Biodiversity of Archaea and floral of two inland saltern ecosystems in the Alto Vinalopó Valley, Spain

Background. The extraction of salt from seawater by means of coastal solar salterns is a very well-described process. Moreover, the characterization of these environments from ecological, biochemical and microbiological perspectives has become a key focus for many research groups all over the world over the last 20 years. In countries such as Spain, there are several examples of coastal solar salterns (mainly on the Mediterranean coast) and inland solar salterns, from which sodium chloride is obtained for human consumption. However, studies focused on the characterization of inland solar salterns are scarce and both the archaeal diversity and the plant communities inhabiting these environments remain poorly described. Results. Two of the inland solar salterns (termed Redonda and Penalva), located in the Alto Vinalopó Valley (Alicante, Spain), were characterized regarding their geological and physico-chemical characteristics and their archaeal and botanical biodiversity. A preliminary eukaryotic diversity survey was also performed using saline water. The chemical characterization of the brine has revealed that the salted groundwater extracted to fill these inland solar salterns is thalassohaline. The plant communities living in this environment are dominated by Sarcocornia fruticosa (L.) A.J. Scott, Arthrocnemum macrostachyum (Moris) K. Koch, Suaeda vera Forsk. ex Gmelin (Amaranthaceae) and several species of Limonium (Mill) and Tamarix (L). Archaeal diversity was analyzed and compared by polymerase chain reaction (PCR)-based molecular phylogenetic techniques. Most of the sequences recovered from environmental DNA samples are affiliated with haloarchaeal genera such as Haloarcula, Halorubrum, Haloquadratum and Halobacterium, and with an unclassified member of the Halobacteriaceae. The eukaryote Dunaliella was also present in the samples. Conclusions. To our knowledge, this study constitutes the first analysis centered on inland solar salterns located in the southeastern region of Spain. The results obtained revealed that the salt deposits of this region have marine origins. Plant communities typical of salt marshes are present in this ecosystem and members of the Halobacteriaceae family can be easily detected in the microbial populations of these habitats. Possible origins of the haloarchaea detected in this study are discussed.

Propuesta de una nueva clasificación de los oligoelementos para su aplicación en nutrición, oligoterapia, y otras estrategias terapéuticas

Objetivos: 1) Proponer una nueva clasificación de los oligoelementos fundamentada en el estudio detallado de las investigaciones más recientes sobre los mismos; 2) ofrecer información detallada y actualizada sobre todos los oligoelementos. Resultados: el análisis de todos los resultados de investigación consultados pone de manifiesto que los avances en las técnicas de análisis molecular permiten dilucidar la importancia que presentan ciertos oligoelementos para la salud humana. Se ofrece un análisis detallado de la función catalítica que podrían tener determinados elementos no considerados hasta ahora como esenciales o posiblemente esenciales, gracias al uso de plataformas informáticas que permiten el análisis integrado de datos sobre enzimas. Asimismo se presenta información integrada y actualizada del papel fisiológico, cinéticas y metabolismo, fuentes dietéticas y factores que propician la carencia o la toxicidad de cada uno de los oligoelementos. Conclusiones: La Oligoterapia plantea el uso de oligoelementos catalíticamente activos con fines terapéuticos. La nueva clasificación de oligoelementos planteada en este trabajo será de interés para diversos sectores profesionales: médicos y demás personal sanitario, nutricionistas, farmacéuticos, etc. Así podrán diseñarse nuevas estrategias terapéuticas que permitan paliar la sintomatología de diversas patologías, en particular las enfermedades carenciales y metabólicas.

Molecular Techniques (2015-2016). Lesson 7

Powerpoint slides for Lesson 7.

Molecular Techniques (2015-2016). Lesson 8

Powerpoint slides for Lesson 8.

Molecular Techniques (2015-2016). Lesson 9

Powerpoint slides for Lesson 9.

Molecular Techniques (2015-2016). Lesson 10

Powerpoint slides for Lesson 10.

Molecular Techniques (2015-2016). Protocol for the Genetics Laboratory practices

Protocol for the Genetics Laboratory practices.

Molecular Techniques (2015-2016). Slides for the Genetics Laboratory practices introduction

Slides for the Genetics Laboratory practices introduction.

Molecular Techniques (2015-2016). Exercises to be discussed and solved during the laboratory practices

Exercises to be discussed and solved during the laboratory practices.

Molecular Techniques (2015-2016). Problems to be solved by the students

Problems to be solved by the students.

Novel silica membrane material for molecular sieve applications

Development of new silica membranes properties, e.g., molecular sieving properties, has been increasingly gaining importance in the last few years. A novel unsupported silica membrane, referred to as hydrophobic metal-doped silica, was developed by cobalt-doping within the organic templated silica matrix. The novel material was prepared by the acid-catalyzed hydrolysis and condensation process of tetraethylorthosilicate (TEOS) and methyltriethoxysilane (MTES), which is the precursor for methyl ligand covalently bounded to the silica matrix. The synthesis and surface properties of the novel unsupported silica membrane as well as the unsupported blank silica and modified silica membranes were revealed by surface and microstructural techniques, such as water contact angle measurement, FTIR, X-ray, Solid-state 29Si MAS NMR, TGA and N2 and CO2 adsorption measurements. The results showed that the thermal stability of the organic templated silica matrix was enhanced by cobalt-doping process. A hydrophobic microporous silica membrane material with high thermal stability up to ∼560 °C in oxidizing atmosphere and a narrow pore size distribution centered at 1.1 nm was obtained. Therefore, a novel precursor material for molecular sieve silica membranes applications has been achieved and developed.

X-Ray Imaging of SAPO-34 Molecular Sieves at the Nanoscale: Influence of Steaming on the Methanol-to-Hydrocarbons Reaction

The effect of a severe steaming treatment on the physicochemical properties and catalytic performance of H-SAPO-34 molecular sieves during the methanol-to-hydrocarbons (MTH) reaction has been investigated with a combination of scanning transmission X-ray microscopy (STXM), catalytic testing, and bulk characterization techniques, including ammonia temperature programmed desorption and 27Al and 29Si magic angle spinning nuclear magnetic resonance. For this purpose, two samples, namely a calcined and a steamed H-SAPO-34 catalyst powder, have been compared. It has been found that calcined H-SAPO-34 displays a high selectivity towards light olefins, yet shows a poor stability as compared to a zeolite H-ZSM-5 catalyst. Moreover, in situ STXM at the carbon K-edge during the MTH reaction allows construction of nanoscale chemical maps of the hydrocarbon species formed within the H-SAPO-34 aggregates as a function of reaction time and steam post-treatment. It was found that there is an initial preferential formation of coke precursor species within the core of the H-SAPO-34 aggregates. For longer times on stream the formation of the coke precursor species is extended to the outer regions, progressively filling the entire H-SAPO-34 catalyst particle. In contrast, the hydrothermally treated H-SAPO-34 showed similar reaction selectivity, but decreased activity and catalyst stability with respect to its calcined counterpart. These variations in MTH performance are related to a faster and more homogeneous formation of coke precursor species filling up the entire steamed H-SAPO-34 catalyst particle. Finally, the chemical imaging capabilities of the STXM method at the Al and Si K-edge are illustrated by visualizing the silicon islands at the nanoscale before and after steaming H-SAPO-34.