Pumps function

Such vessels can also be baked at a temperature of several hundred degrees, to drive off any gas adsorbed on metal surfaces. The pumping function of an ion gauge was developed into efficient ionic pumps and turbomolecular pumps , supplemented by low-temperature traps and cryopumps. Finally, sputter-ion pumps, which rely on sorption processes initiated by ionised gas, were introduced. A vacuum of 10 "-10 Torr, true UHV, became routinely accessible in the late 1950s, and surface science could be launched. 

Cytochemical Analysis of Na/K Pump Function in Langendorff-perfused Isolated Hearts Effect of Glutathione... 

Inadequate diuretic therapy Ineffective cardiac pump function... 

Hydrochloric acid (HCl), a strong acid that dissociates into an H+ and a CP ion, is produced by the parietal cells. These ions are actively transported into the lumen of the stomach by the proton pump. Functions of HCl include ... 

Ventricular assist devices are surgically implanted and assist, or in some cases replace, the pumping functions of the right and/or left ventricles. 

In addition to its pump function, the heart is also a secretory organ. Cardiac cells produce two small peptides, the natriuretic factors, which oppose the vasoconstrictive actions of noradrenaline (norepinephrine) from the sympathetic nervous system and of the peptide angiotensin II. By causing vasodilation and natriuresis (increased excretion of sodium in the urine), atrial natriuretic peptide (ANP) secreted from the atria and B-type natriuretic peptide (BNP) secreted by both atria and probably more significantly, from the ventricles, reduce blood pressure. The stimulus to secretion of natriuretic peptides is wall stretch of the chambers of the heart, indicating volume and pressure overload of the vascular system. A third member of the natriuretic peptide family, CNP, is secreted by endothelial cells. 

One possibility to enhance, in a controlled manner, entry of drugs into the CNS would be to alter P-glycoprotein function at the blood-brain barrier. Such an enhancement could result from (1) direct modification of export pump function by inhibitors and intracellular signals or (2) bypassing the export pump by delivery systems not being recognized as substrates (e.g., nanoparticles or vector-coupled liposomes, which are taken up by endocytotic mechanisms) [58-65],... 

A valuable clue to the manner in which iron pump functions, came in 1957 when an enzyme of molar mass 110 kg/mol was discovered by Jens Skou which hydrolyses ATP only if Na and K+ ions are present in addition to Mgt+ required for all ATPases (enzymes catalysing the hydrolysis of ATP). The activity of this enzyme correlates quantitatively with the extent of ion transport. Another important clue was provided by the observation that this ATPase is phosphorylated at an aspartase site only in the presence of Na+ and Mg2+ ions. The phosphorylated product is hydrolysed if K+ ions are present. It has been also observed that the enzyme undergoes a conformational change when it is phosphorylated. 

There are several most interesting observations concerning osmolarity. We have found that there is an important difference of osmolarity between the hyperosmolar stroma with 420 mOsmol/kg and the extra and intraocular fluids with lower osmolarities of about 320 mOsmol/kg. This results in an inversion of the water flux, when barriers like endothelium and epithelium are damaged. The immediate result of any membrane damage is that water starts to flow from the outside into the comeal stroma. This results in a corneal edema with turbidity. This is an indirect proof of the pumping function of the endothelium. 

All burnt comeal stroma show lower osmolarity due to the loss of ions by continuous rinsing. The higher osmolar Diphoterine adds some ions to the burnt corneal stroma, but its osmolarity is still much lower than the one of the aqueous humor. It is obvious that there is no change in osmolarity in aqeous humor in healthy and in burnt eyes due to autoregulation of this milien by the ciliary body secretion. The considerable differences in tissue osmolarity indicate that there will be a strong fluid uptake into the comeal tissue, resluting in opacity. This indicates a severe water uptake and a lack of the endothelial pumping function. 

Based on the results of these tests, recommended operating conditions for Zr precipitation in the pilot plant system include reaction temperatures of 20 C or 60 C, impeller tip speeds of 320 cm/s during solid dispersal/reaction vising a high efficiency axial flow impeller, addition of 0.83 g NaF/g Zr in solution, and crystallization periods of 24 hours. A filter press will provide acceptable solid/llquid separation even during process upsets without use of a precoat. A diaphragm pump functioned well during these tests. 

Atmosphere-ocean carbon exchange is much controlled by physical processes, including mixing of the surface and deep layers of the ocean across the thermo-cline. Biological processes favor the movement of carbon from the surface layer to deep layers and down to bottom sediments. The biological pump functions as a result of phytoplankton photosynthesis. 

As a weak base (pKa = 3.9), pantoprazole is highly ionized at low pH and readily accumulates in the highly acidic canalicular lumen of the stimulated parietal cell. In this acidic environment, pantoprazole is rapidly converted to the active species, a cationic cyclic sulfonamide, which binds covalently to cysteine residues on the luminal (acidic) surface of H+, K+-ATPase to form a mixed disulphide, thereby causing irreversible inhibition of gastric proton pump function. As H+, K+-ATPase represents the final step in the secretary process, inhibition of this enzyme suppresses gastric acid secretion regardless of the primary stimulus [1],... 

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