1989
DOI: 10.1007/bf01870855
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Role of substrate binding forces in exchange-only transport systems: II. Implications for the mechanism of the anion exchanger of red cells

Abstract: The transition-state theory of exchange-only membrane transport is applied to experimental results in the literature on the anion exchanger of red cells. Two central features of the system are in accord with the theory: (i) forming the transition state in translocation involves a carrier conformational change; (ii) substrate specificity is expressed in transport rates rather than affinities. The expression of specificity is consistent with other evidence for a conformational intermediate (not the transition st… Show more

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Cited by 34 publications
(14 citation statements)
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“…These conformational changes induced by bulky substrate analogs such as PLP, might be of relevance for understanding the accommodation of a large variety of anions by the transport site and the dynamics of translocation of the transportable anions. The conformational flexibility associated with substrateinduced changes in the transport domain of AEP, might be an intrinsic property of the anion exchange mechanism, which is consistent with many features of the anion exchange system and with the recently proposed (transition-state) theory which calls for a carrier conformational change in the process of substrate-binding stabilization [28,29].…”
Section: Discussionsupporting
confidence: 62%
“…These conformational changes induced by bulky substrate analogs such as PLP, might be of relevance for understanding the accommodation of a large variety of anions by the transport site and the dynamics of translocation of the transportable anions. The conformational flexibility associated with substrateinduced changes in the transport domain of AEP, might be an intrinsic property of the anion exchange mechanism, which is consistent with many features of the anion exchange system and with the recently proposed (transition-state) theory which calls for a carrier conformational change in the process of substrate-binding stabilization [28,29].…”
Section: Discussionsupporting
confidence: 62%
“…Size alone cannot account for the observed differences in maximum transport rates, as the distribution in maximal transport rates is not well correlated with molecular geometry. These observations led Krupka to propose that stabilization of the transition state in carrier reorientation is the physical basis for anion selectivity (Krupka, 1989). In this context, our data suggest that the WRK glutamate contributes critically to this stabilization.…”
Section: A Model For the Distinct Roles Of A Conserved Glutamate Inmentioning
confidence: 61%
“…According to the working model of band 3 proposed by Krupka [37,38], the altered function of the anion transporter may be interpreted as a decrease in the activation energy or as a structural change in the protein during the translocation step, or as an increase in stability of the transition state intermediate. It is possible that band 4.2, through its interaction with the band 3 cytoplasmatic domain, is keeping the transmembrane domain in a particular conformation that is not the most favorable for maximal anion transport [37,38]. A similar mechanism of modulation occurs when hemoglobin binds to the cytoplasmatic domain of band 3: binding of hemoglobin determines kinetic changes in anion transport activity, suggesting that conformational changes in the cytoplasmatic domain influence the transmembrane domain and modulate the function of the anion transporter.…”
Section: Discussionmentioning
confidence: 99%