We present a scheme that allows the simultaneous detection of PAR and PAIN correlation spectra in a single two-dimensional
experiment. For both spectra, we obtain almost the same signal-to-noise ratio as if a PAR or PAIN spectrum is recorded separately,
which in turn implies that one of the spectra may be considered additional information for free. The experiment is based on
the observation that in a PAIN experiment, the PAR condition is always also fulfilled. The performance is demonstrated experimentally
using uniformly 13C,15N-labeled samples of N–f–MLF–OH and ubiquitin. 相似文献
945.
Arbuscular mycorrhizas (AM) are ubiquitous root symbioses with often pervasive effects on the plant host, one of which may
be above- and belowground biomass allocation. A meta-analysis was conducted on 516 trials that were described in 90 available
articles to examine whether AM colonization could result in a modification of partitioning of plant biomass in shoots and
roots. It was hypothesized that alleviating plant nutrient limitations could result in a decrease of root to shoot (R/S) ratio in AM plants or, alternatively, the direction of shifts in the R/S ratio would be determined by the changes in total dry biomass. In our analysis, we considered four types of stresses: drought
stress, single heavy metal stress, multiple heavy metal stress, and other potential abiotic plant stress factors. When disregarding
any factors that could regulate effects, including stress status and mode of propagation, the overall AM effect was a significant
modification of biomass towards shoot growth. However, the responses of stressed and clonally propagated plants differed from
those of seed-grown unstressed plants. Our meta-analysis detected a considerable decline in the R/S ratio when plants were grown from seeds in the absence of abiotic stresses. Moreover, we demonstrate that additional regulators
of the AM-mediated impact on R/S ratio were presence of competition from other plants, plant growth outcome of the symbiosis, growth substrate volume, experimental
duration, and the identities of both plant and AM fungus. Our results indicate that a prediction of AM effects on R/S allocation becomes more accurate when considering regulators, most notably propagation mode and stress. We discuss possible
mechanisms through which stress and other regulators may operate. 相似文献
946.
JM Starck H Aupperle I Kiefer I Weimer ME Krautwald-Junghanns M Pees 《Zoology (Jena, Germany)》2012,115(4):245-254
This study aims at a functional and morphological characterization of the lung of a boid snake. In particular, we were interested to see if the python's lungs are designed with excess capacity as compared to resting and working oxygen demands. Therefore, the morphological respiratory diffusion capacity of ball pythons (Python regius) was examined following a stereological, hierarchically nested approach. The volume of the respiratory exchange tissue was determined using computed tomography. Tissue compartments were quantified using stereological methods on light microscopic images. The tissue diffusion barrier for oxygen transport was characterized and measured using transmission electron micrographs. We found a significant negative correlation between body mass and the volume of respiratory tissue; the lungs of larger snakes had relatively less respiratory tissue. Therefore, mass-specific respiratory tissue was calculated to exclude effects of body mass. The volume of the lung that contains parenchyma was 11.9±5.0mm(3)g(-1). The volume fraction, i.e., the actual pulmonary exchange tissue per lung parenchyma, was 63.22±7.3%; the total respiratory surface was, on average, 0.214±0.129m(2); it was significantly negatively correlated to body mass, with larger snakes having proportionally smaller respiratory surfaces. For the air-blood barrier, a harmonic mean of 0.78±0.05μm was found, with the epithelial layer representing the thickest part of the barrier. Based on these findings, a median diffusion capacity of the tissue barrier ( [Formula: see text] ) of 0.69±0.38ml O(2)min(-1)mmHg(-1) was calculated. Based on published values for blood oxygen concentration, a total oxygen uptake capacity of 61.16mlO(2)min(-1)kg(-1) can be assumed. This value exceeds the maximum demand for oxygen in ball pythons by a factor of 12. We conclude that healthy individuals of P. regius possess a considerable spare capacity for tissue oxygen exchange. 相似文献
947.
Mireille Faist Emmenegger Matthias Stucki Sandra Hermle 《The International Journal of Life Cycle Assessment》2012,17(9):1142-1147
Introduction
In the last years, the use of biomass for energy purposes has been seen as a promising option to reduce the use of nonrenewable energy sources and the emissions of fossil carbon. However, LCA studies have shown that the energetic use of biomass also causes impacts on climate change and, furthermore, that different environmental issues arise, such as land use and agricultural emissions. While biomass is renewable, it is not an unlimited resource. Its use, to whatever purpose, must therefore be well studied to promote the most efficient option with the least environmental impacts. The 47th LCA Discussion Forum gathered several national and international speakers who provided a broad and qualified view on the topic.Summary of the topics presented in DF 47
Several aspects of energetic biomass use from a range of projects financed by the Swiss Federal Office of Energy (SFOE) were presented in this Discussion Forum. The first session focused on important aspects of the agricultural biogas production like the use of high energy crops or catch crops as well as the influence of plant size on the environmental performance of biogas. In the second session, other possibilities of biomass treatment like direct combustion, composting, and incineration with municipal waste were presented. Topic of the first afternoon session was the update and harmonization of biomass inventories and the resulting new assessment of biofuels. The short presentations investigated some further aspects of the LCA of bioenergy like the assessment of spatial variation of greenhouse gas (GHG) emissions from bioenergy production in a country, the importance of indirect land use change emissions on the overall results, the assessment of alternative technologies to direct spreading of digestate or the updates of the car operation datasets in ecoinvent.Conclusions
One main outcome of this Discussion Forum is that bioenergy is not environmentally friendly per se. In many cases, energetic use of biomass allows a reduction of GHG and fossil energy use. However, there is often a tradeoff with other environmental impacts linked to agricultural production like eutrophication or ecotoxicity. Methodological challenges still exist, like the assessment of direct and indirect land use change emissions and their attribution to the bioenergy production, or the influence of heavy metal flows on the bioenergy assessment. Another challenge is the implementation of a life cycle approach in certification or legislation schemes, as shown by the example of the Renewable Energy Directive of the European Union. 相似文献948.
Richthammer C Enseleit M Sanchez-Leon E März S Heilig Y Riquelme M Seiler S 《Molecular microbiology》2012,85(4):716-733
Rho proteins are key regulators of cellular morphogenesis, but their function in filamentous fungi is poorly understood. By generating conditional rho‐1 mutants, we dissected the function of the essential GTPase RHO1 in cell polarization and maintenance of cell wall integrity in Neurospora crassa. We identified NCU00668/RGF1 as RHO1‐specific exchange factor, which controls actin organization and the cell wall integrity MAK1 MAP kinase pathway through the direct interaction of active RHO1 with the formin BNI1 and PKC1 respectively. The activity of RGF1 is controlled by an intramolecular interaction of its DEP and GEF domains that blocks the activation of the GTPase. Moreover, the N‐terminal region including the DEP domain of RGF1 interacts with the plasma membrane sensor NCU06910/WSC1, potentially to activate the cell wall integrity pathway. RHO1 also functions as regulatory subunit of the glucan synthase. N. crassa possesses a second GTPase, RHO2, that is highly homologous to RHO1. RHO2 is of minor importance for growth and does not interact with BNI1. Conditional rho‐1;rho‐2 double mutants display strong synthetic growth and cell polarity defects. We show that RHO2 does not regulate glucan synthase activity and the actin cytoskeleton, but physically interacts with PKC1 to regulate the cell wall integrity pathway. 相似文献
949.
Alejandro Espinoza-Tenorio Matthias Wolff Marc H. Taylor Ileana Espejel 《Reviews in Fish Biology and Fisheries》2012,22(1):81-94
As tools within ecosystem-based fisheries management (EBFM), a wide range of Ecosystem Models (EMs) have been designed to
represent ecosystem complexity, but it is not always clear how the outputs of these models can be applied. We address this
debate in a literature review to illustrate how a better understanding of ecosystem modeling within the EBFM framework could
facilitate the use of EMs in the decision-making process. We classify EMs according to their complexity, and qualitatively
evaluate their level of success with regard to five general goals of EBFM. In principle, no single EM is found to successfully
accomplish all the EBFM goals. Therefore, we suggest that the way in which ecosystem modeling can effectively contribute to
EBFM is through a structured modeling process, which should be pursued according to the context of each specific area. Within
this planning strategy a range of Ems should be considered, from rather simple ones with few parameters, whose outputs are
scientifically robust but possibly of limited use within the EBFM, to those which include a large number of ecosystem elements
yet at the expense of increased uncertainty. If multiple EMs, despite their different assumptions, leads to consistent and
converging results then robust management decisions will be supported. The present paper appears particularly useful to anyone
confronted with the selection of modeling tools for the implementation of fisheries management strategies considering the
particular situation of the fishery. 相似文献
950.
Breitbach N Tillmann S Schleuning M Grünewald C Laube I Steffan-Dewenter I Böhning-Gaese K 《Oecologia》2012,168(2):425-437
Land-use intensification is a major cause for the decline in species diversity in human-modified landscapes. The loss of functionally
important species can reduce a variety of ecosystem functions, such as pollination and seed dispersal, but the intricate relationships
between land-use intensity, biodiversity and ecosystem functioning are still contentious. Along a gradient from forest to
intensively used farmland, we quantified bee species richness, visitation rates of bees and pollination success of wild cherry
trees (Prunus avium). We analysed the effects of structural habitat diversity at a local scale and of the proportion of suitable habitat around
each tree at a landscape scale. We compared these findings with those from previous studies of seed-dispersing birds and mammals
in the same model system and along the same land-use gradient. Bee species richness and visitation rates were found to be
highest in structurally simple habitats, whereas bird species richness—but not their visitation rates—were highest in structurally
complex habitats. Mammal visitation rates were only influenced at the landscape scale. These results show that different functional
groups of animals respond idiosyncratically to gradients in habitat and landscape structure. Despite strong effects on bees
and birds, pollination success and bird seed removal did not differ along the land-use gradient at both spatial scales. These
results suggest that mobile organisms, such as bees and birds, move over long distances in intensively used landscapes and
thereby buffer pollination and seed-dispersal interactions. We conclude that measures of species richness and interaction
frequencies are not sufficient on their own to understand the ultimate consequences of land-use intensification on ecosystem
functioning. 相似文献