Listing 1 - 5 of 5 |
Sort by
|
Choose an application
577.15 --- Polyisoprenyl Phosphates --- Steroids --- analysis. --- Stéroïdes --- Terpènes --- Biological techniques --- Enzymology --- Isoprenoïden. --- Stéroïdes. --- Isoprénoïdes. --- Steroïden. --- analysis --- Polyisoprenyl phosphates enzymes --- Terpenes
Choose an application
This study unites a selection of the most fundamental and commonly used techiques and protocols for purifying and assaying inositides and related compounds. It also features a catalogue of non-commercial sources of synthetic inositide analogues.
Inositol phosphates. --- Inositol. --- Phospholipids. --- Phospholipases. --- Cellular signal transduction. --- Cellular information transduction --- Information transduction, Cellular --- Signal transduction, Cellular --- Bioenergetics --- Cellular control mechanisms --- Information theory in biology --- Esterases --- Phosphatides --- Membrane lipids --- Phosphates --- Cyclohexanehexol --- Mesoinositol --- Myoinositol --- Alcohols --- Phosphoinositides --- Sugars --- Vitamin B complex --- Hexose phosphates --- Human biochemistry --- Inositol Phosphates. --- Signal Transduction. --- Inositol phosphates --- Metabolism.
Choose an application
Phosphorus --- Potassium --- PHOSPHATES --- POTASH --- Phosphorus. --- Potassium. --- Kalium --- Alkali metals --- High-potassium diet --- Low-potassium diet --- Group 15 elements --- Nonmetals --- Chemistry --- Industrial chemistry --- Agriculture Sciences --- Agro Business, Economics and Policies --- Crops, Crop Production and Protection --- Soil Chemistry, Microbiology, Fertility & Fertilizers --- Applied Chemistry --- Inorganic Chemistry
Choose an application
Human physiology --- Calcium channels --- -Calcium ions --- -Cellular signal transduction --- -Cellular information transduction --- Information transduction, Cellular --- Signal transduction, Cellular --- Bioenergetics --- Cellular control mechanisms --- Information theory in biology --- Alkaline earth ions --- Channels, Calcium --- Ion channels --- Congresses --- Physiological effect --- -Congresses --- Physiological transport --- Calcium ions --- Cellular signal transduction --- Physiological effect&delete& --- Physiological transport&delete& --- CALCIUM --- ION TRANSPORT --- SIGNAL TRANSDUCTION --- CELL NUCLEUS --- CYTOPLASM --- INOSITOL PHOSPHATES --- RYANODINE --- METABOLISM
Choose an application
Not only do glycerophospholipid, sphingolipid, and cholesterol-derived lipid mediators facilitate the transfer of messages from one cell to another, they also facilitate communication among subcellular organelles. Hot Topics in Neural Membrane Lipidology provides readers with a cutting-edge, comprehensive review of these lipid mediators, their roles and association with neurological disorders, and the future direction of research on the topic. This monograph provides readers with critical data and is particularly accessible to neuroscience graduate students, teachers, and researchers. It can be used as a supplemental text for a range of neuroscience courses. Clinicians and pharmacologists will find this book useful for understanding molecular aspects of lipid mediators in acute neural trauma like stroke, spinal cord trauma, head injury, and neurodegenerative diseases such as Alzheimer disease, Parkinson disease, and Huntington disease. About the Author: Akhlaq A. Farooqui is a leader in the field of brain phospholipases A2, bioactive ether lipid metabolism, and glutamate-mediated neurotoxicity. He has discovered the stimulation of plasmalogen-selective phospholipase A2 activity in brains from patients with Alzheimer disease, and published cutting edge research on the generation and identification of glycerophospholipid, sphingolipid, and cholesterol-derived lipid mediators in kainic acid neurotoxicity. Dr. Farooqui has authored three monographs: Glycerophospholipids in Brain: Phospholipase A2 in Neurological Disorders (2007); Neurochemical Aspects of Excitotoxicity (2008); and Metabolism and Functions of Bioactive Ether Lipids in Brain (2008). All monographs are published by Springer, New York.
Cell membranes. --- Electronic structure --Congresses. --- Membrane lipids. --- Neurons. --- Phospholipases. --- Phospholipids. --- Selenium --Congresses. --- Sphingolipids. --- Tellurium --Congresses. --- Membrane lipids --- Cell membranes --- Neurons --- Sphingolipids --- Phospholipids --- Phospholipases --- Membrane Lipids --- Neurotoxins --- Lipids --- Noxae --- Carboxylic Ester Hydrolases --- Phosphoric Diester Hydrolases --- Esterases --- Toxic Actions --- Chemicals and Drugs --- Hydrolases --- Chemical Actions and Uses --- Enzymes --- Enzymes and Coenzymes --- Animal Biochemistry --- Neurology --- Medicine --- Human Anatomy & Physiology --- Health & Biological Sciences --- Phosphatides --- Nerve cells --- Neurocytes --- Cell surfaces --- Cytoplasmic membranes --- Plasma membranes --- Plasmalemma --- 538.91 <063> --- Biological models --- Modèles biologiques --- Modèles biologiques --- Medicine. --- Neurosciences. --- Neurochemistry. --- Neurology. --- Psychopharmacology. --- Biomedicine. --- 538.93 <063> --- 538.91 <063> Structures, including transitions--Congressen --- Structures, including transitions--Congressen --- 538.93 <063> Transport processes (except in quantum liquids and solids)--Congressen --- Transport processes (except in quantum liquids and solids)--Congressen --- Solid state physics --- Sphingosine --- Phosphates --- Cells --- Nervous system --- Membranes (Biology) --- Glycocalyces --- Endocrinology --- Mathematical models --- Data processing --- Endocrinologie --- Modèles mathématiques --- Behavioral pharmacology --- Drugs --- Chemotherapy --- Pharmacology --- Psychotropic drugs --- Neuropsychiatry --- Biochemistry --- Neurosciences --- Neural sciences --- Neurological sciences --- Neuroscience --- Medical sciences --- Psychotropic effects --- Diseases --- Neurology .
Listing 1 - 5 of 5 |
Sort by
|