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Characterization of solute transport in plasma membrane vesicles isolated from cotyledons ofRicinus communis L. (1990)

Williams, Lorraine E. ; Nelson, S. J. ; Hall, J. L.

Springer

Planta 182 (1990), S. 532-539

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ISSN: 1432-2048

Keywords: ATPase ; Plasma membrane ; Pyrophosphatase ; Ricinus (solute transport) ; Sucrose transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract A highly enriched plasma membrane fraction has been isolated from dark-grown cotyledons ofRicinus communis by phase partitioning. This is demonstrated by the properties of the associated ATPase: high vanadate sensitivity, azide and nitrate insensitivity, sharp pH optimum around 6.5, and high specificity for ATP as substrate. The upper plasma membrane fraction also contained a pyrophosphatase activity, normally considered to be located on the tonoplast or Golgi membranes, which showed a specific activity higher than that in the lower phase. Sucrose gradient centrifugation of both microsomal and upper phase fractions showed a comigration of some pyrophosphatase activity with the plasma membrane fraction. Sucrose uptake changes with development inRicinus cotyledons. The ATPase activity in the upper (plasma membrane) phase also varied in a similar way with development, whereas activity in the lower phase showed little change. Pyrophosphatase activity in the upper phase also increased with development but did not show a peak and fall as seen for sucrose uptake and ATPase. The possibility that changes in plasma membrane ATPase may contribute to changes in sucrose uptake capacity and the possible cellular origin and physiological significance of the pyrophosphatase activity are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02341028

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Quantitative ion localization within Suaeda maritima leaf mesophyll cells (1981)

Harvey, Diana M. R. ; Hall, J. L. ; Flowers, T. J. ; [et al.]

Springer

Planta 151 (1981), S. 555-560

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ISSN: 1432-2048

Keywords: Halophyte ; Ion accumulation ; Suaeda

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Grown under saline conditions, Suaeda maritima accumulates Na+ and Cl- into its leaves, where individual mesophyll cells behave differently in their compartmentation of these ions. Measurements of ion concentrations within selected subcellular compartments show that freeze-substitution with dry sectioning is a valuable preparative technique for analytical electron microscopy of highly vacuolate plant material. Using this approach, absolute estimates were made of Na+, K+ and Cl- concentrations in the cytoplasm, cell walls, chloroplasts and vacuoles of leaf mesophyll cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00387435

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Evidence for the cytoplasmic localization of betaine in leaf cells of Suaeda maritima (1978)

Hall, J. L. ; Harvey, Diana M. R. ; Flowers, T. J.

Springer

Planta 140 (1978), S. 59-62

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ISSN: 1432-2048

Keywords: Betaine ; Lophytes ; Salt tolerance ; Suaeda

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract An attempt has been made to localize glycinebetaine in shoots of Suaeda maritima L. Dum. using a technique based on the formation of an iodoplatinate precipitate. Deposits were largely restricted to the cytoplasm of salt-grown plants and were analysed by transmission analytical electron microscopy. The results are considered to support the hypothesis that glycinebetaine acts as a cytoplasmic osmoticum to balance high vacuolar salt levels in certain halophytes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00389380

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Cytochemical localization of plasma membrane ATPase activity in plant cells (1991)

Chauhan, E. ; Cowan, D. S. ; Hall, J. L.

Springer

Protoplasma 165 (1991), S. 27-36

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ISSN: 1615-6102

Keywords: ATPase ; Cerium ; Cytochemistry ; Fixation ; Zea mays roots ; Plasma membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The cytochemical localization of ATPase activity has been investigated in maize root cells using both lead and cerium-based capture methods. With both methods, staining at the plasma membrane was observed in all cells of the root, although the precipitate obtained with cerium was more uniform and granular than that with lead. Controls using no substrate or no magnesium, β-glycerophosphate to replace ATP, vanadate or boiled tissue generally showed little or no staining. However, biochemical studies on purified plasma membrane fractions showed that ATPase activity was markedly inhibited by fixation, particularly by glutaraldehyde, and also by lead and cerium ions. Non-enzymic hydrolysis of ATP by cerium was greater than that by lead. The value and limitations of these procedures for the localization of plasma membrane H+-ATPase activity are summarized in relation to previous criticisms of these methods.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01322274

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Alanine, glutamate, and ammonia exchanges in acutely ischemic swine myocardium (1992)

Hacker, T. A. ; Hall, J. L. ; Stone, C. K. ; [et al.]

Springer

Basic research in cardiology 87 (1992), S. 184-192

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ISSN: 1435-1803

Keywords: Anoxia ; glycolysis ; heart ; ischemia ; myocardialmetabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Coronary artery disease causes an increase in glutamate uptake and alanine output by the heart. We assessed the effects of acute myocardial ischemia on alanine and glutamate exchange and ammonia production in 10 anesthetized open-chest domestic swine (46.9±0.7 kg). Coronary blood flow was controlled through an extracorporal perfusion circuit. After a nonischemic control period (aerobic) the blood flow in the left anterior descending coronary artery was reduced by 60%. Arterial and anterior interventricular venous samples where drawn before and during 35 min of ischemia. Subendocardial blood flow, measured using radiolabeled microspheres, decreased from 1.27±0.16 to 0.25±0.09 (ml/g)/min, and left-ventricular wall-thickening fell to 47% of aerobic values. Ischemia resulted in a significant increase in the rate of glucose uptake (p〈0.05) and a switch to net lactate production (p〈0.01). Ischemia did not affect the rates of alanine output (−0.9±1.0 vs. −0.3±0.3 μmol/min) or glutamate uptake (−0.4±1.1 vs. 0.3±0.6 μmol/min), but did increase the venous-arterial difference for ammonia (−4.1±4.1 to 52.7±5.5 μM, p〈0.0001) and the ammonia output (−0.33±0.24 to 1.34±0.14 μmol/min, p〈0.0001). In conclusion, acute ischemia did not stimulate greater alanine output or glutamate uptake. However, acute ischemia did cause an increase in anaerobic glycolysis rate and ammonia output, which reflects a profound disruption in myocardial energy metabolism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00801965

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Decreased interstitial glucose and transmural gradient in lactate during ischemia (1994)

Hall, J. L. ; Hernandez, L. A. ; Henderson, J. ; [et al.]

Springer

Basic research in cardiology 89 (1994), S. 468-486

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ISSN: 1435-1803

Keywords: Cardiac ; glycolysis ; heart ; myocardial ; metabolism

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The purpose of this investigation was to assess the effects of ischemia and reperfusion on the transmural levels of glucose and lactate in the interstitium in 11 open-chest swine. Microdialysis probes were used to estimate changes in interstitial metabolities across the ventricular wall. Probes were placed in the subepicardium and the subendocardium of the left anterior descending (LAD) coronary artery perfusion bed and in the midmyocardium of the circumflex (CFX) perfusion bed. The LAD coronary artery was cannulated and perfused with blood from the femoral artery through an extracorporal perfusion circuit. Ischemia was induced in the LAD perfusion bed by reducing the flow of the LAD perfusion pump by 60% for 50 min, and was followed by 30 min of reperfusion. Regional myocardial blood flow was assessed with fluorescent microspheres. Ischemia resulted in a transmural gradient in blood flow, with the most severe reduction in flow occurring in the subendocardium (p〈0.05). We found a significant reduction in interstitial glucose in both the LAD subepicardium (1.26±0.24 mM) (p=0.0009) and subendocardium (0.89±0.21 mM) (p=0.0001) during ischemia compared to the aerobic (non-ischemic) period (1.97±0.25 mM, 2.03±0.29 mM for the subepicardium and subendocardium, respectively). This coincided with a significant reduction in glucose delivery (LAD pump flow* arterial glucose) to the LAD perfusion bed during ischemia (54.5±8.5 μmol/min) compared to aerobic values (182.1±25.3 μmol/min) (p〈0.05). Interstitial lactate levels were significantly increased during ischemia in the LAD subendocardium (3.39±0.46 mM) compared to the aerobic values (1.73±0.46 mM) (p〈0.0029). A transmural gradient in interstitial lactate levels was observed during ischemia: this gradient was not seen during the aerobic period and was negated upon reperfusion. In conclusion, ischemia resulted in a decrease in interstitial glucose in both the LAD subepicardium and subendocardium, and an increase in interstitial lactate in the LAD subendocardium. Further, a transmural gradient in interstitial lactate levels was observed during ischemia, with the highest lactate values appearing in the subendocardium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00788283

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