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Bonalume Neto R 《Nature》1999,402(6760):344-345
897.
This article describes the first results from the recent revision to The ONS classification of local and health authorities of Great Britain to allow for boundary changes. For each local and health authority of Great Britain as at April 1999 it presents 'most similar' authorities as measured by a selection of 37 socioeconomic and demographic variables from the 1991 Census. These results will assist local and health authorities in identifying other appropriate authorities for comparative studies. A second article, to be published in Population Trends 99, will present the results of the analysis to identify groups of authorities in a hierarchy of new Clusters, Groups and Families for the revised classification. 相似文献
898.
899.
Bacterial suicide through stress 总被引:9,自引:0,他引:9
Outside of the laboratory, bacterial cells are constantly exposed to stressful conditions, and an ability to resist those
stresses is essential to their survival. However, the degree of stress required to bring about cell death varies with growth
phase, amongst other parameters. Exponential phase cells are significantly more sensitive to stress than stationary phase
ones, and a novel hypothesis has recently been advanced to explain this difference in sensitivity, the suicide response. Essentially,
the suicide response predicts that rapidly growing and respiring bacterial cells will suffer growth arrest when subjected
to relatively mild stresses, but their metabolism will continue: a burst of free-radical production results from this uncoupling
of growth from metabolism, and it is this free-radical burst that is lethal to the cells, rather than the stress per se. The
suicide response hypothesis unifies a variety of previously unrelated empirical observations, for instance induction of superoxide
dismutase by heat shock, alkyl-hydroperoxide reductase by osmotic shock and catalase by ethanol shock. The suicide response
also has major implications for current [food] processing methods.
Received 29 March 1999; received after revision 14 May 1999; accepted 17 May 1999 相似文献
900.
At the end of mitosis, daughter cells are separated from each other by cytokinesis. This process involves equal partitioning
and segregation of cytoplasm between the two cells. Despite years of study, the mechanism driving cytokinesis in animal cells
is not fully understood. Actin and myosin are major components of the contractile ring, the structure at the equator between
the dividing cells that provides the force necessary to constrict the cytoplasm. Despite this, there are also tantalizing
results suggesting that cytokinesis can occur in the absence of myosin. It is unclear what the roles are of the few other
contractile ring components identified to date. While it has been difficult to identify important proteins involved in cytokinesis,
it has been even more challenging to pinpoint the regulatory mechanisms that govern this vital process. Cytokinesis must be
precisely controlled both spatially and temporally; potential regulators of these parameters are just beginning to be identified.
This review discusses the recent progress in our understanding of cytokinesis in animal cells and the mechanisms that may
regulate it.
Received 24 August 1998; received after revision 9 October 1998; accepted 9 October 1998 相似文献