Molecular Mechanisms for Sensory Signals : : Recognition and Transformation /

Molecular Mechanisms for Sensory Signals : : Recognition and Transformation / / Edward M. Kosower.

Pursuing the questions of how we learn and how memory is made, Edward Kosower introduces a novel and rich approach to connecting molecular properties with the biological properties that enable us to write and read, to create culture and ethics, and to think. Here he examines what happens within a si...

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Superior document:Title is part of eBook package: De Gruyter Princeton University Press eBook-Package Archive 1927-1999
VerfasserIn:
Kosower, Edward M.,
Place / Publishing House:Princeton, NJ : : Princeton University Press, , [2017]
©1991
Year of Publication:2017
Language:English
Series:Princeton Legacy Library ; 5022
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Physical Description:1 online resource (458 p.)
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(OCoLC)1004881396
collection bib_alma
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spelling Kosower, Edward M., author. aut http://id.loc.gov/vocabulary/relators/aut
Molecular Mechanisms for Sensory Signals : Recognition and Transformation / Edward M. Kosower.
Princeton, NJ : Princeton University Press, [2017]
©1991
1 online resource (458 p.)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
text file PDF rda
Princeton Legacy Library ; 5022
Frontmatter -- Contents -- List of Illustrations -- List of Tables -- Preface -- 1. Hierarchies in Natural Systems -- 2. Chemotaxis -- 3. Sensory Transduction: Pheromones and Taste -- 4. Olfactory System -- 5. Visual System -- 6. The Nicotinic Acetylcholine Receptor -- 7. Molecular Models for Sodium Channels -- 8. Receptor and Channel Superfamilies -- 9. Learning and Memory -- References -- Author Index -- Index
restricted access http://purl.org/coar/access_right/c_16ec online access with authorization star
Pursuing the questions of how we learn and how memory is made, Edward Kosower introduces a novel and rich approach to connecting molecular properties with the biological properties that enable us to write and read, to create culture and ethics, and to think. Here he examines what happens within a single cell in reaction to external stimuli, and shows the parallels between single cell and multicellular responses. To address the problem of "learning," Kosower explains the molecular mechanisms of responses to input from taste, olfactory, and visual receptors. He then shows how these and other processes serve as the basis for memory. This study covers such signals for the molecular process of learning as pheromones (the molecular signals mediating behavior), light (activates the G-protein receptor, rhodopsin), and acetylcholine (opens the nicotinic acetylcholine receptor). Kosower's discussion of the structure and function of these complex molecules has direct implications for such areas as molecular neurobiology, bioorganic chemistry, and drug design, in elucidating approaches to the structure of drug targets.Originally published in 1991.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Mode of access: Internet via World Wide Web.
In English.
Description based on online resource; title from PDF title page (publisher's Web site, viewed 27. Jan 2023)
Cellular signal transduction.
Molecular neurobiology.
Molecular recognition.
SCIENCE / Life Sciences / Biochemistry. bisacsh
Action potential.
Activation.
Amino acid.
Antibody.
Bilayer.
Binding protein.
Biological Assay.
Biological membrane.
Biological neural network.
Biomolecular structure.
Biosynthesis.
Catalysis.
Caudate nucleus.
Cell surface receptor.
Chemical change.
Chemical modification.
Chemical synapse.
Chemoreceptor.
Chemotaxis.
Chromatin.
Chromophore.
Conformational change.
Creatine kinase.
Demethylation.
Electron transport chain.
Enzyme.
GABA receptor.
GABAA receptor.
Ganglion cell.
Gel electrophoresis.
Gene product.
Globulin.
Glycine receptor.
Golgi apparatus.
Golgi cell.
Ion channel.
LTP induction.
Libration (molecule).
Ligand (biochemistry).
Lysine.
Lysozyme.
Mechanism of action.
Mechanoreceptor.
Membrane potential.
Methylation.
Methyltransferase.
Microvillus.
Molecular configuration.
Molecular electronic transition.
Molecular graphics.
Molecular sieve.
Molecule.
Motor neuron.
Muscarinic acetylcholine receptor.
Mutagen.
Neurofilament.
Neuroglia.
Neurokinin A.
Neuron.
Neuropeptide.
Neurotransmitter.
Nicotinic acetylcholine receptor.
Olfactory receptor neuron.
Organism.
Peptide.
Permease.
Pheromone binding protein.
Pheromone.
Phosphodiesterase.
Phosphorylation.
Physical organic chemistry.
Plasma protein binding.
Post-translational modification.
Protein methylation.
Protein phosphorylation.
Protein primary structure.
Protein structure.
Protein synthesis inhibitor.
Protein.
Proteolysis.
RNA interference.
Receptor (biochemistry).
Receptor modulator.
Receptors, Neurotransmitter.
Regulation of gene expression.
Retina.
Rhodopsin kinase.
Rhodopsin.
Sensory neuron.
Side chain.
Signal processing.
Signal transduction.
Sodium channel.
Stimulus (physiology).
Synapsin I.
Synapsis.
Synaptosome.
Teratology.
Transducin.
Transposable element.
Title is part of eBook package: De Gruyter Princeton University Press eBook-Package Archive 1927-1999 9783110442496
https://doi.org/10.1515/9781400887088
https://www.degruyter.com/isbn/9781400887088
Cover https://www.degruyter.com/document/cover/isbn/9781400887088/original
language English
format eBook
author Kosower, Edward M.,
Kosower, Edward M.,
spellingShingle Kosower, Edward M.,
Kosower, Edward M.,
Molecular Mechanisms for Sensory Signals : Recognition and Transformation /
Princeton Legacy Library ;
Frontmatter --
Contents --
List of Illustrations --
List of Tables --
Preface --
1. Hierarchies in Natural Systems --
2. Chemotaxis --
3. Sensory Transduction: Pheromones and Taste --
4. Olfactory System --
5. Visual System --
6. The Nicotinic Acetylcholine Receptor --
7. Molecular Models for Sodium Channels --
8. Receptor and Channel Superfamilies --
9. Learning and Memory --
References --
Author Index --
Index
author_facet Kosower, Edward M.,
Kosower, Edward M.,
author_variant e m k em emk
e m k em emk
author_role VerfasserIn
VerfasserIn
author_sort Kosower, Edward M.,
title Molecular Mechanisms for Sensory Signals : Recognition and Transformation /
title_sub Recognition and Transformation /
title_full Molecular Mechanisms for Sensory Signals : Recognition and Transformation / Edward M. Kosower.
title_fullStr Molecular Mechanisms for Sensory Signals : Recognition and Transformation / Edward M. Kosower.
title_full_unstemmed Molecular Mechanisms for Sensory Signals : Recognition and Transformation / Edward M. Kosower.
title_auth Molecular Mechanisms for Sensory Signals : Recognition and Transformation /
title_alt Frontmatter --
Contents --
List of Illustrations --
List of Tables --
Preface --
1. Hierarchies in Natural Systems --
2. Chemotaxis --
3. Sensory Transduction: Pheromones and Taste --
4. Olfactory System --
5. Visual System --
6. The Nicotinic Acetylcholine Receptor --
7. Molecular Models for Sodium Channels --
8. Receptor and Channel Superfamilies --
9. Learning and Memory --
References --
Author Index --
Index
title_new Molecular Mechanisms for Sensory Signals :
title_sort molecular mechanisms for sensory signals : recognition and transformation /
series Princeton Legacy Library ;
series2 Princeton Legacy Library ;
publisher Princeton University Press,
publishDate 2017
physical 1 online resource (458 p.)
contents Frontmatter --
Contents --
List of Illustrations --
List of Tables --
Preface --
1. Hierarchies in Natural Systems --
2. Chemotaxis --
3. Sensory Transduction: Pheromones and Taste --
4. Olfactory System --
5. Visual System --
6. The Nicotinic Acetylcholine Receptor --
7. Molecular Models for Sodium Channels --
8. Receptor and Channel Superfamilies --
9. Learning and Memory --
References --
Author Index --
Index
isbn 9781400887088
9783110442496
callnumber-first Q - Science
callnumber-subject QP - Physiology
callnumber-label QP356
callnumber-sort QP 3356.2 K67 42017EB
url https://doi.org/10.1515/9781400887088
https://www.degruyter.com/isbn/9781400887088
https://www.degruyter.com/document/cover/isbn/9781400887088/original
illustrated Not Illustrated
dewey-hundreds 500 - Science
dewey-tens 590 - Animals (Zoology)
dewey-ones 591 - Specific topics in natural history
dewey-full 591.1/88
dewey-sort 3591.1 288
dewey-raw 591.1/88
dewey-search 591.1/88
doi_str_mv 10.1515/9781400887088
oclc_num 1004881396
work_keys_str_mv AT kosoweredwardm molecularmechanismsforsensorysignalsrecognitionandtransformation
status_str n
ids_txt_mv (DE-B1597)482089
(OCoLC)1004881396
carrierType_str_mv cr
hierarchy_parent_title Title is part of eBook package: De Gruyter Princeton University Press eBook-Package Archive 1927-1999
is_hierarchy_title Molecular Mechanisms for Sensory Signals : Recognition and Transformation /
container_title Title is part of eBook package: De Gruyter Princeton University Press eBook-Package Archive 1927-1999
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