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A. Wilfrid Adams 《BMJ (Clinical research ed.)》1953,1(4809):564-565
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The penicillin-binding proteins (PBP) of a methicillin-resistant strain of Staphylococcus epidermidis, 100,604 p+m+ and a non-isogenic sensitive strain, p-m- were characterised. The presence of a novel PBP, produced by the methicillin-resistant strain of S. epidermidis, with an Mr identical to that of PBP2' in Staphylococcus aureus 13,136 p-m+, was revealed by sodium dodecyl sulphate/polyacrylamide gel electrophoresis and subsequent fluorography of solubilised membrane proteins isolated from cells labelled with [3H]benzylpenicillin. This novel PBP was only detected in cells which had been grown at 30 degrees C, in media containing beta-lactam antibiotic and 5% NaCl. The sensitivity of an attachment transpeptidation reaction measured under non-growing conditions in the sensitive and resistant strains indicated that the novel PBP catalysed this reaction. The similarity of radiolabelled peptides resulting from partial proteolytic digestion of the novel PBP in S. epidermidis 100,604 p+m+ and from PBP2' in S. aureus 13,136 p+m+ lends support to the theory that the additional DNA encoding PBP2' in S. aureus and the same protein in S. epidermidis has been passed to both species from an unknown source. Studies of the development and loss of resistance of attachment transpeptidase activity, and the appearance and disappearance of the novel protein when cultures of the resistant strain were transferred from conditions allowing the expression of resistance to those not allowing such expression and vice-versa, indicated that there was a strong correlation between the presence of PBP2' and the degree of resistance of the attachment transpeptidation reaction and that the production of this protein was affected by temperature at a regulatory or genetic level. Studies on the induction and loss of beta-lactamase activity and of the novel PBP when the resistant strain was grown in the presence or absence of beta-lactam antibiotics at either 40 degrees C or 30 degrees C suggests that there is little relationship between the production of this enzyme and of PBP2' other than the fact that beta-lactam antibiotics are common inducers of both. 相似文献
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Branch Input Resistance and Steady Attenuation for Input to One Branch of a Dendritic Neuron Model 总被引:5,自引:0,他引:5 下载免费PDF全文
Mathematical solutions and numerical illustrations are presented for the steady-state distribution of membrane potential in an extensively branched neuron model, when steady electric current is injected into only one dendritic branch. Explicit expressions are obtained for input resistance at the branch input site and for voltage attenuation from the input site to the soma; expressions for AC steady-state input impedance and attenuation are also presented. The theoretical model assumes passive membrane properties and the equivalent cylinder constraint on branch diameters. Numerical examples illustrate how branch input resistance and steady attenuation depend upon the following: the number of dendritic trees, the orders of dendritic branching, the electrotonic length of the dendritic trees, the location of the dendritic input site, and the input resistance at the soma. The application to cat spinal motoneurons, and to other neuron types, is discussed. The effect of a large dendritic input resistance upon the amount of local membrane depolarization at the synaptic site, and upon the amount of depolarization reaching the soma, is illustrated and discussed; simple proportionality with input resistance does not hold, in general. Also, branch input resistance is shown to exceed the input resistance at the soma by an amount that is always less than the sum of core resistances along the path from the input site to the soma. 相似文献
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