Recent advances in user-friendly computational tools to engineer protein function

Sequeiros-Borja, Carlos; Surpeta, Bartłomiej; Brezovský, Jan

doi:10.1093/bib/bbaa150

Cited by 46 publications

(32 citation statements)

References 178 publications

(175 reference statements)

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“…The new Zebra3D software complements our family of bioinformatic methods [52] that is being built around the Mustguseal protein alignment web-engine [39] and already includes sequence-based Zebra2/pocketZebra web-tools [14] , [79] to identify subfamily-specific determinants of functional diversity in protein sequences. We hope that a symbiosis of these tools will help to decipher the structure–function relationship, leading to the development of improved strategies for protein design and drug discovery [1] , [4] , [7] , [8] , [15] , [16] , [80] , [81] .…”

Section: Discussionmentioning

confidence: 99%

“…Bioinformatic analysis of “specific positions” in multiple sequence alignments – also known as subfamily/family-specific positions (SSPs) or specificity-determining positions (SDPs) – that are conserved only within subfamilies/families, but different among them, is a widely used class of computational approaches to study functional diversity in proteins [1] , [2] , [3] , [4] , [5] , [6] . Such SSPs/SDPs have both fundamental and practical value: they can help to understand how enzymes perform their natural functions, and can also be selected as hotspots for protein engineering experiments or as key residues involved in selective accommodation of ligand to assist drug discovery [7] , [8] .…”

Section: Introductionmentioning

confidence: 99%

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Bioinformatic analysis of subfamily-specific regions in 3D-structures of homologs to study functional diversity and conformational plasticity in protein superfamilies

Timonina

Sharapova

Švedas

et al. 2021

Computational and Structural Biotechnology Journal

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Bioinformatic analysis of subfamily-specific regions in 3D-structures of homologs to study functional diversity and conformational plasticity in protein superfamilies

Timonina

Sharapova

Švedas

et al. 2021

Computational and Structural Biotechnology Journal

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“…To provide our users with a more advanced description of their proteins of interest, we enriched the database by several important sequence- and structure-related information. These calculations were performed by HotSpot Wizard 3.0 ( 15 ), which is currently the only tool capable of deriving all these features in a single calculation ( 19 ) and provides machine-readable results. HotSpot Wizard was executed on a representative biological unit of each protein and provided the annotations for a structure, such as the residues located in protein pockets and tunnels, and a sequence, such as catalytic residues, evolutionary conservation scores, back-to-consensus mutations, and correlated pairs.…”

Section: Methodsmentioning

confidence: 99%

FireProtDB: database of manually curated protein stability data

Štourač

Dúbrava

Musil

et al. 2020

Nucleic Acids Research

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The majority of naturally occurring proteins have evolved to function under mild conditions inside the living organisms. One of the critical obstacles for the use of proteins in biotechnological applications is their insufficient stability at elevated temperatures or in the presence of salts. Since experimental screening for stabilizing mutations is typically laborious and expensive, in silico predictors are often used for narrowing down the mutational landscape. The recent advances in machine learning and artificial intelligence further facilitate the development of such computational tools. However, the accuracy of these predictors strongly depends on the quality and amount of data used for training and testing, which have often been reported as the current bottleneck of the approach. To address this problem, we present a novel database of experimental thermostability data for single-point mutants FireProtDB. The database combines the published datasets, data extracted manually from the recent literature, and the data collected in our laboratory. Its user interface is designed to facilitate both types of the expected use: (i) the interactive explorations of individual entries on the level of a protein or mutation and (ii) the construction of highly customized and machine learning-friendly datasets using advanced searching and filtering. The database is freely available at https://loschmidt.chemi.muni.cz/fireprotdb.

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“…Important computational tools for engineering enzyme function − among which is the goldstandard Rosetta toolbox [42] − have been reviewed [43,44]. Rosetta-based web tool FuncLib [13] [**] was specially designed to add multiple-point mutations to the binding site.…”

Section: Engineering Enzyme Activity and Specificitymentioning

confidence: 99%

Web-based tools for computational enzyme design

Marques

Planas-Iglesias

Damborský

2021

Current Opinion in Structural Biology

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Enzymes are on high demand for very diverse biotechnological applications. However, natural biocatalysts often need to be engineered for fine-tuning their properties towards the end applications, such as the activity, selectivity, stability to temperature or co-solvents, and solubility. Computational methods are increasingly used in this task, providing predictions that narrow down the space of possible mutations significantly and can enormously reduce the experimental burden. Many computational tools are available as web-based platforms, making them accessible to non-expert users.These platforms are typically user-friendly, contain walk-throughs, and do not require deep expertise and installations. Here we describe some of the most recent outstanding web-tools for enzyme engineering and formulate future perspectives in this field.

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Recent advances in user-friendly computational tools to engineer protein function

Cited by 46 publications

References 178 publications

Bioinformatic analysis of subfamily-specific regions in 3D-structures of homologs to study functional diversity and conformational plasticity in protein superfamilies

Bioinformatic analysis of subfamily-specific regions in 3D-structures of homologs to study functional diversity and conformational plasticity in protein superfamilies

FireProtDB: database of manually curated protein stability data

Web-based tools for computational enzyme design

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