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3.
Cell Mol Biol (Noisy-le-grand) ; 53 Suppl: OL928-9, 2007 Jun 03.
Article in English | MEDLINE | ID: mdl-17666163

ABSTRACT

Our respected colleague and friend, Dr. Julius C. Allen, passed away on Thursday, February 10, 2005. Known to his friends and family as "Julie," Dr. Allen was an internationally-recognized investigator in cardiovascular science and an early contributor to the biochemistry of the Na,K-pump. His work was inevitably multi-disciplinary, with contributions to biochemistry, physiology, and pharmacology. He helped develop and later directed the Graduate Program for Cardiovascular Sciences at Baylor College of Medicine. Beyond his science, Dr. Allen was a strong advocate of progressive social and political reform, as well as a passionate sports enthusiast. With his sense of humor, it was impossible not to have a good time when he was around. His friendship, wise advice, and experience will be sorely missed.


Subject(s)
Education, Medical/history , Sodium-Potassium-Exchanging ATPase/chemistry , Sodium-Potassium-Exchanging ATPase/history , History, 20th Century , History, 21st Century , United States
4.
Biochim Biophys Acta ; 1566(1-2): 2-15, 2002 Nov 13.
Article in English | MEDLINE | ID: mdl-12421533

ABSTRACT

As a zoologist, Hans H. Ussing began his scientific career by studying the marine plankton fauna in East Greenland. This brought him in contact with August Krogh at the time George de Hevesy, Niels Bohr and Krogh planned the application of artificial radioactive isotopes for studying the dynamic state of the living organism. Following his studies of protein turnover of body tissues with deuterium-labeled amino acids, Ussing initiated a new era of studies of transport across epithelial membranes. Theoretical difficulties in the interpretation of tracer fluxes resulted in novel concepts such as exchange diffusion, unidirectional fluxes, flux-ratio equation, and solvent drag. Combining methods of biophysics with radioactive isotope technology, Ussing introduced and defined the phrases 'short-circuit current', 'active transport pathway' and 'shunt pathway', and with frog skin as experimental model, he unambiguously proved active transport of sodium ions. Conceived in his electric circuit analogue of frog skin, Ussing associated transepithelial ion fluxes with the hitherto puzzling 'bioelectric potentials'. The two-membrane hypothesis of frog skin initiated the study of epithelial transport at the cellular level and raised new questions about cellular mechanisms of actions of hormones and drugs. His theoretical treatment of osmotic water fluxes versus fluxes of deuterium labeled water resulted in the discovery of epithelial water channels. His discovery of paracellular transport in frog skin bridged studies of high and low resistance epithelia and generalized the description of epithelial transport. He devoted the last decade of his scientific life to solute-coupled water transport. He introduced the sodium recirculation theory of isotonic transport, and in an experimental study, he obtained the evidence for recirculation of sodium ions in toad small intestine. In penetrating analyses of essential aspects of epithelial membrane transport, Ussing provided insights of general applicability and powerful analytical methods for the study of intestine, kidney, respiratory epithelia, and exocrine glands-of equal importance to biology and medicine.


Subject(s)
Biochemistry/history , Sodium-Potassium-Exchanging ATPase/history , Animals , Anura , Biological Transport, Active , Denmark , Epithelium/chemistry , Epithelium/physiology , History, 20th Century , Membrane Potentials , Models, Animal , Skin/chemistry , Skin/metabolism , Sodium-Potassium-Exchanging ATPase/metabolism , Water/metabolism , Zoology/history
5.
Annu Rev Physiol ; 64: 1-18, 2002.
Article in English | MEDLINE | ID: mdl-11826261

ABSTRACT

This article gives a history of the evidence (a) that animal cell membranes contain pumps that expel sodium ions in exchange for potassium ions; (b) that the pump derives energy from the hydrolysis of ATP; (c) that it is thermodynamically reversible-artificially steep transmembrane ion gradients make it run backward synthesizing ATP from ADP and orthophosphate; (d) that its mechanism is a ping-pong one, in which phosphorylation of the pump by ATP is associated with an efflux of three sodium ions, and hydrolysis of the phosphoenzyme is associated with an influx of two potassium ions; (e) that each half of the working cycle involves both the transfer of a phosphate group and a conformational change-the phosphate transfer being associated with the occlusion of ions bound at one surface and the conformational change releasing the occluded ions at the opposite surface.


Subject(s)
Physiology/history , Sodium-Potassium-Exchanging ATPase/history , Animals , History, 20th Century , United Kingdom
6.
Membr Cell Biol ; 13(6): 715-9, 2000.
Article in English | MEDLINE | ID: mdl-10963431

ABSTRACT

Nobel Prize of 1997 in chemistry was awarded to three scientists fruitfully working in bioenergetics. J. Walker and P. Boyer were awarded the Prize for studies of structure and mechanism of functioning of the H+-transporting (mitochondrial) adenosine triphosphatase. The decision of the Nobel Committee was not unexpected, since these works were very impressive. Special attention was drawn to the fact that the investigations of Walker, the recognized specialist in protein structure, made possible the experimental confirmation of regularities in the mitochondrial ATPase functioning discovered by P. Boyer. The third member of this triumph of bioenergetics is Jens-Christian Skou who described the Na+,K+-activated ATPase in 1957 and then characterized the enzyme properties in detail. Forty years of his scientific biography were devoted to this enzyme. Along with accumulation of scientific knowledge, that constituted the fundamental contribution to bioenergetics (J.Skou is rightfully considered as one of founders of this branch in the present-day biology), the world-wide known school of scientists was established, and starting from 1974, members of this school organize regular conferences on this enzyme.


Subject(s)
Biochemistry/history , Sodium-Potassium-Exchanging ATPase/history , Denmark , Energy Metabolism , History, 20th Century , Ion Transport , Nobel Prize
8.
Biosci Rep ; 18(4): 155-69, 1998 Aug.
Article in English | MEDLINE | ID: mdl-9877230

ABSTRACT

The identification of the sodium potassium pump as a Na+, K+ -ATPase is described.


Subject(s)
Sodium-Potassium-Exchanging ATPase/history , Adenosine Triphosphate/physiology , Animals , Biological Transport, Active , Denmark , Energy Transfer/physiology , History, 20th Century , Humans , Models, Chemical
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