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Neurobiology of TRP Channels

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advanced TRP channel neurobiology
Alejandro Lpez-Requena
Alexander Dietrich
Alexander Schurger
Andre Marx
Ankyrin Repeat Domain
Baruch Minke
Ben Katz
Brett Boonen
Carlene Moore
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cation channels
Celine Emmanuelle Riera
cellular signal transduction
DRG Neuron
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Helen Wallace
Hisashi Shirakawa
Hongzhen Hu
Ida Bjorkgren
Ilka Mathar
ion channel physiology
ion channels
Jialie Luo
Jing Feng
Juan E. Camacho Londono
Karel Talavera
Koenraad Philippaert
Laura Van Gerven
Len D. Islas
Lorenz Mittermeier
Lucas Bacmeister
Mack Madison
Marc Freichel
Mario G. Rosasco
Michael Berlin
molecular pain mechanisms
neurobiology
organismal physiology
pancreatic beta-cell
pathophysiological processes
pathophysiology of sensory systems
Peter W. Hellings
Polina V. Lishko
Pu Yang
Ranier Ranier
Rebekka Medert
Ricardo Gonzz-Ramirez
Richard Payne
Rudi Vennekens
Sara L. Morales-Lro
Sebastian Kubanek
Sebastian Segin
Seishiro Sawamura
sensory neuron signaling
sensory physiology
sensory systems
Shana Geffeney
Sharona E. Gordon
Shuji Kaneko
Simon Sidney A.
Susanne Fiedler
Takayuki Nakagawa
thermosensation research
Thomas Gudermann
transient receptors
Trp Channel
TRP channels
Trp Domain
TRP ion channels
TRPA1
TRPA1 Activation
TRPA1 Agonist
TRPC1 Channel
TRPC3 Channel
TRPC6
TRPC6 Expression
TRPM2 Channel
TRPM6 Expression
TRPM8
TRPV Channel
TRPV1 Activation
TRPV1 Agonist
TRPV1 Antagonist
TRPV1 Channel
TRPV1 Expression
TRPV1 Inhibition
TRPV1 Ion Channel
TRPV1 Knockout Mouse
TRPV2 Activation
TRPV3 Mutation
Vladimir Chubanov
Wiebke Frede
Wolfgang B. Liedtke
Yasuo Mori
Yeranddy A. Alpizar
Yong Chen

Product details

  • ISBN 9781498755245
  • Weight: 1152g
  • Dimensions: 178 x 254mm
  • Publication Date: 07 Sep 2017
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: US
  • Product Form: Hardback
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Description

During the last two decades, there has been an explosion of research pertaining to the molecular mechanisms that allow for organisms to detect different stimuli that is an essential feature for their survival. Among these mechanisms, living beings need to be able to respond to different temperatures as well as chemical and physical stimuli.

Thermally activated ion channels were proposed to be present in sensory neurons in the 1980s, but it was not until 1997 that a heat- and capsaicin- activated ion channel, TRPV1, was cloned and its function described in detail. This groundbreaking discovery led to the identification and characterization of several more proteins of the family of Transient Receptor Potential (TRP) ion channels.

Intensive research has provided us with the atomic structures of some of these proteins, as well as understanding of their physiological roles, both in normal and pathological conditions. With chapters contributed by renowned experts in the field, Neurobiology of TRP Channels contains a state- of- the- art overview of our knowledge of TRP channels, ranging from structure to their functions in organismal physiology.

Features:

• Contains chapters on the roles of several TRP ion channels with a diversity of physiological functions, providing a complete picture of the widespread importance of these proteins.

• Presents an overview of the structure of TRP channels, including the roles of these proteins in different physiological processes.

• Discusses the roles of TRP channels in pathophysiological processes, further highlighting their importance.

• Features several full color illustrations to allow the reader better comprehension of TRP channels.

A volume in the Frontiers in Neuroscience series
About

Tamara Rosenbaum obtained her B.Sc in Biology and then her Doctorate Sciences from the National Autonomous University of Mexico (UNAM). After her postdoctoral training in the laboratory of Dr. Sharona Gordon at the University of Washington, she established her own lab in the Instituto de Fisiología Celular at UNAM in late 2004. Since then she has worked on the structure-function relationships of the TRPV1 channel.