By Nord F F (ed)
Advances in Enzymology and similar components of Molecular Biology is a seminal sequence within the box of biochemistry, delivering researchers entry to authoritative stories of the newest discoveries in all parts of enzymology and molecular biology. those landmark volumes date again to 1941, delivering an unequalled view of the ancient improvement of enzymology. The sequence bargains researchers the most recent realizing of enzymes, their mechanisms, reactions and evolution, roles in advanced organic strategy, and their software in either the laboratory and undefined. each one quantity within the sequence positive aspects contributions via best pioneers and investigators within the box from all over the world. All articles are conscientiously edited to make sure thoroughness, caliber, and clarity.
With its wide variety of subject matters and lengthy historic pedigree, Advances in Enzymology and comparable parts of Molecular Biology can be utilized not just by way of scholars and researchers in molecular biology, biochemistry, and enzymology, but in addition by means of any scientist drawn to the invention of an enzyme, its homes, and its purposes.
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Advances in Enzymology and similar components of Molecular Biology is a seminal sequence within the box of biochemistry, providing researchers entry to authoritative reports of the newest discoveries in all components of enzymology and molecular biology. those landmark volumes date again to 1941, supplying an unmatched view of the historic improvement of enzymology.
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Additional info for Advances in Enzymology and Related Areas of Molecular Biology, Volume 29
1. The H+-Coupled Translocators of the V. Primary Translocation. . . . . . . . . . . . . . . . . . . . A. The Na+/K+ Antiporter-ATPase . B. The H+ Translocator-ATPaae.. . . . . . . . . . . . . . . C. The H+ Translocator Oxidoreductases. . . . . . . . . . . . VI. The Difference between Primary and Secondary Translocation and the “Driving” of Transport by Metabolism. . . . . . . . . . ,. . . . . . .. . . . ... References. . . .
C. Sym-Coupled Solute Translocation: Symport. . 1. The Na+-Glucose Symporter. . . . . . . . . . . . . . 2. Alternative Mechanisms of Coupling in a Simple Symport .................................... D. Proton-Coupled Solute Translocation. . 1. The H+-Coupled Translocators of the V. Primary Translocation. . . . . . . . . . . . . . . . . . . . A. The Na+/K+ Antiporter-ATPase . B. The H+ Translocator-ATPaae.. . . . . . . . . . . . . . .
1M for D-arabinose (53). Since V,,, is independent of the substrate, it seems that either the frictional coefficient for the translocation of the carrier-substrate complex is virtually independent of the substrate, or the translocation of the carrier-substrate complex is not the rate-limiting reaction. There is disagreement a t present as to whether the frictional coefficient for the movement of the unoccupied carrier is equal to that of the occupied carrier (53-59). The “dimerizer” system described by Stein (60,61) for sugar transport in erythrocytes has been shown to be without experimental foundation (53,62).