ABSTRACT
Comunidades complexas de bactérias, fungos e vírus prosperam em nossa pele. A composição dessas comunidades depende das características da pele, como concentração das glândulas sebáceas, teor de umidade e temperatura, bem como da genética do hospedeiro e fatores ambientais exógenos. Estudos metagenômicos recentes descobriram uma diversidade surpreendente dentro desses ecossistemas e promoveram uma nova visão dos organismos comensais durantes as diferentes fases da vida humana. Portanto nesta revisão de literatura buscamos compreender as interações micróbio-hospedeiro e descobrir os fatores que impulsionam a colonização microbiana nos ajudará a entender a patogênese das doenças de pele e a desenvolver novas terapêuticas pro-microbianas e antimicrobianas.
Complex communities of bacteria, fungi and viruses thrive on our skin. The composition of these communities depends on the characteristics of the skin, such as concentration of sebaceous glands, moisture and temperature content, as well as the host's genetics and exogenous environmental factors. Recent metagenomic studies have discovered a surprising diversity within these ecosystems and have promoted a new view of commensal organisms during the different stages of human life. Thus, this review explores microbe-host interactions and discovering the factors that drive microbial colonization will help us understand the pathogenesis of skin diseases and develop new promicrobial and antimicrobial therapies
ABSTRACT
Worldwide germplasm collections contain about 7.4 million accessions of plant genetic resources for food and agriculture. One of the 10 largest ex situ genebanks of our globe is located at the Leibniz Institute of Plant Genetics and Crop Plant Research in Gatersleben, Germany. Molecular tools have been used for various gene bank management practices including characterization and utilization of the germplasm. The results on genetic integrity of longterm- stored gene bank accessions of wheat (self-pollinating) and rye (open-pollinating) cereal crops revealed a high degree of identity for wheat. In contrast, the out-pollinating accessions of rye exhibited shifts in allele frequencies. The genetic diversity of wheat and barley germplasm collected at intervals of 40 to 50 years in comparable geographical regions showed qualitative rather than a quantitative change in diversity. The inter- and intraspecific variation of seed longevity was analysed and differences were detected. Genetic studies in barley, wheat and oilseed rape revealed numerous QTL, indicating the complex and quantitative nature of seed longevity. Some of the loci identified were in genomic regions that co-localize with genes determining agronomic traits such as spike architecture or biotic and abiotic stress response. Finally, a genome-wide association mapping analysis of a core collection of wheat for flowering time was performed using diversity array technology (DArT) markers. Maker trait associations were detected in genomic regions where major genes or QTL have been described earlier. In addition, new loci were also detected, providing opportunities to monitor genetic variation for crop improvement.
ABSTRACT
Hepatitis C is a serious public health problem because it infects 2% of world population. The new microbiological tools based on molecular biology are very useful to diagnose, prevent and treat this disease. This review shows the progress in these technologies, focusing in the importance of genotypes and viral quasispecies, as well as in the importance of the study of Ag of core and RNA detection. It also deals with the utility of the secuenciation in drugs resistance detection and virus epidemiology
La hepatitis C es un importante problema de salud pública, ya que afecta al 2% de la población mundial. Las nuevas técnicas microbiológicas basadas en la biología molecular proporcionan herramientas muy útiles para mejorar el diagnóstico, la prevención y el tratamiento de esta enfermedad. En esta revisión se exponen los últimos avances de estas técnicas, haciendo hincapié en la importancia de la genotipificación de las cuasiespecies virales y de la detección viral mediante la búsqueda del antígeno del core y del ARN viral, así como en la utilidad de la secuenciación en la detección de resistencia a fármacos y en el estudio de la epidemiología del virus