Identification of inosine as an endogenous modulator for the benzodiazepine binding site of the GABAA receptors.

Yarom M; Tang XW; Wu E; Carlson RG; Vander-Velde D; Lee X; Wu J

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Identification of inosine as an endogenous modulator for the benzodiazepine binding site of the GABAA receptors.

机译：确认肌苷是GABAA受体的苯二氮杂binding结合位点的内源性调节剂。

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Previously we have reported the presence of endogenous ligands that are involved in the regulation of the binding of muscimol to the GABA binding site of the GABAA receptors. Here, we report the presence of multiple forms of endogenous ligands in the brain which modulate the binding of flunitrazepam (FNZP) to the benzodiazepine (BZ) binding site of the GABAA receptor. Furthermore, one of the endogenous ligands for the BZ receptors, referred to as EBZ, has been identified as inosine based on the following observations: (1) standard inosine and the EBZ have identical NMR and UV spectra; (2) the elution profile of inosine and the EBZ from a HPLC column are indistinguishable, and (3) inosine and the EBZ show identical activity in inhibiting [3H]FNZP binding.

机译：先前我们已经报道了内源性配体的存在，该内源性配体参与了麝香酚与GABAA受体的GABA结合位点的结合调节。在这里，我们报告大脑中存在多种形式的内源性配体，这些形式可调节氟硝西epa（FNZP）与GABAA受体的苯并二氮杂（BZ）结合位点的结合。此外，基于以下观察，已将BZ受体的一种内源性配体称为EBZ：（1）标准肌苷和EBZ具有相同的NMR和UV光谱; （2）HPLC柱上的肌苷和EBZ的洗脱曲线无法区分，（3）肌苷和EBZ在抑制[3H] FNZP结合方面表现出相同的活性。

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《Journal of biomedical science.》 |1998年第4期|共7页
作者
Yarom M; Tang XW; Wu E; Carlson RG; Vander-Velde D; Lee X; Wu J;
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正文语种 eng
中图分类生物科学;
关键词
Benzodiazepines; Brain; Inosine; Receptors; GABA-A; Ligands; GABA; 苯二氮ZHUO类; 脑; 肌苷; 受体; GABA-A;

机译：Benzodiazepines;Brain;Inosine;Receptors;GABA-A;Ligands;GABA;苯二氮|ZHUO|类;脑;肌苷;受体;GABA-A;

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1. Identification of inosine as an endogenous modulator for the benzodiazepine binding site of the GABAA receptors. [J] . Yarom M, Tang XW, Wu E, Journal of biomedical science. . 1998,第4期

机译：确认肌苷是GABAA受体的苯二氮杂binding结合位点的内源性调节剂。
2. Comparison of in vivo and ex vivo (3H)flumazenil binding assays to determine occupancy at the benzodiazepine binding site of rat brain GABAA receptors. [J] . Li J, Fish RL, Cook SM, Neuropharmacology . 2006,第1期

机译：体内和离体（3H）氟马西尼结合测定法的比较，以确定在大鼠脑GABAA受体的苯二氮卓结合位点的占有率。
3. 3D-QSAR model of flavonoids binding at benzodiazepine site in GABAA receptors. [J] . Huang X, Liu T, Gu J, Journal of Medicinal Chemistry . 2001,第12期

机译：黄酮类化合物在GABAA受体中苯并二氮杂位结合的3D-QSAR模型。
4. Ligand binding site superposition and comparison based on Atomic Property Fields: identification of distant homologues, convergent evolution and PDB-wide clustering of binding sites [C] . Maxim Totrov Asia-Pacific Bioinformatics Conference . 2012

机译：基于原子特性的配体结合位点叠加和比较：遥远同源物，收敛演化和结合位点的PDB宽聚类
5. Topology characterization of a benzodiazepine-binding domain of GABA(A) receptor and anxiolytic-like effect of baicalin acting through the benzodiazepine-binding site. [D] . Xu, Zhiwen. 2005

机译：GABA（A）受体的苯并二氮杂-结合域的拓扑结构表征和黄ba苷通过苯并二氮杂binding结合位点的抗焦虑样作用。
6. Identification of inosine and hypoxanthine as endogenous ligands for the brain benzodiazepine-binding sites. [O] . T Asano, S Spector 1979

机译：鉴定肌苷和次黄嘌呤为大脑苯并二氮杂卓结合位点的内源性配体。
7. Identification of inosine and hypoxanthine as endogenous ligands for the brain benzodiazepine-binding sites. [O] . Asano, T, Spector, S 1979

机译：鉴定肌苷和次黄嘌呤为大脑苯并二氮杂卓结合位点的内源性配体。

Identification of inosine as an endogenous modulator for the benzodiazepine binding site of the GABAA receptors.

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