Deep learning methods applied to drug discovery have been used to generate novel structures. In this study, we propose a new deep learning architecture, LatentGAN, which combines an autoencoder and a generative adversarial neural network for de novo molecular design. We applied the method in two scenarios: one to generate random drug-like compounds and another to generate target-biased compounds. Our results show that the method works well in both cases. Sampled compounds from the trained model can largely occupy the same chemical space as the training set and also generate a substantial fraction of novel compounds. Moreover, the drug-likeness score of compounds sampled from LatentGAN is also similar to that of the training set. Lastly, gen...
The application of deep learning in the field of drug discovery brings the development and expansion...
In <i>de novo</i> drug design, computational strategies are used to generate novel molecules with go...
Generative artificial intelligence models present a fresh approach to chemogenomics and de novo drug...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
A major challenge in computational chemistry is the generation of novel molecular structures with de...
© 2017 American Chemical Society. Deep generative adversarial networks (GANs) are the emerging techn...
<i>In silico</i> modeling is a crucial milestone in modern drug design and development. Although com...
In this article, we propose the deep neural network Adversarial Threshold Neural Computer (ATNC). Th...
Drug discovery benefits from computational models aiding the identification of new chemical matter w...
Machine learning (ML) and Artificial Intelligence (AI) have had a renaissance during the last few ye...
Abstract This work introduces a method to tune a sequence-based generative model for molecular de no...
In de novo drug design, computational strategies are used to generate novel molecules with good affi...
Deep generative models have been an upsurge in the deep learning community since they were proposed....
Finding new molecules with a desired biological activity is an extremely difficult task. In this con...
© 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group. Introduction: Deep discrimin...
The application of deep learning in the field of drug discovery brings the development and expansion...
In <i>de novo</i> drug design, computational strategies are used to generate novel molecules with go...
Generative artificial intelligence models present a fresh approach to chemogenomics and de novo drug...
Deep learning methods applied to drug discovery have been used to generate novel structures. In this...
A major challenge in computational chemistry is the generation of novel molecular structures with de...
© 2017 American Chemical Society. Deep generative adversarial networks (GANs) are the emerging techn...
<i>In silico</i> modeling is a crucial milestone in modern drug design and development. Although com...
In this article, we propose the deep neural network Adversarial Threshold Neural Computer (ATNC). Th...
Drug discovery benefits from computational models aiding the identification of new chemical matter w...
Machine learning (ML) and Artificial Intelligence (AI) have had a renaissance during the last few ye...
Abstract This work introduces a method to tune a sequence-based generative model for molecular de no...
In de novo drug design, computational strategies are used to generate novel molecules with good affi...
Deep generative models have been an upsurge in the deep learning community since they were proposed....
Finding new molecules with a desired biological activity is an extremely difficult task. In this con...
© 2020, © 2020 Informa UK Limited, trading as Taylor & Francis Group. Introduction: Deep discrimin...
The application of deep learning in the field of drug discovery brings the development and expansion...
In <i>de novo</i> drug design, computational strategies are used to generate novel molecules with go...
Generative artificial intelligence models present a fresh approach to chemogenomics and de novo drug...