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Hydatidosis of the abdominal cavity (1982)

Solomon, A. ; Rubinstein, Z. ; Morag, B.

Springer

Abdominal imaging 7 (1982), S. 355-356

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ISSN: 1432-0509

Keywords: Abdominal hydatidosis ; Spread ; Dynamic ; CT

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Following surgery for hydatid disease of the liver, the disease was disseminated intraperitoneally. The dynamic pathway of spread was demonstrated on CT. The abdominal hydatidosis finally occupied a large ventral hernial sac.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01887670

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Dilemma of an inverted cecal diverticulum simulating a pedunculated polyp: CT appearance (1995)

Posner, R. ; Solomon, A.

Springer

Abdominal imaging 20 (1995), S. 440-441

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ISSN: 1432-0509

Keywords: Cecal ; “Inverted” ; CT

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The computed tomographic (CT) appearance of an intussuscepting cecal diverticulum is described. Some features on CT suggest that the term “inverted” may not be accurate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01213266

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Conformational changes in human red cell membrane proteins induced by sugar binding (1991)

Janoshazi, Agnes ; Kifor, Gabriela ; Solomon, A. K.

Springer

The journal of membrane biology 123 (1991), S. 191-207

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ISSN: 1432-1424

Keywords: red cell ; glucose transport protein ; band 3 ; anion exchange protein ; maltose ; disaccharides ; amion transport inhibitors ; DBDS

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary We have previously shown that the human red cell glucose transport protein and the anion exchange protein, band 3, are in close enough contact that information can be transmitted from the glucose transport protein to band 3. The present experiments were designed to show whether information could be transferred in the reverse direction, using changes in tryptophan fluorescence to report on the conformation of the glucose transport protein. To see whether tryptophan fluorescence changes could be attributed to the glucose transport protein, we based our experiments on procedures used by Helgerson and Carruthers [Helgerson, A.L., Carruthers, A., (1987)J. Biol. Chem. 262:5464–5475] to displace cytochalasin B (CB), the specificd-glucose transport inhibitor, from its binding site on the inside face of the glucose transport protein, and we showed that these procedures modified tryptophan fluorescence. Addition of 75mm maltose, a nontransportable disaccharide which also displaces CB, caused a timedependent biphasic enhancement of tryptophan fluorescence in fresh red cells, which was modulated by the specific anion exchange inhibitor, DBDS (4,4′-dibenzamido-2,2′-stilbene disulfonate). In a study of nine additional disaccharides, we found that both biphasic kinetics and DBDS effects depended upon specific disaccharide conformation, indicating that these two effects could be attributed to a site sensitive to sugar conformation. Long term (800 sec) experiments revealed that maltose binding (±DBDS) caused a sustained damped anharmonic oscillation extending over the entire 800 sec observation period. Mathematical analysis of the temperature dependence of these oscillations showed that 2 μm DBDS increased the damping term activation energy, 9.5±2.8 kcal mol−1 deg−1, by a factor of four to 39.7±5.1 kcal mol−1 deg−1, providing strong support for the view that signalling between the glucose transport protein and band 3 goes in both directions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01870403

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Interaction among anion, cation and glucose transport proteins in the human red cell (1989)

Janoshazi, Agnes ; Solomon, A. K.

Springer

The journal of membrane biology 112 (1989), S. 25-37

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ISSN: 1432-1424

Keywords: red cell ; Na+,K+-ATPase ; band 3 ; anion exchange protein ; glucose transport protein ; stilbene anion exchange inhibitors ; DBDS

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The time course of binding of the fluorescent stilbene anion exchange inhibitor, DBDS (4,4′-dibenzamido-2,2′-stilbene disulfonate), to band 3 can be measured by the stopped-flow method. We have previously used the reaction time constant, τDBDS, to obtain the kinetic constants for binding and, thus, to report on the conformational state of the band 3 binding site. To validate the method, we have now shown that the ID50 (0.3±0.1 μm) for H2-DIDS (4,4′-diisothiocyano-2,2′-dihydrostilbene disulfonate) inhibition of τDBDS is virtually the same as the ID50 (0.47±0.04 μm) for H2-DIDS inhibition of red cell Cl− flux, thus relating τDBDS directly to band 3 anion exchange. The specific glucose transport inhibitor, cytochalasin B, causes significant changes in τDBDS, which can be reversed with intracellular, but not extracellular,d-glucose. ID50 for cytochalasin B modulation of τDBDS is 0.1±0.2 μm in good agreement withK D =0.06±0.005 μm for cytochalasin B binding to the glucose transport protein. These experiments suggest that the glucose transport protein is either adjacent to band 3, or linked to it through a mechanism, which can transmit conformational information. Ouabain (0.1 μm), the specific inhibitor of red cell Na+,K+-ATPase, increases red cell Cl− exchange flux in red cells by a factor of about two. This interaction indicates that the Na+,K+-ATPase, like the glucose transport protein, is either in contact with, or closely linked to, band 3. These results would be consistent with a transport proteincomplex, centered on band 3, and responsible for the entire transport process, not only the provision of metabolic energy, but also the actual carriage of the cations and anions themselves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871161

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Initial steps of αand β-d-glucose binding to intact red cell membrane (1993)

Janoshazi, Agnes ; Solomon, A. K.

Springer

The journal of membrane biology 132 (1993), S. 167-178

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ISSN: 1432-1424

Keywords: red cell ; glucose transport protein ; GLUT1 ; kinetics ; rapid reactions ; tryptophan

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The kinetics of the initial phases of d-glucose binding to the glucose transport protein (GLUT1) of the human red cell can be followed by stopped-flow measurements of the time course of tryptophan (trp) fluorescence enhancement. A number of control experiments have shown that the trp fluorescence kinetics are the result of conformational changes in GLUT1. One shows that nontransportable l-glucose has no kinetic response, in contrast to d-glucose kinetics. Other controls show that d-glucose binding is inhibited by cytochalasin B and by extracellular d-maltose. A typical time course for a transportable sugar, such as d-glucose, consists of a zero-time displacement, too fast for us to measure, followed by three rapid reactions whose exponential time courses have rate constants of0.5–100 sec+−1 at 20°C. It is suggested that the zero-time displacement represents the initial bimolecular ligand/GLUT1 association. Exponential 1 appears to be located at, or near, the external membrane face where it is involved in discriminating among the sugars. Exponential 3 is apparently controlled by events at the cytosolic face. Trp kinetics distinguish the K d of the epimer, d-galactose, from the K dfor d-glucose, with results in agreement with determinations by other methods. Trp kinetics distinguish between the binding of the α- and β-d-glucose anomers. The exponential 1 activation energy of the β-anomer, 13.6 ± 1.4 kcal mol+−1, is less than that of α-d-glucose, 18.4 ± 0.8 kcal mol+−1, and the two Arrhenius lines cross at ≈23.5°C. The temperature dependence of the kinetic response following α-d-glucose binding illustrates the interplay among the exponentials and the increasing dominance of exponential 2 as the temperature increases from 22.3 to 36.6°C. The existence of these interrelations means that previously acceptable approximations in simplified reaction schemes for sugar transport will now have to be justified on a point-to-point basis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00239006

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Interaction between red cell membrane band 3 and cytosolic carbonic anhydrase (1993)

Kifor, Gabriela ; Toon, Michael R. ; Janoshazi, Agnes ; [et al.]

Springer

The journal of membrane biology 134 (1993), S. 169-179

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ISSN: 1432-1424

Keywords: Red cell ; Carbonic anhydrase ; Band 3 ; Anion exchange protein ; Dansylsulfonamide ; Anion transport inhibitors

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract We have previously proposed that a membrane transport complex, centered on the human red cell anion transport protein, band 3, links the transport of anions, cations and glucose. Since band 3 is specialized for HCO 3 − /Cl− exchange, we thought there might also be a linkage with carbonic anhydrase (CA) which hydrates CO2 to HCO 3 − . CA is a cytosolic enzyme which is not present in the red cell membrane. The rate of reaction of CA with the fluorescent inhibitor, dansylsulfonamide (DNSA) can be measured by stopped-flow spectrofluorimetry and used to characterize the normal CA configuration. If a perturbation applied to a membrane protein alters DNSA/CA binding kinetics, we conclude that the perturbation has changed the CA configuration by either direct or allosteric means. Our experiments show that covalent reaction of the specific stilbene anion exchange inhibitor, DIDS, with the red cell membrane, significantly alters DNSA/CA binding kinetics. Another specific anion exchange inhibitor, benzene sulfonate (BSate), which has been shown to bind to the DIDS site causes a larger change in DNSA/CA binding kinetics; DIDS reverses the BSate effect. These experiments show that there is a linkage between band 3 and CA, consistent with CA interaction with the cytosolic pole of band 3. This work was supported in part by a grant-in-aid from the American Heart Association, by the Squibb Institute for Medical Research and by The Council for Tobacco Research.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00234498

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