Machine intelligence for chemical reaction space

Schwaller, Philippe; Vaucher, Alain C.; Laplaza, Rubén; Bunne, Charlotte; Krause, Andreas; Corminbœuf, Clémence; Laino, Teodoro

doi:10.1002/wcms.1604

Cited by 78 publications

(94 citation statements)

References 205 publications

(335 reference statements)

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“…45,46 In the future, we plan to generate datasets for systems with more atoms, and to evaluate anharmonic partition functions to train new estimators. Transfer 47 or delta 48 learning might be used to accelerate these tasks.…”

Section: Discussionmentioning

confidence: 99%

Low-cost prediction of molecular and transition state partition functions via machine learning

Komp

Valleau

2022

Chem. Sci.

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Section: Discussionmentioning

confidence: 99%

Low-cost prediction of molecular and transition state partition functions via machine learning

Komp

Valleau

2022

Chem. Sci.

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“…Recently, Strieth-Kalthoff et al demonstrated the benefit that emerges from the usage of real experimental data for machine learning-based chemical yield predictions [12] while the prediction of reaction outcomes and yields remains a challenge [49]. Nonetheless, there have been impressive developments using attention-based deep learning methods to explore the chemical reaction space [50]. Schwaller et al have shown that the attention matrix weights of transformers that have been trained on unlabelled chemical reaction data can be used to determine accurate atom mappings [51].…”

Section: Digital Transformation Of Synthetic Chemistrymentioning

confidence: 99%

“…Again, the described advances are exemplary cases of the synergy of deep learning-based models and the availability of training data. There are datasets extracted from US patents [52,[56][57][58][59], the scientific literature [60] and high-throughput experiments (HTE) [61] available [50]. Recently, the Open Reaction Database (ORD) has been launched as a platform to replace unstructured reaction data in the supporting information of publications [62].…”

Section: Digital Transformation Of Synthetic Chemistrymentioning

confidence: 99%

Open data and algorithms for open science in AI-driven molecular informatics

Brinkhaus

Rajan

Schaub

et al. 2022

Preprint

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Recent years have seen a sharp increase in the development of deep learning and artificial intelligence-based molecular informatics. The success of AlphaFold led to a growing interest in applying deep learning to a number of subfields, including the digital transformation of synthetic chemistry, extraction of chemical information from the scientific literature, and AI in natural product-based drug discovery. The application of AI to molecular informatics is still constrained by the fact that most of the data used for training and testing deep learning models are not available as FAIR and open data. As open science practices continue to grow in popularity, initiatives such as the FAIR data movement, open data, and open-source software have emerged. It is becoming increasingly important for researchers in the field of molecular informatics to embrace open science and to submit data and software that support their studies. With the advent of open-source deep learning frameworks and cloud computing platforms, academic researchers are now able to deploy and test their own deep learning algorithms with ease. With the development of new and faster hardware for deep learning and the increasing number of initiatives towards digital research data management infrastructures, as well as a culture promoting open data, open source, and open science, AI-driven molecular informatics will continue to grow. This review examines the current state of open data and open algorithms in molecular informatics, as well as ways in which they could be improved in future.

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“…Such methods date back to the 60's and the early work of Corey, 3 although the research has intensified in the last decade due to the increased interest in machine learning and artificial intelligence. 4 At the heart of retrosynthesis analysis is a method that is capable of predicting disconnections on a compound and thereby producing precursors. Such methods are typically referred to as one-step retrosynthesis or single-step retrosynthesis.…”

Section: Introductionmentioning

confidence: 99%