The dynamic landscape of peptide activity prediction

Oriol Bárcenas; Carlos Pintado-Grima; Katarzyna Sidorczuk; Felix Teufel; Henrik Nielsen; Salvador Ventura; Michał Burdukiewicz

doi:10.1016/j.csbj.2022.11.043

The dynamic landscape of peptide activity prediction

Oriol Bárcenas, Carlos Pintado-Grima, Katarzyna Sidorczuk, Felix Teufel, Henrik Nielsen, Salvador Ventura, Michał Burdukiewicz^*

^*Corresponding author for this work

Research output: Contribution to journal › Review › peer-review

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Abstract

Peptides are known to possess a plethora of beneficial properties and activities: antimicrobial, anticancer, anti-inflammatory or the ability to cross the blood-brain barrier are only a few examples of their functional diversity. For this reason, bioinformaticians are constantly developing and upgrading models to predict their activity in silico, generating a steadily increasing number of available tools. Although these efforts have provided fruitful outcomes in the field, the vast and diverse amount of resources for peptide prediction can turn a simple prediction into an overwhelming searching process to find the optimal tool. This minireview aims at providing a systematic and accessible analysis of the complex ecosystem of peptide activity prediction, showcasing the variability of existing models for peptide assessment, their domain specialization and popularity. Moreover, we also assess the reproducibility of such bioinformatics tools and describe tendencies observed in their development. The list of tools is available under https://biogenies.info/peptide-prediction-list/.

Original language	English
Journal	Computational and Structural Biotechnology Journal
Volume	20
Pages (from-to)	6526-6533
ISSN	2001-0370
DOIs	https://doi.org/10.1016/j.csbj.2022.11.043
Publication status	Published - 2022

Keywords

Peptides
Activity
Prediction
Functional peptides
Machine learning
Deep learning
Reproducibility

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title = "The dynamic landscape of peptide activity prediction",

abstract = "Peptides are known to possess a plethora of beneficial properties and activities: antimicrobial, anticancer, anti-inflammatory or the ability to cross the blood-brain barrier are only a few examples of their functional diversity. For this reason, bioinformaticians are constantly developing and upgrading models to predict their activity in silico, generating a steadily increasing number of available tools. Although these efforts have provided fruitful outcomes in the field, the vast and diverse amount of resources for peptide prediction can turn a simple prediction into an overwhelming searching process to find the optimal tool. This minireview aims at providing a systematic and accessible analysis of the complex ecosystem of peptide activity prediction, showcasing the variability of existing models for peptide assessment, their domain specialization and popularity. Moreover, we also assess the reproducibility of such bioinformatics tools and describe tendencies observed in their development. The list of tools is available under https://biogenies.info/peptide-prediction-list/.",

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AU - Bárcenas, Oriol

AU - Pintado-Grima, Carlos

AU - Sidorczuk, Katarzyna

AU - Teufel, Felix

AU - Nielsen, Henrik

AU - Ventura, Salvador

AU - Burdukiewicz, Michał

PY - 2022

Y1 - 2022

N2 - Peptides are known to possess a plethora of beneficial properties and activities: antimicrobial, anticancer, anti-inflammatory or the ability to cross the blood-brain barrier are only a few examples of their functional diversity. For this reason, bioinformaticians are constantly developing and upgrading models to predict their activity in silico, generating a steadily increasing number of available tools. Although these efforts have provided fruitful outcomes in the field, the vast and diverse amount of resources for peptide prediction can turn a simple prediction into an overwhelming searching process to find the optimal tool. This minireview aims at providing a systematic and accessible analysis of the complex ecosystem of peptide activity prediction, showcasing the variability of existing models for peptide assessment, their domain specialization and popularity. Moreover, we also assess the reproducibility of such bioinformatics tools and describe tendencies observed in their development. The list of tools is available under https://biogenies.info/peptide-prediction-list/.

AB - Peptides are known to possess a plethora of beneficial properties and activities: antimicrobial, anticancer, anti-inflammatory or the ability to cross the blood-brain barrier are only a few examples of their functional diversity. For this reason, bioinformaticians are constantly developing and upgrading models to predict their activity in silico, generating a steadily increasing number of available tools. Although these efforts have provided fruitful outcomes in the field, the vast and diverse amount of resources for peptide prediction can turn a simple prediction into an overwhelming searching process to find the optimal tool. This minireview aims at providing a systematic and accessible analysis of the complex ecosystem of peptide activity prediction, showcasing the variability of existing models for peptide assessment, their domain specialization and popularity. Moreover, we also assess the reproducibility of such bioinformatics tools and describe tendencies observed in their development. The list of tools is available under https://biogenies.info/peptide-prediction-list/.

KW - Peptides

KW - Activity

KW - Prediction

KW - Functional peptides

KW - Machine learning

KW - Deep learning

KW - Reproducibility

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DO - 10.1016/j.csbj.2022.11.043

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SN - 2001-0370

VL - 20

SP - 6526

EP - 6533

JO - Computational and Structural Biotechnology Journal

JF - Computational and Structural Biotechnology Journal

ER -

The dynamic landscape of peptide activity prediction

Abstract

Keywords

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