scholarly article | Q13442814 |
P2093 | author name string | Dawson RM | |
Sheltawy A | |||
P2860 | cites work | A simple method for the isolation and purification of total lipides from animal tissues | Q25939009 |
Phosphorus assay in column chromatography | Q29614973 | ||
The ultrastructure of cell membranes and their derivatives | Q34246065 | ||
PHYSICAL STRUCTURE AND BEHAVIOR OF LIPIDS AND LIPID ENZYMES. | Q35484218 | ||
??? | Q64054141 | ||
THE STRUCTURE OF THE SCHWANN CELL AND ITS RELATION TO THE AXON IN CERTAIN INVERTEBRATE NERVE FIBERS. | Q37687054 | ||
Analysis of lipids by spot tests on filter-paper disk chromatograms | Q39217226 | ||
Lipids of normal brain | Q39423804 | ||
Lipids of peripheral nerve | Q39423847 | ||
Concentration of lipids in the brain of infants and adults | Q39427964 | ||
Distribution of lipids in subcellular particles of guinea-pig brain | Q41817889 | ||
Diphosphoinositide and triphosphoinositide in animal tissues. Extraction, estimation and changes post mortem | Q41849792 | ||
The occurence of a long-chain ether analogue of phosphatidylethanolamine in brain tissue | Q41857761 | ||
The phospholipids of the erythrocyte 'ghosts' of various species | Q41980684 | ||
STUDIES ON PHOSPHOLIPIDS. 9. THE COMPOSITION OF RAT-LIVER LECITHINS | Q42107647 | ||
'Phosphatido-peptide'-like complexes formed by the interaction of calcium triphosphoinositide with protein | Q42117119 | ||
The anaerobic metabolism of citrate in rat liver | Q42181803 | ||
Improvements in the method of determining individual phospholipids in a complex mixture by successive chemical hydrolyses | Q42553986 | ||
Chromatographic separation of brain lipids: cerebroside and sulphatide | Q42567732 | ||
The effects of anaesthetics and of convulsants on the lactic acid content of the brain | Q42586911 | ||
Polyphosphoinositides in myelin | Q42966529 | ||
The lipid composition of myelin from brain and peripheral nerve. | Q51249688 | ||
CHEMICAL AND METABOLIC STUDIES OF RAT MYELIN OF THE CENTRAL NERVOUS SYSTEM | Q51253970 | ||
THE CHEMICAL COMPOSITION OF BOVINE CNS MYELIN | Q51253978 | ||
STUDIES ON BRAIN GANGLIOSIDES. 3. EVIDENCE FOR THE LOCATION OF GANGLIOSIDES SPECIFICALLY IN NEURONES | Q51267418 | ||
A COMPARISON OF THE POLYPHOSPHOINOSITIDE IN HUMAN AND OX BRAIN. | Q51271778 | ||
THE AMOUNTS AND DISTRIBUTION OF FREE INOSITOL AND FREE AND PROTEIN-BOUND PHOSPHOINOSITIDES IN BRAIN TISSUES | Q51283121 | ||
The relation of proteolipids and phosphatidopeptides to tissue elements in the bovine nervous system. | Q51293054 | ||
Isolation of "kepalin B" from cerebral lipids. | Q51308181 | ||
A new method for the direct determination of serum cholesterol | Q73102142 | ||
IDENTIFICATION OF ALPHA-GLYCERYL ETHER PHOSPHOLIPIDS AS MAJOR LIPID CONSTITUENTS IN TWO SPECIES OF TERRESTRIAL SLUG | Q76563925 | ||
BREAKDOWN OF PHOSPHOLIPIDS IN MILD ALKALINE HYDROLYSIS | Q76851864 | ||
PROTEOLIPIDS. II. ISOLATION OF A PHOSPHATIDYLETHANOLAMINE REQUIRED FOR LIPID-CYTOCHROME C FORMATION | Q77173123 | ||
LIPID CLASS AND FATTY ACID COMPOSITION OF INTACT PERIPHERAL NERVE AND DURING WALLERIAN DEGENERATION | Q78389799 | ||
BINDING OF METAL IONS TO MONOLAYERS OF LECITHINS, PLASMALOGEN, CARDIOLIPIN, AND DICETYL PHOSPHATE | Q78521258 | ||
Some lipid characteristics of red cell membranes of various animal species | Q78848510 | ||
Chemistry of myelin development | Q79236334 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | lipid | Q11367 |
P304 | page(s) | 12-18 | |
P577 | publication date | 1966-07-01 | |
P1433 | published in | Biochemical Journal | Q864221 |
P1476 | title | The polyphosphoinositides and other lipids of peripheral nerves | |
P478 | volume | 100 |
Q48875452 | Alk-1-enylacyl, alkylacyl, and diacyl subclasses of native ethanolamine and choline glycerophospholipids can be quantified directly by phosphorus-31 NMR in solution |
Q66841241 | An alteration in internodal myelin membrane structure in large sciatic nerve fibres in rats with acute streptozotocin diabetes and impaired nerve conduction velocity |
Q52228104 | Basis for phospholipid incorporation into peripheral nerve myelin. |
Q48812967 | Cerebral phospholipids in 'quaking' mice |
Q67460788 | Changes of nonelectrolyte permeability in cholesterol-loaded erythrocytes |
Q42938143 | Complex-formation between triphosphoinositide and experimental allergic encephalitogenic protein. |
Q72281358 | Demonstration of phospholipid splitting as the factor responsible for increased permeability and block of axonal conduction induced by snake venom. I. Study on lobster axons |
Q39985936 | Deposition of lipids in the developing central and peripheral nervous systems of the chicken |
Q41602755 | Endoneurial lipid composition of normal human sural nerve |
Q28239065 | Enzymes of phosphoinositide metabolism during rat brain development |
Q48964651 | Gas chromatographic analysis of myo-inositol in microgram samples of brain |
Q42938221 | Incorporation of [32P]orthophosphate into brain-slice phospholipids and their precursors. Effects of electrical stimulation |
Q36197778 | Incorporation of newly formed lecithin into peripheral nerve myelin |
Q93815070 | Levels of myo-inositol in normal and degenerating peripheral nerve |
Q49035093 | Lipid composition of human, bovine and sheep pineal glands |
Q68684859 | Lipid composition of rat superior cervical ganglion |
Q57190688 | Lipid organization in peripheral nerve: natural abundance carbon-13 NMR spectroscopy on intact tissues |
Q40741775 | Lipids from nerve tissues of the horseshoe crab, Limulus polyphemus |
Q72933081 | Metabolism of Phospholipids in Peripheral Nerve from Rats with Chronic Streptozotocin-induced Diabetes Increased Turnover of Phosphatidylinositol-4,5-Bisphosphate |
Q39902307 | Model of molecular mechanism able to generate a depolarization-hyperpolarization cycle |
Q70479771 | Neutral lipids and phospholipids of unmyelinated nerve trunks from lobster and garfish |
Q52287003 | Peripheral nerve phospholipid composition: development in normal nerve and age-dependent changes in Wallerian degenerated nerve. |
Q52468703 | Phosphoinositides and other phospholipids in sympathetic ganglia and nerve trunks of rats. Effects of neuronal activity and inositol analogs ( - and -hexachlorocyclohexane (lindane)) on ( 32 P)-labelling, synaptic transmission and axonal conduction |
Q71649416 | Phosphorylation of Tris(hydroxymethyl)aminomethane by human erythrocytes |
Q24531373 | Phosphorylation of choline and ethanolamine in Ehrlich ascites-carcinoma cells |
Q34059072 | Quantification of human platelet inositides and the influence of ionic environment on their incorporation of orthophosphate-32P |
Q72879665 | Rapid Incorporation In Vivo of Intracerebrally Injected32Pi into Polyphosphoinositides of Three Subfractions of Rat Brain Myelin |
Q39393622 | Renewal of Phospholipids in the Myelin Sheath |
Q49136397 | Role of leucocidin and triphosphoinositide in the control of potassium permeability |
Q40131368 | The Enzymic Preparation of Diphosphoinositides |
Q44895967 | The biosynthesis of triiphosphoinositide by purified myelin of peripheral nerve |
Q39277356 | The calcium-stimulated incorporation of ethanolamine and serine into the phospholipids of the housefly Musca domestica |
Q39834974 | The composition, structure and function of lipids in the tissues of ruminant animals |
Q42116055 | The deposition and metabolism of polyphosphoinositides in rat and guinea-pig brain during development |
Q24531400 | The diphosphoinositide kinase of rat brain |
Q48584284 | The lipid composition of axons from bovine brain |
Q41960528 | The metabolism of polyphosphoinositides in hen brain and sciatic nerve |
Q39778936 | The polypeptide and the phospholipid components of axon plasma membranes |
Q42129097 | The subcellular distribution of triphosphoinositide phosphomonoesterase in guinea-pig brain |
Q48956294 | Triphosphoinositide phosphodiesterase in developing brain of the rat and in subcellular fractions of brain |
Q47914116 | Unmyelinated Peripheral Nerves Can Be Stimulated in Vitro Using Pulsed Ultrasound. |
Q68628440 | [Kinetics of the biosynthesis of chicken brain phosphatides during the embryonic and postnatal periods] |