7,114 research outputs found
A Conserved KIN17 Curved DNA-Binding Domain Protein Assembles with SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE7 to Adapt Arabidopsis Growth and Development to Limiting Copper Availability
Proper copper (Cu) homeostasis is required by living organisms to maintain essential cellular functions. In the model plant Arabidopsis (Arabidopsis thaliana), the SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE7 (SPL7) transcription factor participates in reprogramming global gene expression during Cu insufficiency in order to improve the metal uptake and prioritize its distribution to Cu proteins of major importance. As a consequence, spl7 null mutants show morphological and physiological disorders during Cu-limited growth, resulting in lower fresh weight, reduced root elongation, and chlorosis. On the other hand, the Arabidopsis KIN17 homolog belongs to a well-conserved family of essential eukaryotic nuclear proteins known to be stress activated and involved in DNA and possibly RNA metabolism in mammals. In the study presented here, we uncovered that Arabidopsis KIN17 participates in promoting the Cu deficiency response by means of a direct interaction with SPL7. Moreover, the double mutant kin17-1 spl7-2 displays an enhanced Cu-dependent phenotype involving growth arrest, oxidative stress, floral bud abortion, and pollen inviability. Taken together, the data presented here provide evidence for SPL7 and KIN17 protein interaction as a point of convergence in response to both Cu deficiency and oxidative stress
Functional characterisation of Arabidopsis SPL7 conserved protein domains suggests novel regulatory mechanisms in the Cu deficiency response
BACKGROUND: The Arabidopsis SQUAMOSA PROMOTER-BINDING PROTEIN-LIKE (SPL) transcription factor SPL7 reprograms cellular gene expression to adapt plant growth and cellular metabolism to copper (Cu) limited culture conditions. Plant cells require Cu to maintain essential processes, such as photosynthesis, scavenging reactive oxygen species, cell wall lignification and hormone sensing. More specifically, SPL7 activity promotes a high-affinity Cu-uptake system and optimizes Cu (re-)distribution to essential Cu-proteins by means of specific miRNAs targeting mRNA transcripts for those dispensable. However, the functional mechanism underlying SPL7 activation is still to be elucidated. As SPL7 transcript levels are largely non-responsive to Cu availability, post-translational modification seems an obvious possibility. Previously, it was reported that the SPL7 SBP domain does not bind to DNA in vitro in the presence of Cu ions and that SPL7 interacts with a kin17 domain protein to raise SPL7-target gene expression upon Cu deprivation. Here we report how additional conserved SPL7 protein domains may contribute to the Cu deficiency response in Arabidopsis. RESULTS: Cytological and biochemical approaches confirmed an operative transmembrane domain (TMD) and uncovered a dual localisation of SPL7 between the nucleus and an endomembrane system, most likely the endoplasmic reticulum (ER). This new perspective unveiled a possible link between Cu deficit and ER stress, a metabolic dysfunction found capable of inducing SPL7 targets in an SPL7-dependent manner. Moreover, in vivo protein-protein interaction assays revealed that SPL7 is able to homodimerize, probably mediated by the IRPGC domain. These observations, in combination with the constitutive activation of SPL7 targets, when ectopically expressing the N-terminal part of SPL7 including the SBP domain, shed some light on the mechanisms governing SPL7 function. CONCLUSIONS: Here, we propose a revised model of SPL7 activation and regulation. According to our results, SPL7 would be initially located to endomembranes and activated during ER stress as a result of Cu deficiency. Furthermore, we added the SPL7 dimerization in the presence of Cu ions as an additional regulatory mechanism to modulate the Cu deficiency response. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/s12870-014-0231-5) contains supplementary material, which is available to authorized users
Seasonal and spatial variability of rainfall redistribution under Scots pine and Downy oak forests in Mediterranean conditions
The large degree of temporal and spatial variability of throughfall input patterns may lead to significant changes
in the volume of water that reach the soil in each location, and beyond in the hydrological response of forested
hillslopes.
To explore the role of vegetation in the temporal and spatial redistribution of rainfall in Mediterranean climatic
conditions two contrasted stands were monitored. One is a Downy oak forest (Quercus pubescens) and the other is
a Scots pine forest (Pinus sylvestris), both are located in the Vallcebre research catchments (NE Spain, 42º 12¿N,
1º 49¿E). These plots are representative of Mediterranean mountain areas with spontaneous afforestation by Scots
pine as a consequence of the abandonment of agricultural terraces, formerly covered by Downy oaks.
The monitoring design of each plot consists of a set of 20 automatic rain recorders and 40 automatic soil
moisture probes located below the canopy. 100 hemispheric photographs of the canopy were used to place
the instruments at representative locations (in terms of canopy cover) within the plot. Bulk rainfall, stemflow
and meteorological conditions above the forest cover are also automatically recorded. Canopy cover as well as
biometric characteristics of the plots are also regularly measured.
This work presents the first results describing the variability of throughfall beneath each forest stand and compares
the persistence of temporal patterns among stands, and for the oaks stand among the leafed and the leafless
period. Furthermore, canopy structure, rainfall characteristics and meteorological conditions of rainfall events are
evaluated as main drivers of throughfall redistribution
Charmed mesons in nuclear matter
We obtain the properties of charmed mesons in dense matter using a
coupled-channel approach which accounts for Pauli blocking effects and meson
self-energies in a self-consistent manner. We study the behaviour of
dynamically-generated baryonic resonances together with the open-charm meson
spectral functions in this dense nuclear environment. We discuss the
implications of the in-medium properties of open-charm mesons on the
and the predicted X(3700) scalar resonances, and on the
formation of -mesic nuclei.Comment: 5 pages, 5 figures, 1 table, to appear in Proceedings of XIII
International Conference on Hadron Spectroscopy, November 29 - December 4,
2009, Florida State Universit
Influence of canopy traits on spatio-temporal variability of throughfall in Mediterranean Downy oak and Scots pine stands
The spatio-temporal variability of throughfall is the result of the interaction of biotic factors, related to the canopy
traits, and abiotic factors, linked to the meteorological conditions. This variability may lead to significant differences
in the volume of water and solutes that reach the ground in each location, and beyond in the hydrological
and biogeochemical dynamics of forest soils.
Two forest stands in Mediterranean climatic conditions were studied to analyse the role of biotic and abiotic factors
in the temporal and spatial redistribution of throughfall. The monitored stands are a Downy oak forest (Quercus
pubescens) and a Scots pine forest (Pinus sylvestris), both located in the Vallcebre research catchments (NE
Spain, 42º 12¿N, 1º 49¿E). The study plots are representative of Mediterranean mountain areas with spontaneous
afforestation by Scots pine as a consequence of the abandonment of agricultural terraces, formerly covered by
Downy oaks. The monitoring design of each plot consisted of a set of 20 automatic rain recorders and 40 automatic
soil moisture probes located below the canopy. 100 hemispheric photographs of the canopy were used to place
the instruments at representative locations (in terms of canopy cover) within the plot. Bulk rainfall, stemflow
and meteorological conditions above the forest cover were also automatically recorded. Canopy cover as well as
biometric characteristics of the plots were also regularly measured.
The results indicate a temporal persistence of throughfall in both stands, as observed elsewhere. However, for the
oak plot the seasonal evolution of canopy traits added additional variability, with higher variability in summer
and different locations of wet and dry spots depending on the season. Furthermore, this work investigates the
influence of canopy structure on the spatial variability of throughfall by analysing a large set of forest parameters,
from main canopy traits to detailed leaves and wood characteristics. The analysis includes the consideration of the
interaction of main abiotic factors with canopy traits
Energy Deposition around Swift Carbon-Ion Tracks in Liquid Water
Energetic carbon ions are promising projectiles used for cancer radiotherapy. A thorough knowledge of how the energy of these ions is deposited in biological media (mainly composed of liquid water) is required. This can be attained by means of detailed computer simulations, both macroscopically (relevant for appropriately delivering the dose) and at the nanoscale (important for determining the inflicted radiobiological damage). The energy lost per unit path length (i.e., the so-called stopping power) of carbon ions is here theoretically calculated within the dielectric formalism from the excitation spectrum of liquid water obtained from two complementary approaches (one relying on an optical-data model and the other exclusively on ab initio calculations). In addition, the energy carried at the nanometre scale by the generated secondary electrons around the ion's path is simulated by means of a detailed Monte Carlo code. For this purpose, we use the ion and electron cross sections calculated by means of state-of-the art approaches suited to take into account the condensed-phase nature of the liquid water target. As a result of these simulations, the radial dose around the ion's path is obtained, as well as the distributions of clustered events in nanometric volumes similar to the dimensions of DNA convolutions, contributing to the biological damage for carbon ions in a wide energy range, covering from the plateau to the maximum of the Bragg peak
Plasma Non-Enzymatic Antioxidant Capacity (NEAC) in Relation to Dietary NEAC, Nutrient Antioxidants and Inflammation-Related Biomarkers
The results presented in this article constitute part of the C.J. Carrión-García’s Doctoral Thesis
performed in the Nutrition and Food Science Doctorate Program of the University of Granada.(1) Background: Little is known about the interlinkages between dietary and plasma
non-enzymatic antioxidant capacity (D-NEAC and P-NEAC, respectively) and the body’s antioxidant
and inflammation response. Our aim was to explore these associations in 210 participants from two
Spanish European Prospective Investigation into Cancer and Nutrition (EPIC) centers. (2) Methods:
D-NEAC was estimated using published NEAC values in food. P-NEAC and total polyphenols
(TP) were quantified by FRAP (ferric-reducing antioxidant power), TRAP (total radical-trapping
antioxidant parameter), TEAC-ABTS (trolox equivalent antioxidant capacity-Azino Bis Thiazoline
Sulfonic), ORAC (oxygen radical absorbance capacity) and Folin–Ciocalteu assays. Nutrient antioxidants
(carotenes, α-tocopherol, ascorbic acid, retinol, uric acid, Q9 and Q10 coenzymes) and inflammation
markers (IL-6, IL-8, CRP, TNF-α, PAI-I, resistin and adiponectin) were also analyzed. Spearman correlation
and linear regression analyses were performed in association analyses. Analyses were stratified by
covariates and groups were defined using cluster analysis. (3) Results: P-FRAP was correlated with
D-NEAC, and significantly associated with P-NEAC in multivariate adjusted models. P-FRAP levels
were also significantly associated with plasma antioxidants (log2 scale: TP β = 0.26; ascorbic acid
β = 0.03; retinol β = 0.08; α-tocopherol β = 0.05; carotenes β = 0.02; Q10 β = 0.06; uric acid β = 0.25),
though not with inflammation-related biomarkers. Different profiles of individuals with varying levels
of P-NEAC and biomarkers were found. (4) Conclusions: P-NEAC levels were to some extent associated
with D-NEAC and plasma antioxidants, yet not associated with inflammation response.This research was co-funded by the Health Research Found (FIS), Acción Estratégica en Salud (AES),
of the Spanish Ministry of Economy and Competitiveness, grant number PI12/00002, and the European Regional
Development Fund (ERDF)
MIMO in tunnel : impact of polarization and array orientation on the channel characteristics
Polarimetric characteristics of the propagation channel in a straight tunnel and in a frequency band around 1.3 GHz, are deduced from measurements using a real-time MIMO channel sounder. Emphasis is on the cross-polarization discrimination factor and, for a MIMO configuration, on the correlation between transmitting and receiving array elements, depending on the array orientation and on the polarization of the transmitting elements
Critical Strain Region Evaluation of Self-Assembled Semiconductor Quantum Dots
A novel peak finding method to map the strain from high resolution transmission electron micrographs, known as the Peak Pairs method, has been applied to In(Ga) As/AlGaAs quantum dot (QD) samples, which present stacking faults emerging from the QD edges. Moreover, strain distribution has been simulated by the finite element method applying the elastic theory on a 3D QD model. The agreement existing between determined and simulated strain values reveals that these techniques are consistent enough to qualitatively characterize the strain distribution of nanostructured materials. The correct application of both methods allows the localization of critical strain zones in semiconductor QDs, predicting the nucleation of defects, and being a very useful tool for the design of semiconductor device
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