2-aminomethylbenzothiazol-5-ol | 1422360-57-3

分子结构分类

有机化合物 - 有机杂环化合物 - 苯并噻唑类

中文名称

——

中文别名

——

英文名称

2-aminomethylbenzothiazol-5-ol

英文别名

2-(Aminomethyl)-1,3-benzothiazol-5-ol；2-(aminomethyl)-1,3-benzothiazol-5-ol

CAS

1422360-57-3

化学式

C₈H₈N₂OS

mdl

——

分子量

180.23

InChiKey

GJWMVCLRUPCXRY-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

0.9
重原子数：

12
可旋转键数：

1
环数：

2.0
sp3杂化的碳原子比例：

0.12
拓扑面积：

87.4
氢给体数：

2
氢受体数：

4

上下游信息

上游原料

中文名称	英文名称	CAS号	化学式	分子量
2-甲基-5-甲氧基苯并噻唑	5-methoxy-2-methylbenzo[d]thiazole	2941-69-7	C₉H₉NOS	179.243
——	5-methoxybenzothiazole-2-carboxaldehyde	——	C₉H₇NO₂S	193.226

反应信息

作为反应物：

描述：

2-aminomethylbenzothiazol-5-ol 在 potassium carbonate 、 N,N-二异丙基乙胺作用下，以四氢呋喃、乙腈为溶剂，反应 0.5h，生成 (2-{[5-(2,6-dimethoxyphenyl)[1,2,4]triazin-3-ylamino]methyl}benzothiazol-5-yloxy)acetic acid ethyl ester

参考文献：

名称：

Novel HldE-K Inhibitors Leading to Attenuated Gram Negative Bacterial Virulence

摘要：

We report here the optimization of an HldE kinase inhibitor to low nanomolar potency, which resulted in the identification of the first reported compounds active on selected E. coli strains. One of the most interesting candidates, compound 86, was shown to inhibit specifically bacterial I,PS heptosylation on efflux pump deleted E. coli strains. This compound did not interfere with E. coli bacterial growth (MIC > 32 mu g/mL) but sensitized this pathogen to hydrophobic antibiotics like macrolides normally inactive on Gram-negative bacteria. In addition, 86 could sensitize E. coli to serum complement killing. These results demonstrate that HldE kinase is a suitable target for drug discovery. They also pave the way toward novel possibilities of treating or preventing bloodstream infections caused by pathogenic Gram negative bacteria by inhibiting specific virulence factors.

DOI：

10.1021/jm301499r
作为产物：

描述：

5-methoxy-1,3-benzothiazole-2-carbaldehyde oxime 在三溴化硼、溶剂黄146 、锌作用下，以二氯甲烷为溶剂，反应 3.0h，生成 2-aminomethylbenzothiazol-5-ol

参考文献：

名称：

Novel HldE-K Inhibitors Leading to Attenuated Gram Negative Bacterial Virulence

摘要：

We report here the optimization of an HldE kinase inhibitor to low nanomolar potency, which resulted in the identification of the first reported compounds active on selected E. coli strains. One of the most interesting candidates, compound 86, was shown to inhibit specifically bacterial I,PS heptosylation on efflux pump deleted E. coli strains. This compound did not interfere with E. coli bacterial growth (MIC > 32 mu g/mL) but sensitized this pathogen to hydrophobic antibiotics like macrolides normally inactive on Gram-negative bacteria. In addition, 86 could sensitize E. coli to serum complement killing. These results demonstrate that HldE kinase is a suitable target for drug discovery. They also pave the way toward novel possibilities of treating or preventing bloodstream infections caused by pathogenic Gram negative bacteria by inhibiting specific virulence factors.

DOI：

10.1021/jm301499r

点击查看最新优质反应信息

文献信息

Novel HldE-K Inhibitors Leading to Attenuated Gram Negative Bacterial Virulence

作者：Nicolas Desroy、Alexis Denis、Chrystelle Oliveira、Dmytro Atamanyuk、Sophia Briet、Fabien Faivre、Géraldine LeFralliec、Yannick Bonvin、Mayalen Oxoby、Sonia Escaich、Stéphanie Floquet、Elodie Drocourt、Vanida Vongsouthi、Lionel Durant、François Moreau、Theodore B. Verhey、Ting-Wai Lee、Murray S. Junop、Vincent Gerusz

DOI：10.1021/jm301499r

日期：2013.2.28

We report here the optimization of an HldE kinase inhibitor to low nanomolar potency, which resulted in the identification of the first reported compounds active on selected E. coli strains. One of the most interesting candidates, compound 86, was shown to inhibit specifically bacterial I,PS heptosylation on efflux pump deleted E. coli strains. This compound did not interfere with E. coli bacterial growth (MIC > 32 mu g/mL) but sensitized this pathogen to hydrophobic antibiotics like macrolides normally inactive on Gram-negative bacteria. In addition, 86 could sensitize E. coli to serum complement killing. These results demonstrate that HldE kinase is a suitable target for drug discovery. They also pave the way toward novel possibilities of treating or preventing bloodstream infections caused by pathogenic Gram negative bacteria by inhibiting specific virulence factors.

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