Medical Physiology: A Cellular and Molecular ApproachMedical Physiology is a brand new comprehensive textbook of human physiology, superbly illustrated and designed for modern medical school courses in physiology. It is the most current text on the market, with a strong molecular and cellular approach, firmly relating the molecular and cellular biological underpinnings of physiology to the study of human physiology and disease. This is an edited book with contributions from leading physiologists, but the text has been thoroughly edited to produce a readable and student-friendly text.
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Page 112
... example , after IL - 6 binds to hepato- cytes , the STAT pathway is responsible for producing acute phase proteins . During inflammation , these acute phase proteins function to limit tissue damage by inhibit- ing the proteases that ...
... example , after IL - 6 binds to hepato- cytes , the STAT pathway is responsible for producing acute phase proteins . During inflammation , these acute phase proteins function to limit tissue damage by inhibit- ing the proteases that ...
Page 141
... example , cells can generate mRNA encoding 3- hydroxy - 3 - methylglutaryl - coenzyme A ( HMG - CoA ) reduc- tase ( p . 998 ) with different 5 ' untranslated regions by splicing from multiple donor sites for the first intron to a single ...
... example , cells can generate mRNA encoding 3- hydroxy - 3 - methylglutaryl - coenzyme A ( HMG - CoA ) reduc- tase ( p . 998 ) with different 5 ' untranslated regions by splicing from multiple donor sites for the first intron to a single ...
Page 163
... example , Na + channels , Ca2 + chan- nels , K + channels , and Cl- channels . Another major electrophysiological characteristic of channels is their voltage dependence . In electrically ex- citable cells ( e.g. , nerve , skeletal ...
... example , Na + channels , Ca2 + chan- nels , K + channels , and Cl- channels . Another major electrophysiological characteristic of channels is their voltage dependence . In electrically ex- citable cells ( e.g. , nerve , skeletal ...
Contents
Introduction | 1 |
Physiology of Membranes | 50 |
Signal Transduction | 87 |
Copyright | |
54 other sections not shown
Common terms and phrases
acid action potential activity alveoli approximately arterial axon binding blood flow body brain Ca2+ called capillary cardiac causes cells changes channels close complex concentration conduction contains contraction curve cytoplasm decrease depends depolarization diffusion direction discussed effect electrical Equation example expression extracellular factors fibers FIGURE fluid force function gene glucose heart important increase initial interact leads length levels lungs measure mechanisms membrane molecules motor move muscle myosin nerve neurons normal occurs organs output pathway physiology plasma positive postsynaptic pressure produce proteins pump receptors region regulation relatively release resistance response result segment sensory signal single skeletal muscle solutes space spinal stimulation structure subunits surface sympathetic synapses Table tension terminal tion tissue transcription transport types ventricle ventricular vesicles vessels voltage volume wall