Receptor activation and inositol lipid hydrolysis in neural tissues.
about
myo-Inositol phosphorothioates, phosphatase-resistant analogues of myo-inositol phosphates. Synthesis of DL-myo-inositol 1,4-bisphosphate and DL-myo-inositol 1,4-bisphosphorothioateMembrane depolarization and carbamoylcholine stimulate phosphatidylinositol turnover in intact nerve terminals.Inositol phospholipid-specific phospholipase C: complete cDNA and protein sequences and sequence homology to tyrosine kinase-related oncogene productsGanglioside inhibition of glutamate-mediated protein kinase C translocation in primary cultures of cerebellar neurons.Effect of diet on the fatty acid composition of the major phospholipids of infant cerebral cortex.Inositol and higher inositol phosphates in neural tissues: homeostasis, metabolism and functional significance.Molecular actions and therapeutic potential of lithium in preclinical and clinical studies of CNS disordersPhospholipase C-gamma 1 can induce DNA synthesis by a mechanism independent of its lipase activity.Effect of phorbol ester and pertussis toxin on the enhancement of noradrenaline release by angiotensin II in mouse atriaEvidence that M1 muscarinic receptors enhance noradrenaline release in mouse atria by activating protein kinase C.Carbachol stimulates a different phospholipid metabolism than nerve growth factor and basic fibroblast growth factor in PC12 cells.Uncultured lobster muscle, cultured neurons and brain slices: the neurophysiology of zinc.Molecular mechanisms of regulation of neuronal muscarinic receptor sensitivity.Reflections on 60 years of publication of the Journal of Neurochemistry.Differential dependence of early and late increases in 1,2-diacylglycerol on the presence of catalytically active alpha-thrombin: evidence for regulation at the level of 1,2-diacylglycerol generation.Parametric in vivo brain imaging during activation to examine pathological mechanisms of functional failure in Alzheimer disease.Functional IP3- and ryanodine-sensitive calcium stores in presynaptic varicosities of NG108-15 (rodent neuroblastoma x glioma hybrid) cells.In vitro correction of impaired Na+-K+-ATPase in diabetic nerve by protein kinase C agonists.In vivo imaging of fatty acid incorporation into brain to examine signal transduction and neuroplasticity involving phospholipids.Malaoxon-induced brain phosphoinositide turnover and changes in brain calcium levels by female gender in pregnant and non-pregnant convulsing and non-convulsing rats.Stimulatory and inhibitory actions of excitatory amino acids on inositol phospholipid metabolism in rat cerebral cortex.Characterization of inositol 1,4,5-trisphosphate-stimulated calcium release from rat cerebellar microsomal fractions. Comparison with [3H]inositol 1,4,5-trisphosphate binding.Potentiation by lithium of CMP-phosphatidate formation in carbachol-stimulated rat cerebral-cortical slices and its reversal by myo-inositol.Efferent-mediated protection of the cochlear base from acoustic overexposure by low doses of lithium.[11 C]arachidonic acid incorporation measurement in human brain: Optimization for clinical use.In vivo cerebral incorporation of radiolabeled fatty acids after acute unilateral orbital enucleation in adult hooded Long-Evans rats.(R,S)-alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) receptors mediate a calcium-dependent inhibition of the metabotropic glutamate receptor-stimulated formation of inositol 1,4,5-trisphosphate.Bradykinin receptors of cerebral microvessels stimulate phosphoinositide turnover.
P2860
Q28361985-407F8F92-B7BF-4894-9E3D-2AB81C50E8DAQ33568426-FDC17539-641D-4012-831E-02421597D646Q33634611-FA21D8BD-369E-4963-8D6C-4614E9D8BFBBQ34374240-7D0FDB1B-71CA-4891-A4FC-881FE6ACA8CFQ34795809-447271AC-8E2C-4C73-BB54-0E0DEC7DE298Q34928951-1EE1C4B6-7C60-4F32-9B42-5F5D4168BE7FQ35197096-67346B76-940D-46D4-8C77-0FEC0E2A3C66Q35582318-ABB3883A-5C63-4266-AAFD-77643646BA6DQ35756316-36865FF5-EA09-43A4-B3B3-495266A23737Q36330192-0722B135-13F8-4F8E-81E4-E46763DA4834Q36744390-CBDAD036-6BE5-412E-9B07-6AE7B56A7C80Q37606529-6BE52B03-CDE8-4C8A-8F09-9CB61DA0AA48Q37782941-20871632-18C7-4617-B1F6-75B5CD6F485DQ38930112-0A88E97B-4FE4-4468-836F-EE0946289ECCQ40642409-A4F909A6-7749-4DD5-9CDA-4E3CE125A066Q40701195-31FFF42E-240E-4B1A-BAAA-93FE5049E40EQ40839318-D1BAE7AC-E006-4996-80D2-25060946B62FQ41268646-2093AEB4-3FA3-4431-A952-0CE71CD3A33AQ41544542-69295906-83B9-452A-82FB-35636B3EF25EQ42281550-59B3AC7C-BBAD-4012-B922-21B4802BB5EAQ42489718-899D17A1-ED7A-4A88-A7BB-031796747ACCQ42818802-711F823D-9346-460F-94F7-A0B2496AB98FQ42835720-8F9B0380-6BFF-4DCF-89CD-418DA09F7E65Q46823718-73505E04-4375-4A79-A7FF-28198A9A4EB7Q47586431-5BCBE6C4-7E26-4F23-87C6-1C21AEE95823Q48164833-DFF3224B-BEC9-4B12-8C91-3500CDD1D16AQ48300331-9D733330-2738-4DD0-91E6-059BC2CC28D8Q48705204-E1B325D7-837C-42B3-AEEF-710796075E03
P2860
Receptor activation and inositol lipid hydrolysis in neural tissues.
description
1987 nî lūn-bûn
@nan
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
1987年论文
@zh
1987年论文
@zh-cn
name
Receptor activation and inositol lipid hydrolysis in neural tissues.
@en
Receptor activation and inositol lipid hydrolysis in neural tissues.
@nl
type
label
Receptor activation and inositol lipid hydrolysis in neural tissues.
@en
Receptor activation and inositol lipid hydrolysis in neural tissues.
@nl
prefLabel
Receptor activation and inositol lipid hydrolysis in neural tissues.
@en
Receptor activation and inositol lipid hydrolysis in neural tissues.
@nl
P2860
P1476
Receptor activation and inositol lipid hydrolysis in neural tissues.
@en
P2093
Agranoff BW
P2860
P304
P356
10.1111/J.1471-4159.1987.TB05618.X
P407
P577
1987-04-01T00:00:00Z