108 research outputs found
Correlative studies on the effects of obesity, diabetes and hypertension on gene expression in omental adipose tissue of obese women
Get PDFComparative analysis on surface property in anodic oxidation polishing of reaction-sintered silicon carbide and single-crystal 4H silicon carbide
Get PDFIndependent measure of the neutrino mixing angle ΞΈ13 via neutron capture on hydrogen at Daya Bay
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Deep sequencing reveals clonal evolution patterns and mutation events associated with relapse in B-cell lymphomas
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Drug discovery: Insights from the invertebrate Caenorhabditis elegans
Get PDFTherapeutic drug development is a long, expensive, and complex process that usually takes 12β15Β years. In the early phases of drug discovery, in particular, there is a growing need for animal models that ensure the reduction in both cost and time. Caenorhabditis elegans has been traditionally used to address fundamental aspects of key biological processes, such as apoptosis, aging, and gene expression regulation. During the last decade, with the advent of large-scale platforms for screenings, this invertebrate has also emerged as an essential tool in the pharmaceutical research industry to identify novel drugs and drug targets. In this review, we discuss the reasons why C.Β elegans has been positioned as an outstanding cost-effective option for drug discovery, highlighting both the advantages and drawbacks of this model. Particular attention is paid to the suitability of this nematode in large-scale genetic and pharmacological screenings. High-throughput screenings in C.Β elegans have indeed contributed to the breakthrough of a wide variety of candidate compounds involved in extensive fields including neurodegeneration, pathogen infections and metabolic disorders. The versatility of this nematode, which enables its instrumentation as a model of human diseases, is another attribute also herein underscored. As illustrative examples, we discuss the utility of C.Β elegans models of both human neurodegenerative diseases and parasitic nematodes in the drug discovery industry. Summing up, this review aims to demonstrate the impact of C.Β elegans models on the drug discovery pipeline.Fil: Giunti, SebastiΓ‘n. Consejo Nacional de Investigaciones CientΓficas y TΓ©cnicas. Centro CientΓfico TecnolΓ³gico Conicet - BahΓa Blanca. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca. Universidad Nacional del Sur. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca; Argentina. Universidad Nacional del Sur. Departamento de BiologΓa, BioquΓmica y Farmacia; ArgentinaFil: Andersen, Natalia Denise. Consejo Nacional de Investigaciones CientΓficas y TΓ©cnicas. Centro CientΓfico TecnolΓ³gico Conicet - BahΓa Blanca. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca. Universidad Nacional del Sur. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca; Argentina. Universidad Nacional del Sur. Departamento de BiologΓa, BioquΓmica y Farmacia; ArgentinaFil: Rayes, Diego HernΓ‘n. Consejo Nacional de Investigaciones CientΓficas y TΓ©cnicas. Centro CientΓfico TecnolΓ³gico Conicet - BahΓa Blanca. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca. Universidad Nacional del Sur. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca; Argentina. Universidad Nacional del Sur. Departamento de BiologΓa, BioquΓmica y Farmacia; ArgentinaFil: de Rosa, Maria Jose. Consejo Nacional de Investigaciones CientΓficas y TΓ©cnicas. Centro CientΓfico TecnolΓ³gico Conicet - BahΓa Blanca. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca. Universidad Nacional del Sur. Instituto de Investigaciones BioquΓmicas de BahΓa Blanca; Argentina. Universidad Nacional del Sur. Departamento de BiologΓa, BioquΓmica y Farmacia; Argentin
Transcriptome Analysis of the Desert Locust Central Nervous System: Production and Annotation of a Schistocerca gregaria EST Database
Get PDF) displays a fascinating type of phenotypic plasticity, designated as βphase polyphenismβ. Depending on environmental conditions, one genome can be translated into two highly divergent phenotypes, termed the solitarious and gregarious (swarming) phase. Although many of the underlying molecular events remain elusive, the central nervous system (CNS) is expected to play a crucial role in the phase transition process. Locusts have also proven to be interesting model organisms in a physiological and neurobiological research context. However, molecular studies in locusts are hampered by the fact that genome/transcriptome sequence information available for this branch of insects is still limited. EST information is highly complementary to the existing orthopteran transcriptomic data. Since many novel transcripts encode neuronal signaling and signal transduction components, this paper includes an overview of these sequences. Furthermore, several transcripts being differentially represented in solitarious and gregarious locusts were retrieved from this EST database. The findings highlight the involvement of the CNS in the phase transition process and indicate that this novel annotated database may also add to the emerging knowledge of concomitant neuronal signaling and neuroplasticity events. EST data constitute an important new source of information that will be instrumental in further unraveling the molecular principles of phase polyphenism, in further establishing locusts as valuable research model organisms and in molecular evolutionary and comparative entomology
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