Shiga Toxin Detection Methods : A Short Review

The Shiga toxins comprise a family of related protein toxins secreted by certain types of bacteria. Shigella dysenteriae, some strain of Escherichia coli and other bacterias can express toxins which caused serious complication during the infection. Shiga toxin and the closely related Shiga-like toxins represent a group of very similar cytotoxins that may play an important role in diarrheal disease and hemolytic-uremic syndrome. The outbreaks caused by this toxin raised serious public health crisis and caused economic losses. These toxins have the same biologic activities and according to recent studies also share the same binding receptor, globotriosyl ceramide (Gb3). Rapid detection of food contamination is therefore relevant for the containment of food-borne pathogens. The conventional methods to detect pathogens, such as microbiological and biochemical identification are time-consuming and laborious. The immunological or nucleic acid-based techniques require extensive sample preparation and are not amenable to miniaturization for on-site detection. In the present are necessary of techniques of rapid identification, simple and sensitive which can be employed in the countryside with minimally-sophisticated instrumentation. Biosensors have shown tremendous promise to overcome these limitations and are being aggressively studied to provide rapid, reliable and sensitive detection platforms for such applications.Comment: 16 pages, 2 figure

Status of FNAL SciBooNE experiment

SciBooNE is a new experiment at FNAL which will make precision neutrino-nucleus cross section measurements in the one GeV region. These measurements are essential for the future neutrino oscillation experiments. We started data taking in the antineutrino mode on June 8, 2007, and collected 5.19 \times 10^{19} protons on target (POT) before the accelerator shutdown in August. The first data from SciBooNE are reported in this article.Comment: 3 pages, 3 figures. Proceedings of the 10th International Conference on Topics in Astroparticle and Underground Physics (TAUP) 2007, Sendai, Japan, September 11-15, 200

Charging Interacting Rotating Black Holes in Heterotic String Theory

We present a formulation of the stationary bosonic string sector of the whole toroidally compactified effective field theory of the heterotic string as a double Ernst system which, in the framework of General Relativity describes, in particular, a pair of interacting spinning black holes; however, in the framework of low--energy string theory the double Ernst system can be particularly interpreted as the rotating field configuration of two interacting sources of black hole type coupled to dilaton and Kalb--Ramond fields. We clarify the rotating character of the $B_{t\phi}$--component of the antisymmetric tensor field of Kalb--Ramond and discuss on its possible torsion nature. We also recall the fact that the double Ernst system possesses a discrete symmetry which is used to relate physically different string vacua. Therefore we apply the normalized Harrison transformation (a charging symmetry which acts on the target space of the low--energy heterotic string theory preserving the asymptotics of the transformed fields and endowing them with multiple electromagnetic charges) on a generic solution of the double Ernst system and compute the generated field configurations for the 4D effective field theory of the heterotic string. This transformation generates the $U(1)^n$ vector field content of the whole low--energy heterotic string spectrum and gives rise to a pair of interacting rotating black holes endowed with dilaton, Kalb--Ramond and multiple electromagnetic fields where the charge vectors are orthogonal to each other.Comment: 15 pages in latex, revised versio

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Resultados de un estudio realizado en Las Marismas del Guadalquivor sobre la respuesta agron&oacute;mica del arroz a la fertilizaci&oacute;n nitrogenada. Se han analizado, entre otras, las dosis m&aacute;ximas permitidas en las Ayudas Agroambientales sobre las variedades Puntal (&iacute;ndica) y Guadiagr&aacute;n (jap&oacute;nica). Los resultados se acompa&ntilde;an de un estudio econ&oacute;mico comparativo para valorar la p&eacute;rdida de beneficios (lucro cesante) asociada a la limitaci&oacute;n normativa. Tambi&eacute;n se valora la utilidad del an&aacute;lisis de nitr&oacute;geno foliar como indicador del estado nutritivo del cultivo.</p

Production of Single Heavy Charged Leptons at a Linear Collider

A sequential fourth generation of quarks and leptons is allowed by precision electroweak constraints if the mass splitting between the heavy quarks is between 50 and 80 GeV. Although heavy quarks can be easily detected at the LHC, it is very difficult to detect a sequential heavy charged lepton, L, due to large backgrounds. Should the L mass be above 250 GeV, it can not be pair-produced at a 500 GeV ILC. We calculate the cross section for the one-loop process e+e- -> L tau. Although the cross section is small, it may be detectable. We also consider contributions from the two Higgs doublet model and the Randall-Sundrum model, in which case the cross section can be substantially higher.Comment: 14 pages, 7 figure

Documenting Sociopolitical Development via Participatory Action Research (PAR) With Women of Color Student Activists in the Neoliberal University

Political activism attests to the sociopolitical development and agency of young people. Yet the literature sparingly engages the intersectional subjectivities that inform the sociopolitical development of young people, especially women of color. Important questions remain in the theorizing of sociopolitical development among youth engaged in political activism within higher education settings. Thus, we focus on the following question: What experiences informed or catalyzed the sociopolitical development of women of color student activists within a racialized neoliberal university in the United States? In addressing this question we demonstrate how student-led participatory action research (PAR) within the neoliberal university can facilitate and support sociopolitical development. Of most value, this paper demonstrates how PAR can be used as a tool to support the intersectional sociopolitical development of student activists organizing within racialized neoliberal settings of higher education that threaten the academic thriving and overall wellbeing of students of color, specifically women of color. Sociopolitical development theorizing must engage elements of relational healing as a dimension of wellbeing. Therefore, our work contributes to these conversations by centering the experiences of women of color student activists

La opinión de la comunidad académica y estudiantil de la Universidad Autónoma del Estado de México en relación con su participación en la construcción de la agenda universitaria de poder

Este trabajo intentaconocer las formas y el grado de la participación política de la comunidad universitaria con visos de influir en la construcción de la agenda de poder. Implica las siguientes preguntas cruciales: ¿De qué manera la comunidad universitaria de la UAEM participa políticamente en la institución? ¿Qué tipo de participación, subjetiva/objetiva, informal/formal, y en qué grado, la comunidad analizada se involucra en actividades políticas

Three-dimensional aspects of fluid flows in channels. II. Effects of Meniscus and Thin Film regimes on Viscous Fingers

We perform a three-dimensional study of steady state viscous fingers that develop in linear channels. By means of a three-dimensional Lattice-Boltzmann scheme that mimics the full macroscopic equations of motion of the fluid momentum and order parameter, we study the effect of the thickness of the channel in two cases. First, for total displacement of the fluids in the channel thickness direction, we find that the steady state finger is effectively two-dimensional and that previous two-dimensional results can be recovered by taking into account the effect of a curved meniscus across the channel thickness as a contribution to surface stresses. Secondly, when a thin film develops in the channel thickness direction, the finger narrows with increasing channel aspect ratio in agreement with experimental results. The effect of the thin film renders the problem three-dimensional and results deviate from the two-dimensional prediction.Comment: 9 pages, 10 figure

Ultrafast laser welding of ceramics.

Welding of ceramics is a key missing component in modern manufacturing. Current methods cannot join ceramics in proximity to temperature-sensitive materials like polymers and electronic components. We introduce an ultrafast pulsed laser welding approach that relies on focusing light on interfaces to ensure an optical interaction volume in ceramics to stimulate nonlinear absorption processes, causing localized melting rather than ablation. The key is the interplay between linear and nonlinear optical properties and laser energy-material coupling. The welded ceramic assemblies hold high vacuum and have shear strengths comparable to metal-to-ceramic diffusion bonds. Laser welding can make ceramics integral components in devices for harsh environments as well as in optoelectronic and/or electronic packages needing visible-radio frequency transparency