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Marsin S McGovern S Ehrlich SD Bruand C Polard P 《The Journal of biological chemistry》2001,276(49):45818-45825
Primosomes are nucleoprotein assemblies designed for the activation of DNA replication forks. Their primary role is to recruit the replicative helicase onto single-stranded DNA. The "replication restart" primosome, defined in Escherichia coli, is involved in the reactivation of arrested replication forks. Binding of the PriA protein to forked DNA triggers its assembly. PriA is conserved in bacteria, but its primosomal partners are not. In Bacillus subtilis, genetic analysis has revealed three primosomal proteins, DnaB, DnaD, and DnaI, that have no obvious homologues in E. coli. Interestingly, they are involved in primosome function both at arrested replication forks and at the chromosomal origin. Our biochemical analysis of the DnaB and DnaD proteins unravels their role in primosome assembly. They are both multimeric and bind individually to DNA. Furthermore, DnaD stimulates DnaB binding activities. DnaD alone and the DnaD/DnaB pair interact specifically with PriA of B. subtilis on several DNA substrates. This suggests that the nucleoprotein assembly is sequential in the PriA, DnaD, DnaB order. The preferred DNA substrate mimics an arrested DNA replication fork with unreplicated lagging strand, structurally identical to a product of recombinational repair of a stalled replication fork. 相似文献
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McGovern TM 《Proceedings. Biological sciences / The Royal Society》2003,270(1532):2517-2522
Plastic reproductive allocation may allow individuals to maximize their fitness when conditions vary. Mate availability is one condition that may determine the fitness of an individual's allocation strategy. Using a variety of methods, I detected evidence of plastic allocation to asexual (clonal) reproduction in response to mate availability in the brittle star Ophiactis savignyi. There were more mature individuals in populations in which both sexes were present, and clones from these populations had fewer clone-mates than clones from single-sex populations. Animals placed with mates in a field experiment divided less frequently than animals without a mate. These findings demonstrate that animals reduce their allocation to asexual reproduction when mates are present and when a loss of fecundity associated with cloning would decrease offspring production. This plasticity is probably adaptive because it maximizes sexual-reproductive potential when fertilization is more likely, but maximizes survival of the clone when mates are absent and gametes are unlikely to be converted to offspring. 相似文献
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Cavalieri D McGovern PE Hartl DL Mortimer R Polsinelli M 《Journal of molecular evolution》2003,57(Z1):S226-S232
Saccharomyces cerevisiae is the principal yeast used in modern fermentation processes, including winemaking, breadmaking, and brewing. From residue present inside one of the earliest known wine jars from Egypt, we have extracted, amplified, and sequenced ribosomal DNA from S. cerevisiae. These results indicate that this organism was probably responsible for wine fermentation by at least 3150 B.C. This inference has major implications for the evolution of bread and beer yeasts, since it suggests that S. cerevisiae yeast, which occurs naturally on the surface bloom of grapes, was also used as an inoculum to ferment cereal products. 相似文献
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Sphingomyelin is an important lipid component of cell membranes and lipoproteins that can be hydrolyzed by sphingomyelinases into ceramide and phosphorylcholine. The Type A and B forms of Niemann-Pick disease (NPD) are lipid storage disorders due to the deficient activity of the enzyme acid sphingomyelinase and the resultant accumulation of sphingomyelin in cells, tissues, and fluids. In this paper we report a new, enzymatic method to quantify the levels of sphingomyelin in plasma, urine, or tissues from NPD patients and mice. In this assay, bacterial sphingomyelinase is first used to hydrolyze sphingomyelin to phosphorylcholine and ceramide. Alkaline phosphatase then generates choline from the phosphorylcholine, and the newly formed choline is then used to generate hydrogen peroxide in a reaction catalyzed by choline oxidase. Finally, with peroxidase as a catalyst, hydrogen peroxide reacts with the Amplex Red reagent to generate a highly fluorescent product, resorufin. These enzymatic reactions are carried out simultaneously in a single 100-microl reaction mixture for 20 min. Use of a 96-well microtiter plate permits automated and sensitive quantification using a plate reader and fluorescence detector. This procedure allowed quantification of sphingomyelin over a broad range from 0.02 to 10 nmol, similar in sensitivity to a recently described radioactive method using diacylglycerol kinase and 50 times more sensitive than a colorimetric, aminoantipyrine/phenol-based assay. To validate this new assay method, we quantified sphingomyelin in plasma, urine, and tissues from normal individuals and from NPD mice and patients. The sphingomyelin content in adult homozygous or heterozygous NPD mouse plasma and urine was significantly elevated compared to that of normal mice. Moreover, the accumulated sphingomyelin in the tissues of NPD mice was 4 to 15 times higher than that in normal mice depending on the tissue analyzed. The sphingomyelin levels in plasma from several Type B NPD patients also was significantly elevated compared to normal individuals of the same age. Based on these results, we propose that this new, fluorescence-based procedure can provide simple, fast, sensitive, and reproducible sphingomyelin quantification in tissues and fluids from normal individuals and NPD patients. It could also be a useful tool for the study of other sphingomyelin-related diseases and in a variety of research settings where sphingomyelin quantification is required. 相似文献