Where to cross? New insights into the location of meiotic crossovers.

During meiosis, the repair of induced DNA double-strand breaks (DSBs) produces crossovers (COs). COs are essential for the proper segregation of homologous chromosomes at the first meiotic division. In addition, COs generate new combinations of genetic markers in the progeny. CO localization is tightly controlled, giving rise to patterns that are specific to each species. The underlying mechanisms governing CO location, however, are poorly understood. Recent studies highlight the complexity of the multiple interconnected factors involved in shaping the CO landscape and demonstrate that the mechanisms that control CO distribution can vary from species to species. Here, we provide an overview of the recent findings related to CO distribution and discuss their impact on our understanding of the control of meiotic recombination.

Crossover localisation is regulated by the neddylation posttranslational regulatory pathway.

Crossovers (COs) are at the origin of genetic variability, occurring across successive generations, and they are also essential for the correct segregation of chromosomes during meiosis. Their number and position are precisely controlled, however the mechanisms underlying these controls are poorly understood. Neddylation/rubylation is a regulatory pathway of posttranslational protein modification that is required for numerous cellular processes in eukaryotes, but has not yet been linked to homologous recombination. In a screen for meiotic recombination-defective mutants, we identified several axr1 alleles, disrupting the gene encoding the E1 enzyme of the neddylation complex in Arabidopsis. Using genetic and cytological approaches we found that axr1 mutants are characterised by a shortage in bivalent formation correlated with strong synapsis defects. We determined that the bivalent shortage in axr1 is not due to a general decrease in CO formation but rather due to a mislocalisation of class I COs. In axr1, as in wild type, COs are still under the control of the ZMM group of proteins. However, in contrast to wild type, they tend to cluster together and no longer follow the obligatory CO rule. Lastly, we showed that this deregulation of CO localisation is likely to be mediated by the activity of a cullin 4 RING ligase, known to be involved in DNA damage sensing during somatic DNA repair and mouse spermatogenesis. In conclusion, we provide evidence that the neddylation/rubylation pathway of protein modification is a key regulator of meiotic recombination. We propose that rather than regulating the number of recombination events, this pathway regulates their localisation, through the activation of cullin 4 RING ligase complexes. Possible targets for these ligases are discussed.

Estudo fenotípico e genotípico da resistência aos macrolídeos de "Streptococcus pneumoniae" isolados em hospitais de Porto Alegre - RS / Phenotypic and genotypic study of macrolide resistance of Streptococcus pneumoniae strains isolated in hospitals in Porto Alegre, in the state of Rio Grande do Sul, Brazil

OBJETIVO: O objetivo deste estudo foi determinar a prevalência do S. pneumoniae resistente aos macrolídeos e identificar suas características fenotípicas e genotípicas. MÉTODOS: Amostras de S. pneumoniae isoladas entre maio de 2002 e agosto de 2004, em Porto Alegre (RS), a partir de materiais clínicos coletados de diferentes sítios anatômicos foram analisadas. Para o teste de difusão em ágar foram utilizados discos de eritromicina, claritromicina, azitromicina e clindamicina. As concentrações inibitórias mínimas de eritromicina foram determinadas nos isolados resistentes aos macrolídeos pelo método de diluição em ágar. Os fenótipos dos isolados resistentes aos macrolídeos foram investigados pelo teste de difusão em ágar e a genotipagem pela reação em cadeia da polimerase. RESULTADOS: Foram avaliados 229 isolados de pneumococos, e 12 mostraram-se resistentes aos macrolídeos (5,2 por cento). Entre estes, 9 apresentaram o fenótipo MLSB (75 por cento) e 3 o fenótipo M (25 por cento). A reação em cadeia da polimerase indicou que 8 isolados com o fenótipo MLSB portavam apenas o gene ermB, enquanto que o gene mefE estava presente em todos os 3 isolados com o fenótipo M. Um isolado com o fenótipo MLSB apresentou ambos os genes. CONCLUSÃO: A resistência aos macrolídeos do S. pneumoniae em Porto Alegre permanece baixa, sendo devida principalmente à presença do gene ermB, com expressão do fenótipo MLSB.