Mayanka Chandra Shekar scite author profile

The COVID-19 pandemic highlights the need for computational tools to automate and accelerate drug design for novel protein targets. We leverage deep learning language models to generate and score drug candidates based on predicted protein binding affinity. We pre-trained a deep learning language model (BERT) on ~9.6 billion molecules and achieved peak performance of 603 petaflops in mixed precision. Our work reduces pre-training time from days to hours, compared to previous efforts with this architecture, while also increasing the dataset size by nearly an order of magnitude. For scoring, we fine-tuned the language model using an assembled set of thousands of protein targets with binding affinity data and searched for inhibitors of specific protein targets, SARS-CoV-2 Mpro and PLpro. We utilized a genetic algorithm approach for finding optimal candidates using the generation and scoring capabilities of the language model. Our generalizable models accelerate the identification of inhibitors for emerging therapeutic targets.

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Language models for the prediction of SARS-CoV-2 inhibitors

Blanchard

Gounley

Bhowmik

et al. 2022

The International Journal of High Performance Computing Applica

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The COVID-19 pandemic highlights the need for computational tools to automate and accelerate drug design for novel protein targets. We leverage deep learning language models to generate and score drug candidates based on predicted protein binding affinity. We pre-trained a deep learning language model (BERT) on ∼9.6 billion molecules and achieved peak performance of 603 petaflops in mixed precision. Our work reduces pre-training time from days to hours, compared to previous efforts with this architecture, while also increasing the dataset size by nearly an order of magnitude. For scoring, we fine-tuned the language model using an assembled set of thousands of protein targets with binding affinity data and searched for inhibitors of specific protein targets, SARS-CoV-2 Mpro and PLpro. We utilized a genetic algorithm approach for finding optimal candidates using the generation and scoring capabilities of the language model. Our generalizable models accelerate the identification of inhibitors for emerging therapeutic targets.

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Role of nanotechnology in endodontics

N¹,

Kasha

Prasad³

et al. 2022

IJCE

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Nanotechnology is the advance science exploiting phenomena and direct manipulation of materials on the nanoscale. It can bring tremendous changes in the fields of medicine and dentistry. In dentistry, there is widespread recognition of microbial as the contributory factor for dental infection. Treatment of infected root canals presents with a significant challenge of bacterial persistence after treatment. Antibacterial Nanoparticles based treatment can improve the antibiofilm efficacy. A day may soon come when Nano dentistry will succeed in maintaining near-perfect oral health through the aid of nanorobotics and nanomaterials.

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