The biomolecular basis underlying essential hypertension and end organ damage associated with hypertension is characterized as polygenic diseases with complexities such as "environment gene" and "gene-gene" interactions. Despite intensive research in this field, this molecular book is aimed at providing the state-of-the-art reviews which define how the biologic systems sense changes in environment, alter their activities or function, and cross talk with other neurohormonal systems to modulate cardiovascular/renal function and blood pressure. This title will attract scientists and investigators in both academic and industrial fields, and clinicians. …mehr
The biomolecular basis underlying essential hypertension and end organ damage associated with hypertension is characterized as polygenic diseases with complexities such as "environment gene" and "gene-gene" interactions. Despite intensive research in this field, this molecular book is aimed at providing the state-of-the-art reviews which define how the biologic systems sense changes in environment, alter their activities or function, and cross talk with other neurohormonal systems to modulate cardiovascular/renal function and blood pressure. This title will attract scientists and investigators in both academic and industrial fields, and clinicians.
Artikelnr. des Verlages: 11357728, 978-0-387-47528-8
2007
Seitenzahl: 228
Erscheinungstermin: 15. Mai 2007
Englisch
Abmessung: 241mm x 160mm x 17mm
Gewicht: 512g
ISBN-13: 9780387475288
ISBN-10: 0387475281
Artikelnr.: 20946283
Autorenporträt
D.H. Wang, Michigan State University, East Lansing, MI, USA
Inhaltsangabe
The DEG/ENaC Family.- The Role of DEG/ENaC Ion Channels in Sensory Mechanotransduction.- ASICs Function as Cardiac Lactic Acid Sensors During Myocardial Ischemia.- Molecular Components of Neural Sensory Transduction.- The TRP Family.- TRP Channels as Molecular Sensors of Physical Stimuli in the Cardiovascular System.- TRPV1 in Central Cardiovascular Control.- TRPV1 as a Molecular Transducer for Salt and Water Homeostasis.- Functional Interaction Between ATP and TRPV1 Receptors.- TRPV4 and Hypotonic Stress.- Other Ion Channels and Biosensors.- Ion Channels in Shear Stress Sensing in Vascular Endothelium.- Redox Signaling in Oxygen Sensing by Vessels.- Impedance Spectroscopy and Quartz Crystal Microbalance.
The DEG/ENaC Family.- The Role of DEG/ENaC Ion Channels in Sensory Mechanotransduction.- ASICs Function as Cardiac Lactic Acid Sensors During Myocardial Ischemia.- Molecular Components of Neural Sensory Transduction.- The TRP Family.- TRP Channels as Molecular Sensors of Physical Stimuli in the Cardiovascular System.- TRPV1 in Central Cardiovascular Control.- TRPV1 as a Molecular Transducer for Salt and Water Homeostasis.- Functional Interaction Between ATP and TRPV1 Receptors.- TRPV4 and Hypotonic Stress.- Other Ion Channels and Biosensors.- Ion Channels in Shear Stress Sensing in Vascular Endothelium.- Redox Signaling in Oxygen Sensing by Vessels.- Impedance Spectroscopy and Quartz Crystal Microbalance.
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