Modeling complex ecological economic systems: toward an evolutionary, dynamic understanding of people and nature

Recent understanding about system dynamics and predictability that has emerged from the study of complex systems is creating new tools for modeling interactions between anthropogenic and natural systems. A range of techniques has become available through advances in computer speed and accessibility and by implementing a broad, interdisciplinary systems view

Voltammetric sensor for theophylline using sol-gel immobilized molecularly imprinted polymer particles

El títol del pre-print va ser: Development of a voltammetric sensor for theophylline with sol-gel immobilised molecularly imprinted polymer particlesApplication of Molecularly Imprinted Polymers (MIPs) to sensor substrates holds great promise within the field of electrochemical sensing due to their low price, tailored selectivity and facile synthesis protocols. Though MIPs can be synthesised directly onto the surface of sensors via layer or film deposition, this can be difficult due to the high number of interdependent steps involved in their synthesis. For this reason, synthesis of MIP particles is more frequently employed by synthetic and non-specialist laboratories alike. There is, however a lack of immobilisation protocols for these particles. Herein, there is presented a sol-gel based immobilisation method for MIP particles for the development of an electrochemical sensor. The macroporous precipitation-polymerised particles were imprinted with Theophylline, combined with graphite in the sol-gel and deposited on an electrode surface. The sensor was tested using differential pulse voltammetry. A limit of detection of 1µM and a relative standard deviation of 6.85% was observed for the primary analyte. The electrode was regenerated via a thermal washing process with a signal loss of 29.3% following the initial regeneration and 2.35% per subsequent regeneration

Stem rust resistance in wheat is suppressed by a subunit of the mediator complex

Stem rust is an important disease of wheat that can be controlled using resistance genes. The gene SuSr-D1 identified in cultivar 'Canthatch' suppresses stem rust resistance. SuSr-D1 mutants are resistant to several races of stem rust that are virulent on wild-type plants. Here we identify SuSr-D1 by sequencing flow-sorted chromosomes, mutagenesis, and map-based cloning. The gene encodes Med15, a subunit of the Mediator Complex, a conserved protein complex in eukaryotes that regulates expression of protein-coding genes. Nonsense mutations in Med15b.D result in expression of stem rust resistance. Time-course RNAseq analysis show a significant reduction or complete loss of differential gene expression at 24h post inoculation in med15b.D mutants, suggesting that transcriptional reprogramming at this time point is not required for immunity to stem rust. Suppression is a common phenomenon and this study provides novel insight into suppression of rust resistance in wheat. Stem rust is an important disease of wheat and resistance present in some cultivars can be suppressed by the SuSr-D1 locus. Here the authors show that SuSr-D1 encodes a subunit of the Mediator Complex and that nonsense mutations are sufficient to abolish suppression and confer stem rust resistance

MIPs as Tools in Environmental Biotechnology

: Molecular imprints are potentially fantastic constructions. They are selective, robust, and nonbiodegradable if produced from stable polymers. A range of different applications has been presented, everything from separation of enantiomers, via adsorbents for sample preparation before analysis to applications in wastewater treatment. This chapter deals with molecularly imprinted polymers (MIPs) as tools in environmental biotechnology, a field that has the potential to become very important in the future