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1.
Calculation of effective diffusivities for biofilms and tissues. 总被引:2,自引:0,他引:2
In this study we describe a scheme for numerically calculating the effective diffusivity of cellular systems such as biofilms and tissues. This work extends previous studies in which we developed the macroscale representations of the transport equations for cellular systems based on the subcellular-scale transport and reaction processes. A finite-difference model is used to predict the effective diffusivity of a cellular system on the basis of the subcellular-scale geometry and transport parameters. The effective diffusivity is predicted for a complex three-dimensional structure that is based on laboratory observations of a biofilm, and these numerical predictions are compared with predictions from a simple analytical solution and with experimental data. Our results indicate that, under many practical circumstances, the simple analytical solution can be used to provide reasonable estimates of the effective diffusivity. 相似文献
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R D Granstein M Askari D Whitaker G F Murphy 《Journal of immunology (Baltimore, Md. : 1950)》1987,138(12):4055-4062
Intravenous administration of hapten-coupled, high-density (density greater than 1.077) epidermal cells (HD-EC) to mice results in the appearance of transferable splenic T suppressor (Ts) cells as assayed in adoptive transfer experiments. Depletion of I-A bearing cells from the HD-EC population before hapten coupling prevents these cells from inducing Ts cell formation, whereas depletion of Thy-1-bearing cells from the HD-EC cell preparation has no effect. When HD-EC are adhered to glass for 2 hr, the ability to induce Ts cell formation resides in the adherent population. Exposure of HD-EC to a dose of ultraviolet radiation (UVR) that largely abrogates the ability of hapten-coupled EC to immunize mice for a DTH response does not affect the ability of these cells to activate Ts cells. Treatment of mice with i.p. administration of 20 mg/kg of cyclophosphamide 2 days before EC harvesting abrogates the ability of HD-EC from these mice to induce Ts cell formation. HD-EC from B10.A(3R) (I-Jb) but not B10.A(5R) (I-Jk) mice induce Ts cell formation in B10.A(3R) mice, demonstrating that the ability to do so is restricted by the I-J locus. Transmission electron microscopy of adherent HD-EC populations demonstrated that two cell types were present. One type had the characteristics of keratinocytes; the other was monocyte-like and resembled Langerhans cells or indeterminate cells in many aspects. Immunoelectron microscopy revealed this second cell type to bear I-A/I-E antigen. These cells were T-200 positive and Mac-1 negative by immunoperoxidase staining. Extensive examination by light and electron microscopy failed to reveal any dermal components in the EC populations; however, a very small degree of dermal contamination cannot be excluded. Thus, EC that activate afferent-acting Ts cells are high-density, I-A+, Thy-1-, I-J restricted, glass adherent, and functionally UVR resistant and cyclophosphamide sensitive. 相似文献
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Comparison of a new inorganic membrane filter (Anopore) with a track-etched polycarbonate membrane filter (Nuclepore) for direct counting of bacteria. 总被引:4,自引:3,他引:1 下载免费PDF全文
Bacterial counts obtained by using a new Anopore inorganic membrane filter were 21 to 33% higher than those obtained by using a Nuclepore polycarbonate membrane filter. In addition, the inorganic filter had higher flow rates, permitting lower vacuum pressures to be used, while the intrinsically flat, rigid surface resulted in easier focusing and sharp definition of bacteria across the whole field of view. 相似文献
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Information transfer between T cell subsets is directed by I-J+ antigen nonspecific molecules 总被引:1,自引:0,他引:1
T cell antigen-specific suppressor factors (TsF) consist of two distinct polypeptide chains: one that binds antigen (ABM) and one that bears I-J region markers (I-J+ chain). We studied the functional role of these two molecules in delivering the biologic message of suppression to its appropriate target cell. Two different biologically active TsF were used in these studies: TsiF, a T suppressor-inducer factor consisting of an ABM secreted by Ly-1 T cells (Ti-ABM) and an I-J+ subfactor secreted by Ly-1 T cells (I-Ji), which initiates the suppressor circuit by inducing an Ly-1,2 T cell; and TseF, a T suppressor-effector factor consisting of an ABM secreted by Ly-2 T cells (Te-ABM) and an I-J+ subfactor secreted by Ly-1 T cells (I-Je), which delivers the biologic message of suppression to the T helper (TH) cell. In both TsF, the ABM and I-J+ chain are noncovalently associated and can be easily separated. Both molecules must be present, however, for biologic activity of the TsF to be manifest. We studied the role of each chain in delivering these biologically active messages by constructing "hybrid" factors made from mixing the ABM from TsiF with I-J+ chains from either TsiF or TseF and determined which of these chains could reconstitute functional TsiF activity. Likewise, we mixed the AMB from TseF with I-J+ chains of TsiF or TseF to determine which I-J+ chain could reconstitute TseF activity. We found that I-J+ chain from TsiF (I-Ji) can reconstitute ABM from TsiF to form a functional TsiF capable of inducing suppression but cannot reconstitute ABM from TseF to form a functional TsiF capable of suppressing the activity of TH cells. Likewise, the addition of I-J+ chain from TseF to ABM from TseF can reconstitute its ability to suppress TH responses, but I-J+ chain from TsiF plus ABM from TseF has no effect on these TH cell responses. We did find, however, that this hybrid TsF composed of the ABM from TseF and the I-J+ chain from TsiF is capable of suppressing the Ly-1,2 Ttrans cell, the cell normally induced by the ABM + I-J+ suppressor inducer complex from T suppressor-inducer cells (TsiF).(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
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Clues from Xanthomonas campestris about the evolution of aromatic biosynthesis and its regulation 总被引:4,自引:0,他引:4
R J Whitaker A Berry G S Byng M J Fiske R A Jensen 《Journal of molecular evolution》1984,21(2):139-149
The recent placement of major Gram-negative prokaryotes (Superfamily B) on a phylogenetic tree (including, e.g., lineages leading to Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter calcoaceticus) has allowed initial insights into the evolution of the biochemical pathway for aromatic amino acid biosynthesis and its regulation to be obtained. Within this prokaryote grouping, Xanthomonas campestris ATCC 12612 (a representative of the Group V pseudomonads) has played a key role in facilitating deductions about the major evolutionary events that shaped the character of aromatic biosynthesis within this grouping. X. campestris is like P. aeruginosa (and unlike E. coli) in its possession of dual flow routes to both L-phenylalanine and L-tyrosine from prephenate. Like all other members of Superfamily B, X. campestris possesses a bifunctional P-protein bearing the activities of both chorismate mutase and prephenate dehydratase. We have found an unregulated arogenate dehydratase similar to that of P. aeruginosa in X. campestris. We separated the two tyrosine-branch dehydrogenase activities (prephenate dehydrogenase and arogenate dehydrogenase); this marks the first time this has been accomplished in an organism in which these two activities coexist. Superfamily B organisms possess 3-deoxy-D-arabino-heptulosonate 7-P (DAHP) synthase as three isozymes (e.g., in E. coli), as two isozymes (e.g., in P. aeruginosa), or as one enzyme (in X. campestris). The two-isozyme system has been deduced to correspond to the ancestral state of Superfamily B. Thus, E. coli has gained an isozyme, whereas X. campestris has lost one. We conclude that the single, chorismate-sensitive DAHP synthase enzyme of X. campestris is evolutionarily related to the tryptophan-sensitive DAHP synthase present throughout the rest of Superfamily B. In X. campestris, arogenate dehydrogenase, prephenate dehydrogenase, the P-protein, chorismate mutase-F, anthranilate synthase, and DAHP synthase are all allosteric proteins; we compared their regulatory properties with those of enzymes of other Superfamily B members with respect to the evolution of regulatory properties. The network of sequentially operating circuits of allosteric control that exists for feedback regulation of overall carbon flow through the aromatic pathway in X. campestris is thus far unique in nature. 相似文献
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