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Henri Berestycki Jean-Michel Roquejoffre Luca Rossi 《Journal of mathematical biology》2013,66(4-5):743-766
We propose here a new model to describe biological invasions in the plane when a strong diffusion takes place on a line. We establish the main properties of the system, and also derive the asymptotic speed of spreading in the direction of the line. For low diffusion, the line has no effect, whereas, past a threshold, the line enhances global diffusion in the plane and the propagation is directed by diffusion on the line. It is shown here that the global asymptotic speed of spreading in the plane, in the direction of the line, grows as the square root of the diffusion on the line. The model is much relevant to account for the effects of fast diffusion lines such as roads on spreading of invasive species. 相似文献
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Henri Roualle 《BMJ (Clinical research ed.)》1953,1(4820):1165-1166
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Mutants affecting tRNA(Phe) from Escherichia coli. Studies of the suppression of thermosensitive phenylalanyl-tRNA synthetase 总被引:2,自引:0,他引:2
Four mutants of pheV, a gene coding for tRNA(Phe) in Escherichia coli, share the characteristic that when carried in the plasmid pBR322, they lose the capacity of wild-type pheV to complement the thermosensitive defect in a mutant of phenylalanyl-tRNA synthetase. One of these mutants, leading to the change C2----U2 in tRNA(Phe), is expressed about 10-fold lower in transformed cells than wild-type pheV. This mutant, unlike the remaining three (G15----A15, G44----A44, m7G46----A46), can recover the capacity to complement thermosensitivity when carried in a plasmid of higher copy number. The other three mutants, even when expressed at a similar level, remain unable to complement thermosensitivity. A study of charging kinetics suggests that the loss of complementation associated with these mutants is due to an altered interaction with phenylalanyl-tRNA synthetase. The mutant gene pheV (U2), when carried in pBR322, can also recover the capacity to complement thermosensitivity through a second-site mutation outside the tRNA structural gene, in the discriminator region. This mutation, C(-6)----T(-6), restores expression of the mutant U2 to about the level of wild-type tRNA(Phe). 相似文献
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Incorporation of 8 mol percent lactosylceramide into small unilamellar vesicles consisting of cholesterol and sphingomyelin in an equimolar ratio and containing [3H]inulin as a marker resulted in an increase in total liver uptake and a drastic change in intrahepatic distribution of the liposomes after intravenous injection into rats. The control vesicles without glycolipid accumulated predominantly in the hepatocytes, but incorporation of the glycolipid resulted in a larger stimulation of Kupffer-cell uptake (3.2-fold) than of hepatocyte uptake (1.2-fold). Liposome preparations both with and without lactosylceramide in which part of the sphingomyelin was replaced by phosphatidylserine, resulting in a net negative charge of the vesicles, were cleared much more rapidly from the blood and taken up by the liver to higher extents. The negative charge had, however, no influence on the intrahepatic distributions. The fast hepatic uptake of the negatively charged liposomes allowed competition experiments with substrates for the galactose receptors on liver cells. Inhibition of blood clearance and liver uptake of lactosylceramide-containing liposomes by indicated the involvement of specific recognition sites for the liposomal galactose residues. This inhibitory effect of was shown to be mainly the result of a decreased liposome uptake by the Kupffer cells, compatible with the reported presence of a galactose specific receptor on this cell type (Kolb-Bachofen et al. (1982) Cell 29, 859–866). The difference between the results on sphingomyelin-based liposomes as described in this paper and those on phosphatidylcholine-based liposomes as published previously (Spanjer and Scherphof (1983) Biochim. Biophys. Acta 734, 40–47) are discussed. 相似文献