The Arterial ChemoreceptorsYoshiaki Hayashida, Constancio Gonzalez, Hisatake Kondo This book represents an updated review of the physiology of the carotid body chemoreceptors. It contains results in the topics at the frontiers of future developments in O2-sensing in chemoreceptor cells. Additionally, this volume provides data from studies carried out in other O2-sensing tissues including pulmonary vasculature and erythropoietin producing cells. It is a prime source of information and a guideline for arterial chemoreception researchers. |
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Contents
A Tribute to Professor Autar Singh Paintal 1 Ravi K and Vijayan V | 8 |
Neuroglobin a New Oxygen Binding Protein is Present in | 15 |
Molecular Biology of Chemoreceptors | 35 |
Modulation of Gene Expression in Subfamilies of TASK | 37 |
Morphological Changes in the Rat Carotid Body | 48 |
SNitrosoglutathione SNOG Accumulates Hypoxia Inducible | 63 |
Bodies during the Hibernation Season 73 Fukuhara K Wu Y Nanri H Ikeda M Hayashida Y | 78 |
Developmental Aspects of Chemoreceptors | 93 |
Biophysics of Ionic Channels in Chemoreceptors | 185 |
Does AMPactivated Protein Kinase Couple Hypoxic Inhibition | 191 |
Mitochondrial ROS Production Initiates Aȕ140Mediated | 197 |
Differential Expression of Oxygen Sensitivity | 209 |
An Overview on the Homeostasis of Ca2+ in Chemoreceptor | 215 |
Central Integration and Systemic Effects of Chemoreflex | 223 |
The CellVessel Architecture Model for the Central Respiratory | 233 |
Loop Gain of Respiratory Control upon Reduced Activity | 239 |
Genetic Regulation of Chemoreceptor Development in DBA2J | 98 |
Genetic Influence on Carotid Body Structure in DBA2J | 105 |
Carotid Body Volume in ThreeWeeksOld Rats Having | 115 |
A Comparative Study of the Hypoxic Secretory Response | 131 |
Functional Proteomics | 136 |
Does AMPactivated Protein Kinase Couple Inhibition | 147 |
Function of NADPH Oxidase and Signaling by Reactive | 155 |
from the Rat 131 Rico A J Fernandez S P PrietoLloret J GomezNio A | 160 |
Hypoxemia and Attenuated Hypoxic Ventilatory Responses | 161 |
Regulation of a TASKlike Potassium Channel | 167 |
Accumulation of Radiolabeled NOleoylDopamine | 173 |
Profiles for ATP and Adenosine Release at the Carotid Body | 179 |
Peripheral Chemoreceptor Activity on ExerciseInduced | 251 |
Stimulus Interaction between Hypoxia and Hypercapnia | 263 |
Gene Expression and Signaling Pathways by Extracellular | 267 |
Mechanisms of Chemoreceptions | 281 |
Pulmonary Nociceptors are Potentially Connected with | 301 |
VoltageDependent K Channels in Mouse Glomus Cells | 319 |
Modification of the Glutathione Redox Environment | 325 |
Carotid Body Transmitters Actions on Rabbit Petrosal | 331 |
Potassium Channels in the Central Control of Breathing 339 Oyamada Y Yamaguchi K Murai M Ishizaka A Okada | 345 |
Concluding Remarks | 351 |
361 | |
Other editions - View all
The Arterial Chemoreceptors Yoshiaki Hayashida,Constancio Gonzalez,Hisatake Kondo Limited preview - 2006 |
The Arterial Chemoreceptors Yoshiaki Hayashida,Constancio Gonzalez,Hisatake Kondo No preview available - 2016 |
Common terms and phrases
A/J mice acute hypoxia adenosine afferents airway AMPK animals antibody Arterial Chemoreceptors Biol BK channels blood brain C-fiber Ca2+ CaM kinase carotid body carotid body chemoreceptors catecholamine CBCC cDNA cellular channel activity chemoreceptor cells chemosensitivity chemosensory chromaffin cells chronic decrease depolarization endothelial cells expression extracellular fibers Figure fluorescence function ganglion gene glomus cells glucose Gonzalez Hayashida heme hibernation hypercapnia hypercapnic hyperoxia hypoxia hypoxia-inducible hypoxia-inducible factor immunoreactivity increase incubated induced inhibitor innervation K+ channels K+ current Kameda Kusakabe levels mechanism membrane metabolic methazolamide mitochondrial modulation mRNA NADPH neonatal nerve neuroepithelial bodies neurons normoxia normoxic control O2-sensitive oxide Paintal peripheral petrosal ganglion postnatal pulmonary artery rabbit rat carotid body rat CB ratio receptors release Respir respiratory response to hypoxia role rotenone sensitivity sensory significantly smooth muscle SNOG stimulation subunits TASK channels tissue type I cells vascular ventilation ventilatory response