Separation of membrane vesicles and cytosol from cultured cells and bacteria in a preformed discontinuous gradient.
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There are many situations when it is necessary to separate rapidly and efficiently a cytosolic and a membrane vesicle fraction from either cultured cells or from bacteria. Flotation of the vesicles through a low-density barrier from a dense sample zone using the low viscosity medium iodixanol allows complete separation of these compartments. As the sample is exposed to the gmax the tendency of the proteins to sediment overcomes any diffusion in the opposite direction. (+info)
Separation of membrane vesicles and cytosol from yeast, cultured cells, and bacteria in a small volume self-generated gradient in a fixed-angle rotor.
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There are many situations when it is necessary to separate rapidly and efficiently a cytosolic and a membrane vesicle fraction from yeast, cultured cells, or from bacteria. This Protocol Article describes the flotation of the vesicles through a self-generated gradient from a dense sample zone using the low-viscosity medium iodixanol. As the sample is exposed to the gmax the tendency of the proteins to sediment overcomes any diffusion in the opposite direction and are therefore completely separated from the vesicles. (+info)
Isolation of human platelets (thrombocytes).
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Platelets from human blood can be isolated in high yield by centrifugation of whole blood over an iodixanol density barrier of 1.063 g/ml. The separation from all of the blood cells (which form a pellet) is based on the slower sedimentation velocity of the smaller platelets. (+info)
Isolation of rat and human hippocampal neuron fractions in a discontinuous density gradient.
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The plating efficiency of neurons in culture is highly dependent on the concentration of cells used to establish the monolayer. A discontinuous iodixanol gradient permits both the production of a viable concentrated suspension of neurons and purification from other brain tissue elements. The gradient that is described in this Protocol Article is applicable to brain tissue from rat and also from human biopsy specimens. (+info)
Purification of gastric mucosal ECL cells from a crude elutriation fraction.
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Acid-secreting parietal cells from the gastric mucosa are widely studied as a model in studies on ion transport and the endocrine/paracrine ECL cells effectively control parietal cell function. Discontinuous gradients of iodixanol for the purification of ECL cells were subsequently simplified to the use of a density barrier. This technique is now commonly used following initial centrifugal elutriation. (+info)
Isolation of peripheral blood mononuclear cells from macaques on a density barrier.
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The standard techniques for the isolation of human peripheral blood mononuclear cells (PBMCs) using commercial "lymphocyte isolation media" cannot be satisfactorily extended to experimental animals without manipulating either the density or the osmolality of the medium. PBMCs from Macaques can also be isolated from whole blood by sedimentation on to a density barrier containing approx. 10% iodixanol, polysucrose (Ficoll) with a density of approx 1.074 g/ml. (+info)
A rapid protocol for the prevention of contrast-induced renal dysfunction: the RAPPID study.
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OBJECTIVES: This study was designed to test a rapid protocol of intravenous acetylcysteine for prevention of radiocontrast-induced nephropathy (RCIN). BACKGROUND: Oral acetylcysteine (NAC) may provide better prophylaxis against RCIN than intravenous (i.v.) hydration alone. Current protocols preclude prophylaxis of same-day or emergency patients owing to the need for prolonged pretreatment. METHODS: We prospectively randomized 80 patients with stable renal dysfunction undergoing cardiac catheterization/intervention to a rapid protocol of i.v. NAC (150 mg/kg in 500 ml N/saline over 30 min immediately before contrast followed by 50 mg/kg in 500 ml N/saline over 4 h, n = 41, 67 +/- 10 years, 90% men) or i.v. hydration (1 ml/kg/h N/saline for 12 h pre- and post-contrast, n = 39, 71 +/- 8.8 years, 85% men). RESULTS: Radiocontrast-induced nephropathy occurred in 2 of the 41 patients in the NAC group (5%) and in 8 of the 39 patients in the hydration group (21%; p = 0.045; relative risk: 0.28; 95% confidence interval 0.08 to 0.98). In the NAC group, mean serum creatinine fell from 1.85 +/- 0.59 to 1.77 +/- 0.73 and 1.79 +/- 0.73 mg/dl 48 h and four days post-contrast (p = 0.02 and 0.023 vs. baseline, respectively). In the hydration group, serum creatinine increased from 1.75 +/- 0.41 to 1.81 +/- 0.6 48 h and 1.80 +/- 0.50 mg/dl four days post-contrast (p = 0.99 and 0.23, respectively). NAC infusion was ceased after the bolus in three patients (7%) due to flushing, itching, or a transient rash. CONCLUSIONS: Administration of i.v. NAC should be considered in all patients at risk of RCIN before contrast exposure when time constraints preclude adequate oral prophylaxis, provided the patient is able to tolerate this degree of volume loading. (+info)
The polycotyledon mutant of tomato shows enhanced polar auxin transport.
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The polycotyledon mutant of tomato (Lycopersicon esculentum L. cv Ailsa Craig) showed altered development during embryogenesis and during vegetative and reproductive phases. The phenotype was pleiotropic and included the formation of extra cotyledons, changes in leaf shape, increased number of flowers (indeterminacy) with abnormal floral organs, the formation of epiphyllous structures, and altered gravitropism. The earliest defects were observed at the transition from the globular to the heart stage of embryogenesis with the formation of multiple cotyledons. Epidermal cells in the mutant embryo were smaller and less expanded compared with wild type. Examination of polar auxin transport (PAT) showed a striking enhancement in the case of the mutant. Increase in PAT did not appear to be caused by a decrease in flavonoids because the mutant had normal flavonoid levels. Application of 2,3,5-triiodobenzoic acid, an inhibitor of polar transport of auxin, rescued postgermination phenotypes of young seedlings. Our analysis reveals a level of control that negatively regulates PAT in tomato and its contribution to plant development and organogenesis. (+info)