购物车
  • 全部删除
  • TargetMol
    您的购物车当前为空
TargetMol | Compound Library

高溶解性卤化片段化合物库现货

High Solubility FragLite Fragment Library

Rating icon 很棒
产品编号 L7840

高溶解性卤化片段库包含小型卤化片段和卤化肽模拟物片段。FragLites 是小的卤化片段,可用于有效绘制新蛋白质中的药物相互作用。PepLites 是一个小型卤化肽模拟物,与 FragLites 并行设计,以涵盖新蛋白质中更广泛的药物相互作用。高溶解性卤化片段库包含796 个卤化片段化合物。

TargetMol 的所有产品和服务仅用于科学研究,不能被用于人体,我们也不向个人提供产品和服务。

资源下载
化合物库相关信息
Excel
SDF
联系我们获取更多批次信息

产品编号 L7840

高溶解性卤化片段化合物库

规格

  • 1 mg
  • 5 mg
  • 10 mg
  • 30 μL x 10 mM (in DMSO)
  • 50 μL x 10 mM (in DMSO)
  • 100 μL x 10 mM (in DMSO)
  • 250 μL x 10 mM (in DMSO)
询价 & 定制

Product Description Product Description

The theoretical basis of FBDD is to select favorable fragment combinations or extensions to obtain new drug molecules, with a higher probability of obtaining highly active drug candidates. Compared with the screening of millions of macromolecules, thousands of fragment molecules can be combined to form millions of drug structures, which are easier to collect and manage. In addition, fragments have smaller molecular weights, relatively higher solubility, and easier structural optimization. The potential of over-the-counter medicine is higher. The FragLites identify productive drug-like interactions, which are identified sensitively and unambiguously by X-ray crystallography, exploiting the anomalous scattering of the halogen substituent. This mapping of protein interaction surfaces provides an assessment of druggability and can identify efficient start points for the de novo design of hit molecules incorporating the interacting motifs.
Combine fragments from FragLites to generate fragment lead compounds:

Packaging And Storage | TargetMol 包装和储存

  • 可选用DMSO耐受的96/384孔板或2D 条形码编码管;
  • 干粉蓝冰运输,DMSO溶液干冰运输;
  • 排布:96孔板:1st & 12th 空白对照,384孔板:1st & 2nd & 23th & 24th空白对照。

使用TargetMol产品
发表顶级期刊文献

引用更多关于TargetMol产品的科学文献吧!

查看更多

Library Customization | TargetMol 化合物库定制

Compound Library | TargetMol
您可以通过点击按钮
定制您专属的化合物!
联系专属定制

Library Customization | TargetMol 化合物库组成

Histamine Receptor
AChR
Antibacterial
Antifungal
CDK
DNA/RNA Synthesis
DPP-4
Drug Metabolite
Endogenous Metabolite
HCV Protease
HSV
Influenza Virus
Parasite
Phospholipase
PPAR