Protein engineering in the computational age: An open source framework for exploring mutational landscapes in silico

Shirin Bamezai; Giovanni Maresca di Serracapriola; Freya Morris; Rasmus Hildebrandt; Marc Augustine Sojerido Amil; Sporadicate iGEM Team; Rodrigo Ledesma‐Amaro

doi:10.1049/enb2.12028

Engineering Biology (Dec 2023)

Protein engineering in the computational age: An open source framework for exploring mutational landscapes in silico

Shirin Bamezai,
Giovanni Maresca di Serracapriola,
Freya Morris,
Rasmus Hildebrandt,
Marc Augustine Sojerido Amil,
Sporadicate iGEM Team,
Rodrigo Ledesma‐Amaro

Affiliations

Shirin Bamezai: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK
Giovanni Maresca di Serracapriola: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK
Freya Morris: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK
Rasmus Hildebrandt: Faculty of Natural Sciences Imperial College London London UK
Marc Augustine Sojerido Amil: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK
Sporadicate iGEM Team: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK
Rodrigo Ledesma‐Amaro: Department of Bioengineering and Imperial College Centre for Synthetic Biology Imperial College London London UK

DOI: https://doi.org/10.1049/enb2.12028
Journal volume & issue: Vol. 7, no. 1-4
pp. 29 – 38

Abstract

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Abstract The field of protein engineering has seen tremendous expansion in the last decade, with researchers developing novel proteins with specialised functionalities for a range of uses, from drug discovery to industrial biotechnology. The emergence of computational tools and high‐throughput screening technology has substantially sped up the process of protein engineering. However, much of the expertise required to engage in such projects is still concentrated in the hands of a few specialised individuals, including computational biologists and structural biochemists. The international Genetically Engineered Machine (iGEM) competition represents a platform for undergraduate students to innovate in synthetic biology. Yet, due to their complexity, arduous protein engineering projects are hindered by the resources available and strict timelines of the competition. The authors highlight how the 2022 iGEM Team, ‘Sporadicate’, set out to develop InFinity 1.0, a computational framework for increased accessibility to effective protein engineering, hoping to increase awareness and accessibility to novel in silico tools.

Published in Engineering Biology

ISSN: 2398-6182 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General)
Website: https://ietresearch.onlinelibrary.wiley.com/journal/23986182

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Abstract

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