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1.
K. Katou  T. Taura  M. Furumoto 《Protoplasma》1987,140(2-3):123-132
Summary The mechanism of water movement across roots is, as yet, not well understood. Some workable black box theories have already been proposed. They, however, assumed unrealistic cell membranes with low values of , or were based on a poor anatomical knowledge of roots. The role of root stele in solute and water transport seems to be especially uncertain. An attempted explanation of the nature of root exudation and root pressure by applying the apoplast canal theory (Katou andFurumoto 1986 a, b) to transport in the root stele is given. The canal equations are solved for boundary conditions based on anatomical and physiological knowledge of the root stele. It is found that the symplast cell membrane, cell wall and net solute transport into the wall apoplast are the essential constituents of the canal system. Numerical analysis shows that the canal system enables the coupled transport of solutes and water into a xylem vessel, and the development of root pressure beyond the level predicted by the osmotic potential difference between the ambient medium and the exudate. Observations on root exudation and root pressure previously reported seem to be explained quite well. It is concluded that the movement of water in the root stele although apparently active is essentially osmotic.Abbreviations J v ex volume exudation per root surface - J0 non-osmotic exudation - Lr overall radial hydraulic conductivity of an excised root - reflection coefficient - Cs difference in the osmotic concentration between the bathing medium and the exudate - R gas constant - T absolute temperature - CK molar concentration of K+ - CCl molar concentration of Cl - Cj molar concentration of ion species j - Pj membrane permeability of ion j - zj valence of ion j - F Faraday constant - Vix intracellular electric potential with reference to the canal  相似文献   
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The dependence of membrane potentials on changes in the extra-cellularK+ concentration [K+]e was investigated in potato tuber sliceswith dripping perfusion, and in growing Vigna hypocotyl segmentswith pressurized intra-organ perfusion methods. Only under anoxiawere the membrane potential of potato tuber slices and the electricpotential difference between the parenchyma symplast and xylem(Vpx) of Vigna hypocotyl segments depolarized markedly (46 mVand 42 mV/log[K+]e unit, respectively) with increasing [K+]eabove the critical values. The electric potential differencebetween the parenchyma symplast and organ surface (Vps of thehypocotyl segments remained nearly unchanged up to 30 mEq [K+]e.Under highly aerobic conditions the membrane potentials wererelatively independent of [K+]e except at very high K+ concentrations.Vps showed even hyperpolarization with the increasing KCl concentrationin the perfusion solution that is not in direct contact withthe surface membrane of the parenchyma symplast. The respiration-dependentelectrogenic components of the membrane potentials regularlyincreased with the increasing [K+]e. A voltage-dependent homeostaticcontrol of membrane potential is discussed. (Received August 13, 1984; Accepted December 21, 1984)  相似文献   
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A mechanism of respiration-dependent water uptake enhanced by auxin   总被引:2,自引:0,他引:2  
Summary There are many contradictory observations on the mechanohydraulic relation of growing higher plant cells and tissues. Graphical analysis of the simultaneous equations which govern irreversible wall yielding and water absorption has made more comprehensive the understanding of this relation when relative growth rate is plotted against turgor pressure. It suggests that some respiration-dependent and auxin sensitive process might regulate the difference of osmotic potential between cells and water source. Based on anatomical and electrophysiological knowledge of the pea stem xylem, we propose the wall canal system as the mechanism of respiration-dependent water uptake which is sensitive to auxin. This system consists of the xylem apoplastic walls, the xylem proton pumps, active solute uptake system and cell membranes. In the simplest case, third-order simultaneous differential equations are involved. Numerical analysis showed that net uptake of solutes enables water to be taken up against an opposing gradient of water potential. The behaviour of this wall canal system describes well the mechano-hydraulic relation of enlarging plant cells and tissues. Recent typical, but incompatible, interpretations of this relation are critically discussed based on our model.Abbreviations V the volume of enlarging symplast - the average extensibility of the wall - Pi turgor pressure - Y the yield threshold of the wall - L the relative hydraulic conductance - the solute reflection coefficient of the plasmamembrane - Ci the osmotic concentration of the symplast cells - Cx the osmotic concentration of the xylem vessels - Px hydrostatic pressure in the xylem vessels - R the gas constant - T absolute temperature - o water potential of xylem fluid - i water potential of symplast cells  相似文献   
6.
As one of the methods of finding out the structural change of lipid bilayers due to change of environmental solution, the capacitances of phosphatidyl choline (egg lecithin) and phosphatidyl serine (bovine brain) bilayer membranes in solutions of various pH and salt contents were measured. It was found that the capacitance of the bilayer depended upon pH and salt content. The capacitance had a minimum value around pH 4 for phosphatidyl choline and around pH 3-4 for phosphatidyl serine bilayers, respectively. The value of the capacitance increased as the pH of the solution became lower or higher. As the concentration of cholesterol in the phosphatidyl choline bilayer increased, the capacitance increased and reached a saturation value. A DC voltage across the phosphatidyl choline bilayer did not affect the value of the capacitance practically.  相似文献   
7.
Abstract: A rare case of bilateral adrenal myelolipomas in a female cotton-top tamarin is reported. Large bilateral masses in the adrenal glands were composed of mature adipose cells containing varying amounts of hematopoietic cells of the myeloid, erythroid, and megakaryocyte series. The gross and histologic features of this case closely resemble human “giant” adrenal myelolipomas.  相似文献   
8.
Summary To quantitate the developmental changes in selenium-dependent cellular glutathione peroxidase during the perinatal period, tissue sections from foetal (day 12 to day 22) and neonatal (day 6) rats were stained immunohistochemically using specific polyclonal antiserum. The intensity of the staining was quantified by fluorescence microscopy image analysis. There was a general trend of enriched glutathione peroxidase in the epithelial linings and metabolically active sites. Significant fluorescence was detected in cardiomyocytes, hepatocytes, renal tubular epithelium, bronchiolar epithelium and intestinal epithelium at day 15. The intensity increased in a stepwise manner therafter. The overall increase in the intensity of staining in the heart, liver, kidneys, lungs and intestine was 1.5-, 2.3-, 1.6-, 1.7- and 3.0-fold, respectively. The phase of most rapid increase occurred during the foetal period in the liver, intestine and heart. In the kidneys and lungs, glutathione peroxidase increased significantly during foetal life, and to a similar extent postnatally. These results suggest that the intracellular H2O2-scavenging system develops during the foetal period as an essential mechanism for living under atmospheric oxygen conditions. The late development observed in the kidneys and lungs is consistent with the relative biological immaturity of these organs in full-term neonates.  相似文献   
9.
Elongation growth of hypocotyl sections of Vigna unguiculata under xylem perfusion was significantly enhanced when acid was applied by acid-aerosol to an abraded hypocotyl surface in the air. The in vivo wall extensibility (φ) and the effective turgor (Pi– Y), both of which were determined by the pressure-jump method, increased during acid-induced growth as observed in IAA-induced growth. The intracellular pressure (Pi), however, decreased significantly at the beginning of acid-induced growth whereas Pi scarcely changed in IAA-induced growth. This result indicates that protons increase the effective turgor by decreasing the yield threshold as IAA does. There seems to be no essential difference between proton and auxin in the effects on the in vivo mechanical properties of the surface cell wall.  相似文献   
10.
The effects of proteins on divalent cation-induced phospholipid vesicle aggregation and phospholipid vesicle-monolayer membrane interactions (fusion) were examined. Glycophorin (from human erythrocytes) suppressed the membrane interactions more than N-2 protein (from human brain myelin) when these proteins were incorporated into acidic phospholipid vesicle membranes. The threshold concentrations of divalent cations which induced vesicle aggregation were increased by protein incorporation, and the rate of vesicle aggregation was reduced. A similar inhibitory effect by the proteins, incorporated into lipid vesicle membranes, was observed for Ca2+-induced lipid vesicle-monolayer interactions. However, when these proteins were incorporated only in the acidic phospholipid monolayers, the interaction (fusion) of the lipid vesicle-monolayer membranes, induced by divalent cations, was not appreciably altered by the presence of the proteins.In contrast to these two proteins, the presence of synexin in the solution did enhance the Ca2+-induced aggregation of phosphatidylserine vesicles, but did not seem to affect the degree of Ca2+-induced fusion between phosphatidylserine/phosphatidylcholine (1:1) and phosphatidylserine vesicles and monolayer membranes.  相似文献   
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