University of Alcalá

About: University of Alcalá is a education organization based out in Alcalá de Henares, Spain. It is known for research contribution in the topics: Population & Context (language use). The organization has 10795 authors who have published 20718 publications receiving 410089 citations. The organization is also known as: University of Alcala & University of Alcala de Henares.

Analysis of soyabean proteins in meat products: a review.

Abstract: The use of soyabean proteins as meat extenders has spread significantly due to the interesting nutritional and functional properties that are present in soyabean proteins. Together with these, health and economical reasons are the major causes for the addition of soyabean proteins to meat products. Nevertheless, despite the good properties associated to soyabean proteins, there are many countries in which the addition of these proteins is forbidden or in which the addition of soyabean proteins is allowed up to a certain extent. Thus, the need of analytical methods enabling the detection of added soyabean proteins in meat products is obvious. Microscopic, electrophoretic, immunologic, and chromatographic methods are the most widely used for this purpose. However, the detection of soyabean proteins in meat products presents difficulties related to the composition (meat species, meat quality, soyabean protein source, presence of other non-meat proteins, etc.) and the processing of the meat products, and, although these analytical methods have tried to overcome all these difficulties, there is still not a method enabling quantitative assessment of soyabean proteins in all kinds of meat products.

Comparative evolution of muscular dystrophy in diaphragm, gastrocnemius and masseter muscles from old male mdx mice.

Abstract: X chromosome-linked muscular dystrophic mdx mouse lacks the sarcolemmal protein dystrophin and represents a genetic homologue of human Duchenne muscular dystrophy (DMD). The present study analysed some aspects of pathological processes such as fibrosis, frequency of centralized nuclei, presence of degenerative or regenerative fibres, expression of utrophin and associated protein complexes, and myosin heavy chain isoforms in three muscles [diaphragm (DIA), gastrocnemius (GTC) and masseter (MAS)] from old male mdx mice. All parameters investigated comparatively in these pathological muscles provided evidence that the MAS mdx muscle presents a slight deterioration pattern in comparison to that of DIA and GTC muscles. Utrophin and associated proteins are present in many cell clusters with continuous membrane labelling in MAS muscle. Respective proportions of myosin heavy chain isoforms, measured by electrophoresis/densitometry, showed only slight change in GTC muscle, significant evolution in DIA muscle but drastic isoform conversions in MAS muscle. These results highlighted the difference in deterioration susceptibility of various muscles to muscular dystrophy. The reason why this occurs in MAS muscles is still obscure and discussed in terms of the comparative developmental origins of these muscles.

Gain-assisted pulse advancement using single and double Brillouin gain peaks in optical fibers.

Abstract: We report the first experimental demonstration of pulse advancement with gain in optical fibers based on stimulated Brillouin scattering. Two experimental configurations are investigated and compared. One is to make the pulse propagate in a region slightly detuned from a gain peak where the group velocity change is negative and the other is to make use of the large anomalous dispersion appearing between two gain peaks. We experimentally show that the second method produces pulse advancement with lower distortion than the first one.

Selective DNA release from DQAsome/DNA complexes at mitochondria-like membranes.

Abstract: The number of diseases found to be associated with defects of the mitochondrial genome has grown significantly over the past decade (Wallace 1999). Despite major advances in understanding mtDNA defects at the genetic and biochemical level, there is no satisfactory treatment available for the vast majority of patients and the exploration of gene therapeutic approaches is highly warranted. However, mitochondrial gene therapy still appears only theoretical and speculative. Any possibility for gene replacement depends on the use of a yet unavailable mitochondria-specific transfection vector. Mitochondria-specific vectors must posses two properties: they have to transport DNA to the side of mitochondria; they must not release DNA during endocytosis. Amphiphile compounds with delocalized cationic charge centers such as rhodamine 123 and the bolaamphiphile dequalinium have long been known to accumulate in mitochondria. Sufficient lipophilicity combined with delocalization of the positive charge to reduce the free energy change when moving from an aqueous to a hydrophobic environment are believed to be prerequisite for mitochondrial accumulation in response to the mitochondrial membrane potential. We have recently succeeded in preparing cationic vesicles made of dequalinium that we termed DQAsomes (Weissig et al. 1998a). We have shown that DQAsomes bind and protect DNA against DNase activity (Lasch et al. 1999). Based on the intrinsic property of dequalinium to preferentially accumulate in mitochondria in response to the electrochemical gradient at the mitochondrial membrane, we believe that DQAsomes can serve as a vector to deliver DNA to mitochondria in living cells. As a first step in the development of mitochondria-specific DNA delivery systems, we report here that DQAsome/DNA complexes selectively release DNA at cardiolipin-rich liposomes mimicking both the inner and the outer mitochondrial membrane. We demonstrate that DNA remains tightly associated with DQAsomes in the presence of an excess of anionic lipids other than cardiolipin.