De Novo Fragment Design for Drug Discovery and Chemical Biology

Rodrigues Tiago; Reker Daniel; Welin Martin; Caldera Michael; Brunner Cyrill; Gabernet Gisela; Schneider Petra; Walse Bjoern; Schneider Gisbert

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De Novo Fragment Design for Drug Discovery and Chemical Biology

机译：从头设计用于药物发现和化学生物学的片段

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Automated molecular de novo design led to the discovery of an innovative inhibitor of death-associated protein kinase 3 (DAPK3). An unprecedented crystal structure of the inactive DAPK3 homodimer shows the fragment-like hit bound to the ATP pocket. Target prediction software based on machine learning models correctly identified additional macromolecular targets of the computationally designed compound and the structurally related marketed drug azosemide. The study validates computational de novo design as a prime method for generating chemical probes and starting points for drug discovery.

机译：自动化的分子从头设计导致发现一种新型的死亡相关蛋白激酶3（DAPK3）抑制剂。失活的DAPK3同型二聚体的前所未有的晶体结构显示了与ATP口袋结合的片段样命中。基于机器学习模型的目标预测软件可以正确识别计算设计的化合物和与结构相关的市售药物阿佐塞米的其他大分子目标。这项研究验证了从头计算设计是生成化学探针和药物发现起点的主要方法。

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《Angewandte Chemie》 |2015年第50期|共5页
作者
Rodrigues Tiago; Reker Daniel; Welin Martin; Caldera Michael; Brunner Cyrill; Gabernet Gisela; Schneider Petra; Walse Bjoern; Schneider Gisbert;
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正文语种 eng
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关键词
chemical biology; computational chemistry; kinases; molecular design; target prediction;

机译：化学生物学;计算化学;激酶;分子设计;目标预测;

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1. De Novo Fragment Design for Drug Discovery and Chemical Biology [J] . Rodrigues Tiago, Reker Daniel, Welin Martin, Angewandte Chemie . 2015,第50期

机译：从头设计用于药物发现和化学生物学的片段
2. Celebrating Chemical Biology & Drug Design: A Tribute to Multidisciplinary Drug Discovery! [J] . Tomi K. Sawyer, Founding Editor-in-Chief, Chemical Biology, Chemical biology and drug design . 2011,第6期

机译：庆祝化学生物学与药物设计：致敬多学科药物发现！
3. Network building of proteins in a biochemical pathway: A computational biology related model for target discovery and drug-design [J] . Chakraborty C., Refidaff C., Hsu C.-H., Current Bioinformatics . 2010,第4期

机译：生化途径中蛋白质的网络构建：目标发现和药物设计的计算生物学相关模型
4. Role of Collaboration in Chemical Biology and Drug Discovery [C] . Barry Bunin, Charlie Weatherall, Kellan Gregory, International Molecular Medicine Tri-Conference. . 2015

机译：合作在化学生物学和药物发现中的作用
5. Applications of chemical biology in drug discovery and systems biology: Fragment-based design of histone deacetylase inhibitors & A chemical approach to understanding polysaccharide biosynthesis and protein glycosylation. [D] . Woodward, Robert L., Jr. 2010

机译：化学生物学在药物发现和系统生物学中的应用：基于片段的组蛋白脱乙酰基酶抑制剂的设计和一种了解多糖生物合成和蛋白质糖基化的化学方法。
6. Relevant Applications of Generative Adversarial Networks in Drug Design and Discovery: Molecular De Novo Design Dimensionality Reduction and De Novo Peptide and Protein Design [O] . Eugene Lin, Chieh-Hsin Lin, Hsien-Yuan Lane 2020

机译：生成对抗网络在药物设计和发现中的相关应用：分子de Novo设计减少维度和德诺肽和蛋白质设计
7. Discovery of potent, reversible MetAP2 inhibitors via fragment based drug discovery and structure based drug design—Part 1 [O] . Zacharia Cheruvallath, Mingnam Tang, Christopher McBride, 2016

机译：通过基于片段的药物发现和结构的药物设计发现有效，可逆的Metap2抑制剂 - 第1部分

De Novo Fragment Design for Drug Discovery and Chemical Biology

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