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排序方式: 共有159条查询结果,搜索用时 375 毫秒
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PM Visscher 《遗传、选种与进化》1995,27(4):335-345
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PM Cala 《The Journal of general physiology》1977,69(5):537-552
The nucleated high K, low Na red blood cells of the winter flounder demonstrated a volume regulatory response subsequent to osmotic swelling or shrinkage. During volume regulation the net water flow was secondary to net inorganic cation flux. Volume regulation the net water flow was secondary to net inorganic cation flux. Volume regulation after osmotic swelling is referred to as regulatory volume decrease (RVD) and was characterized by net K and water loss. Since the electrochemical gradient for K is directed out of the cell there is no need to invoke active processes to explain RVD. When osmotically shrunken, the flounder erythrocyte demonstrated a regulatory volume increase (RVI) back toward control cell volume. The water movements characteristic of RVI were a consequence of net cellular NaCl and KCl uptake with Na accounting for 75 percent of the increase in intracellular cation content. Since the Na electrochemical gradient is directed into the cell, net Na uptake was the result of Na flux via dissipative pathways. The addition of 10(-4)M ouabain to suspensions of flounder erythrocytes was without effect upon net water movements during volume regulation. The presence of ouabain did however lead to a decreased ration of intracellular K:Na. Analysis of net Na and K fluxes in the presence and absence of ouabain led to the conclusion that Na and K fluxes via both conservative and dissipative pathways are increased in response to osmotic swelling or shrinkage. In addition, the Na and K flux rate through both pump and leak pathways decreased in a parallel fashion as cell volume was regulated. Taken as a whole, the Na and K movements through the flounder erythrocyte membrane demonstrated a functional dependence during volume regulation. 相似文献
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A kinetic model describing the binding and uptake of free lambda phage DNA by the bacterium Escherichia coli is presented. The model is based on the assumption that adsorbed ‘helper’ phage particles serve as functional sites to which the lambda DNA specifically binds. When applied to experimental data, the model describes the reaction between cells and DNA as a rapid binding of DNA to helper phage attachment sites, followed by a slow, irreversible incorporation of bound DNA into the cells. Features of the model include a time-dependent exponential decay of functional sites required for DNA uptake and a minimum time for irreversibly bound DNA to enter the cell. We suggest that this model may be useful in studying processes involved in the active transport of DNA across a permeability barrier. 相似文献
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Uxmal and Tulum are two important Mayan sites in the Yucatan peninsula. The buildings are mainly composed of limestone and grey/black discoloration is seen on exposed walls and copious greenish biofilms on inner walls. The principal microorganisms detected on interior walls at both Uxmal and Tulum were cyanobacteria; heterotrophic bacteria and filamentous fungi were also present. A dark‐pigmented mitosporic fungus and Bacillus cereus, both isolated from Uxmal, were shown to be acidogenic in laboratory cultures. Cyanobacteria belonging to rock‐degrading genera Synechocystis and Gloeocapsa were identified at both sites. Surface analysis previously showed that calcium ions were present in the biofilms on buildings at Uxmal and Tulum, suggesting the deposition of biosolubilized stone. Apart from their potential to degrade the substrate, the coccoid cyanobacteria supply organic nutrients for bacteria and fungi, which can produce organic acids, further increasing stone degradation. 相似文献
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Edoardo Pasolli Francesco Asnicar Serena Manara Moreno Zolfo Nicolai Karcher Federica Armanini Francesco Beghini Paolo Manghi Adrian Tett Paolo Ghensi Maria Carmen Collado Benjamin L. Rice Casey DuLong Xochitl C. Morgan Christopher D. Golden Christopher Quince Curtis Huttenhower Nicola Segata 《Cell》2019,176(3):649-662.e20
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Eukaryotic cells organize their cytoplasm by moving different organelles and macromolecular complexes along microtubules and actin filaments. These movements are powered by numerous motor proteins that must recognize their respective cargoes in order to function. Recently, several proteins that interact with motors have been identified by yeast two-hybrid and biochemical analyses, and their roles in transport are now being elucidated. In several cases, analysis of the binding partners helped to identify new transport pathways, new types of cargo, and transport regulated at the level of motor-cargo binding. We discuss here how different motors of the kinesin, dynein and myosin families recognize their cargo and how motor-cargo interactions are regulated. 相似文献