TY  - GEN
AU  - Dietrich,Alexander
TI  - TRP Channels in Health and Disease
SN  - books978-3-03921-083-1
PY  - 2019///
PB  - MDPI - Multidisciplinary Digital Publishing Institute
KW  - n/a
KW  - transient receptor potential channels
KW  - photochromic ligands
KW  - elementary immunology
KW  - Purkinje cell
KW  - EPSC
KW  - substance P
KW  - chemicals
KW  - organ toxicity
KW  - lymphocytes
KW  - HSP70
KW  - physiology
KW  - bioavailable
KW  - inflammatory bowel disease
KW  - platelets
KW  - pollutants
KW  - yeast
KW  - regulatory T cells
KW  - kinase
KW  - Saccharomyces cerevisiae
KW  - manganese
KW  - cerebellum
KW  - TRP channel
KW  - NHERF
KW  - inflammation
KW  - nanoHPLC-ESI MS/MS
KW  - TRPM7
KW  - chemical probes
KW  - TRPM8
KW  - dorsal column nuclei
KW  - TRPV2
KW  - TRPV3
KW  - calcitonin gene-related peptide
KW  - TRPV1
KW  - ion channels
KW  - transient receptor potential
KW  - 2D gel electrophoresis
KW  - MALDI-TOF MS(/MS)
KW  - TRPV4
KW  - overproduction
KW  - sulfur mustard
KW  - oxidative stress
KW  - graft versus host disease
KW  - menthol
KW  - topical
KW  - chemosensor
KW  - AP18
KW  - calcium signalling
KW  - mucosal epithelium
KW  - cuneate nucleus
KW  - production platform
KW  - TRPC channels
KW  - ulcerative colitis
KW  - channel structure
KW  - xerostomia
KW  - neutrophils
KW  - cardiovascular system
KW  - TRPC5
KW  - TRPC6
KW  - TRPC3
KW  - TRPC4
KW  - calcium signaling
KW  - protein purification
KW  - adipose tissue
KW  - transient receptor potential (TRP) channels
KW  - sodium
KW  - TH17
KW  - diacylglycerol
KW  - hypersensitivity
KW  - TRPY1
KW  - GABAB
KW  - HEK293
KW  - thrombosis
KW  - ion channel
KW  - TRPC
KW  - pathophysiology
KW  - SMAD
KW  - toxicology
KW  - endothelium
KW  - calcium
KW  - proteomics
KW  - TRPA1
KW  - salivary glands
KW  - TRP channels
KW  - lipid mediators
KW  - sensors
KW  - radiation
KW  - TRPM4 channel
KW  - human medulla oblongata
KW  - mGluR1
KW  - small molecules
KW  - TRPC3 pharmacology
N1  - Open Access
N2  - Almost 25 years ago, the first mammalian transient receptor potential (TRP) channel was cloned and published. TRP channels now represent an extended family of 28 members fulfilling multiple roles in the living organism. Identified functions include control of body temperature, transmitter release, mineral homeostasis, chemical sensing, and survival mechanisms in a challenging environment. The TRP channel superfamily covers six families: TRPC with C for “canonical”, TRPA with A for “ankyrin”, TRPM with M for “melastatin”, TRPML with ML for “mucolipidin”, TRPP with P for “polycystin”, and TRPV with V for “vanilloid”. Over the last few years, new findings on TRP channels have confirmed their exceptional function as cellular sensors and effectors. This Special Book features a collection of 8 reviews and 7 original articles published in “Cells” summarizing the current state-of-the-art on TRP channel research, with a main focus on TRP channel activation, their physiological and pathophysiological function, and their roles as pharmacological targets for future therapeutic options
UR  - https://mdpi.com/books/pdfview/book/1388
UR  - https://directory.doabooks.org/handle/20.500.12854/61371
ER  -