Javascript must be enabled to continue!

Drug Analogs from Fragment Based Long Short-Term Memory Generative Neural Networks

Several recent reports have shown that long short-term memory generative neural networks (LSTM) of the type used for grammar learning efficiently learn to write SMILES of drug-like compounds when trained with SMILES from a database of bioactive compounds such as ChEMBL and can later produce focused sets upon transfer learning with compounds of specific bioactivity profiles. Here we trained an LSTM using molecules taken either from ChEMBL, DrugBank, commercially available fragments, or from FDB-17 (a database of fragments up to 17 atoms) and performed transfer learning to a single known drug to obtain new analogs of this drug. We found that this approach readily generates hundreds of relevant and diverse new drug analogs and works best with training sets of around 40,000 compounds as simple as commercial fragments. These data suggest that fragment-based LSTM offer a promising method for new molecule generation.

American Chemical Society (ACS)

Mahendra Awale Finton Sirockin Nikolaus Stiefl Jean-Louis Reymond

2019

Title: Drug Analogs from Fragment Based Long Short-Term Memory Generative Neural Networks

Description:

Here we trained an LSTM using molecules taken either from ChEMBL, DrugBank, commercially available fragments, or from FDB-17 (a database of fragments up to 17 atoms) and performed transfer learning to a single known drug to obtain new analogs of this drug.

We found that this approach readily generates hundreds of relevant and diverse new drug analogs and works best with training sets of around 40,000 compounds as simple as commercial fragments.

These data suggest that fragment-based LSTM offer a promising method for new molecule generation.

Back

Related Results

Fuzzy Chaotic Neural Networks

An understanding of the human brain’s local function has improved in recent years. But the cognition of human brain’s working process as a whole is still obscure. Both fuzzy logic ...

On the role of network dynamics for information processing in artificial and biological neural networks

Understanding how interactions in complex systems give rise to various collective behaviours has been of interest for researchers across a wide range of fields. However, despite ma...

Mannityl opine analogs allow isolation of catabolic pathway regulatory mutants

Five virulent Agrobacterium spp. strains that can catabolize the mannityl opines mannopine (MOP), mannopinic acid ( MOA ), and agropinic acid (AGA) were tested for their ability to...

Drug Analogs from Fragment Based Long Short-Term Memory Generative Neural Networks

Several recent reports have shown that long short-term memory generative neural networks (LSTM) of the type used for grammar learning efficiently learn to write SMILES of drug-like...

Insulin Analogs for Type 1 Diabetes Management

Type 1 diabetes is a metabolic dysfunction in which there is the autoimmune destruction of the β cells in the islet of Langerhans; thereby, there is very little or no insulin produ...

Transcriptional Regulation Underlying Long-term Sensitization in Aplysia

The final published article is available in the Oxford Research Encyclopedia of Neuroscience: https://oxfordre.com/neuroscience/display/10.1093/acrefore/9780190264086.001.0001/acre...

Short- and long-term temporal network prediction based on network memory

Abstract Temporal networks like physical contact networks are networks whose topology changes over time. Predicting future temporal networks is crucial e.g., to forecast an...

Potential drug–drug interactions and associated factors among hospitalized cardiac patients at Jimma University Medical Center, Southwest Ethiopia

Background: Concomitant use of several drugs for a patient is often imposing increased risk of drug–drug interactions. Drug–drug interactions are a major cause for concern in patie...

Email:
Password:

Email: