10-benzyl-2-chloropyrimido[1,2-a]benzimidazol-4(10H)-one | 1430744-93-6
中文名称
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中文别名
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英文名称
10-benzyl-2-chloropyrimido[1,2-a]benzimidazol-4(10H)-one
英文别名
10-Benzyl-2-chloropyrimido[1,2-a]benzimidazol-4-one;10-benzyl-2-chloropyrimido[1,2-a]benzimidazol-4-one
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CAS
1430744-93-6
化学式
C17H12ClN3O
mdl
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分子量
309.755
InChiKey
SSIMHAXACXSIME-UHFFFAOYSA-N
BEILSTEIN
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EINECS
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):3
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重原子数:22
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可旋转键数:2
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环数:4.0
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sp3杂化的碳原子比例:0.06
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拓扑面积:35.9
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氢给体数:0
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氢受体数:2
上下游信息
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下游产品
中文名称 英文名称 CAS号 化学式 分子量 —— 10-Benzyl-2-piperazin-1-ylpyrimido[1,2-a]benzimidazol-4-one 1430745-09-7 C21H21N5O 359.431
反应信息
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作为反应物:参考文献:名称:通过分子建模发现 TAAR1 激动的新型化学类型摘要:由于与 TAAR1 靶向相关的广泛药理学应用,寻找新型有效 TAAR1 配体继续引起高度关注。在此,对已知的以恶唑啉核心为特征的 TAAR1 配体进行了分子对接研究,以确定新的有前途的化学类型,以发现更具活性的 TAAR1 激动剂。特别是,基于恶唑啉的化合物S18616已被用作计算研究的参考化合物,从而导致了相当平坦且构象锁定的配体的开发。建议选择“Y 形”构象来设计 TAAR1 配体,与 ASP103 和芳香族残基(例如 PHE186、PHE195、PHE268 和 PHE267)界定的蛋白质空腔相互作用。获得的结果使我们能够初步筛选一系列内部嘧啶酮-苯并咪唑 (1a-10a) 作为靶向 TAAR1 的新型支架。基于配体 (LBCM) 和基于结构 (SBCM) 的组合计算方法建议对化合物 1a–10a 进行生物学评估,从而鉴定出衍生物 1a–3a (hTAAR1 EC50 = 526.3–657DOI:10.3390/molecules29081739
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作为产物:参考文献:名称:通过分子建模发现 TAAR1 激动的新型化学类型摘要:由于与 TAAR1 靶向相关的广泛药理学应用,寻找新型有效 TAAR1 配体继续引起高度关注。在此,对已知的以恶唑啉核心为特征的 TAAR1 配体进行了分子对接研究,以确定新的有前途的化学类型,以发现更具活性的 TAAR1 激动剂。特别是,基于恶唑啉的化合物S18616已被用作计算研究的参考化合物,从而导致了相当平坦且构象锁定的配体的开发。建议选择“Y 形”构象来设计 TAAR1 配体,与 ASP103 和芳香族残基(例如 PHE186、PHE195、PHE268 和 PHE267)界定的蛋白质空腔相互作用。获得的结果使我们能够初步筛选一系列内部嘧啶酮-苯并咪唑 (1a-10a) 作为靶向 TAAR1 的新型支架。基于配体 (LBCM) 和基于结构 (SBCM) 的组合计算方法建议对化合物 1a–10a 进行生物学评估,从而鉴定出衍生物 1a–3a (hTAAR1 EC50 = 526.3–657DOI:10.3390/molecules29081739
文献信息
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Synthesis, in vitro antiplatelet activity and molecular modelling studies of 10-substituted 2-(1-piperazinyl)pyrimido[1,2- a ]benzimidazol-4(10 H )-ones作者:Mario Di Braccio、Giancarlo Grossi、Maria Grazia Signorello、Giuliana Leoncini、Elena Cichero、Paola Fossa、Silvana Alfei、Gianluca DamonteDOI:10.1016/j.ejmech.2013.01.026日期:2013.4The multistep preparation of the new 10-substituted 2-(1-piperazinyl)pyrimido[1,2-a]benzimidazol-4(10H)-ones 6a-o, and of the two isomers 10-ethyl-2-(diethylamino)pyrimido[1,2-a]benzimidazol-4(10H)-one 6p and 10-ethyl-4-(diethylamino)pyrimido[1,2-a]benzimidazol-2(10H)-one 13, as well as the in vitro evaluation of their inhibitory activity on human platelet aggregation induced in platelet-rich plasma by ADP, collagen or the Ca2+ ionophore A23187 were here described. Nine out of fifteen 2-(1-piperazinyl)derivatives (6g-o) showed good inhibitory properties towards all the platelet aggregation agonists used. Moreover, a molecular modelling study has been performed on two of the best compounds of this series (6i and 6o) to confirm in silico their interactions with the catalytic site of human platelet PDE3, using the X-ray data of the PDE3B isoform in complex with an inhibitor. (C) 2013 Elsevier Masson SAS. All rights reserved.
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Discovery of a Novel Chemo-Type for TAAR1 Agonism via Molecular Modeling作者:Giancarlo Grossi、Naomi Scarano、Francesca Musumeci、Michele Tonelli、Evgeny Kanov、Anna Carbone、Paola Fossa、Raul R. Gainetdinov、Elena Cichero、Silvia SchenoneDOI:10.3390/molecules29081739日期:——molecular docking studies of known TAAR1 ligands, characterized by an oxazoline core, have been performed in order to identify novel promising chemo-types for the discovery of more active TAAR1 agonists. In particular, the oxazoline-based compound S18616 has been taken as a reference compound for the computational study, leading to the development of quite flat and conformationally locked ligands. The choice由于与 TAAR1 靶向相关的广泛药理学应用,寻找新型有效 TAAR1 配体继续引起高度关注。在此,对已知的以恶唑啉核心为特征的 TAAR1 配体进行了分子对接研究,以确定新的有前途的化学类型,以发现更具活性的 TAAR1 激动剂。特别是,基于恶唑啉的化合物S18616已被用作计算研究的参考化合物,从而导致了相当平坦且构象锁定的配体的开发。建议选择“Y 形”构象来设计 TAAR1 配体,与 ASP103 和芳香族残基(例如 PHE186、PHE195、PHE268 和 PHE267)界定的蛋白质空腔相互作用。获得的结果使我们能够初步筛选一系列内部嘧啶酮-苯并咪唑 (1a-10a) 作为靶向 TAAR1 的新型支架。基于配体 (LBCM) 和基于结构 (SBCM) 的组合计算方法建议对化合物 1a–10a 进行生物学评估,从而鉴定出衍生物 1a–3a (hTAAR1 EC50 = 526.3–657
同类化合物
(S)-(-)-2-(α-(叔丁基)甲胺)-1H-苯并咪唑
(S)-(-)-2-(α-甲基甲胺)-1H-苯并咪唑
麦穗宁
马哌斯汀
颜料橙62
顺式-5,6-二氢-4,5-二甲基-4H-咪唑并[1,5,4-De]喹喔啉
韦罗肟
青菌灵
雷贝拉唑钠
雷贝拉唑硫醚N-氧化物
雷贝拉唑砜 N-氧化物
雷贝拉唑砜
雷贝拉唑 N-氧化物
雷贝拉唑
阿苯达唑砜
阿苯达唑杂质L
阿苯达唑杂质F
阿苯达唑杂质14
阿苯达唑杂质13
阿苯达唑亚砜
阿苯达唑
阿苯哒唑-D3
阿地本旦
阿司咪唑-d3
阿司咪唑
邻甲磺酰胺基苯乙酸
那地特罗
达比加群酯杂质M
达比加群酯N-氧化物
达比加群酯
达比加群脂杂质10
达比加群杂质J
达比加群杂质J
达比加群杂质E
达比加群杂质D
达比加群杂质C5
达比加群杂质38
达比加群杂质10
达比加群杂质
达比加群-D3
达比加群
达卡他伟中间体
赫斯特荧光染料34580
赫斯特荧光染料33258(游离)
赫斯特荧光染料 33342
赫斯特33258ANALOG3
诺阿斯米唑
诺考达唑
螺[苯并咪唑-2,1'-环己烷]
苯酚,2,4-二溴-6-[5-(三氟甲基)-1H-苯并咪唑-2-基]-
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