Integrating Computation, Experiment, and Machine Learning in the Design of Peptide‐Based Supramolecular Materials and Systems
Abstract
Interest in peptide‐based supramolecular materials has grown extensively since the 1980s and the application of computational methods has paralleled this. These methods contribute to the understanding of experimental observations based on interactions and inform the design of new supramolecular systems. They are also used to virtually screen and navigate these very large design spaces. Increasingly, the use of artificial intelligence is employed to screen far more candidates than traditional methods. Based on a brief history of computational and experimentally integrated investigations of peptide structures, we explore recent impactful examples of computationally driven investigation into peptide self‐assembly, focusing on recent advances in methodology development. It is clear that the integration between experiment and computation to understand and design new systems is becoming near seamless in this growing field.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Feb 14, 2023
- Source ID
- 10.1002/anie.202218067
Entities
People
- Alexander van Teijlingen
- Maithreyi Ramakrishnan
- Rein V Ulijn
- Tell Tuttle
Organizations
- Air Force Office of Scientific Research
- CUNY Graduate School and University Center
- City University of New York
- Hunter College
- Office of Naval Research
- University of Strathclyde