Abstract
The development of high-throughput technologies that expedite the discovery of interactions between proteins has made it possible to screen entire genomes and produce large protein-protein interaction (PPI) datasets. The availability of these datasets is now enabling researchers to perform PPI data mining activities of theoretical and practical importance, including prediction of novel PPIs and protein function, sub-cellular localization of proteins, and construction of reasonably realistic, proteome-wide PPI networks. Most newer methods of in silico PPI prediction hinge upon conserved sequence signatures discovered through the analysis of a large PPI dataset, although some methods attempt to improve predictive accuracy through the incorporation of additional biological information and/or multiple datasets. Though the protein interaction networks constructed to date do not provide a truly realistic picture of biological network mechanisms, they are functional in the sense that they have enabled researchers to test the reliability of high-throughput data, predict protein function, and localize proteins within the cell. All PPI data mining activities are constrained by the quantity and quality of the PPI data currently available. Consequently, the reliability of predictions based on PPI data is expected to increase as PPI databases increase in size and taxonomic range.
Keywords: Protein-protein interaction, data mining, proteomics, in silico prediction, protein network
Call for Papers in Thematic Issues
AI-Based Prediction of Functional Proteins
Functional proteins are vital molecules involved in a variety of physiological and pathological processes within the body. Understanding the relationship between protein structure and function is key to unraveling the mechanisms of life sciences, disease processes, and drug discovery. However, traditional experimental methods are often time-consuming, costly, and constrained by ...read more
Application of Large Language Models in Bioinformatics
Large language models (LLMs) are increasingly transforming the field of bioinformatics by enabling scalable, data-driven solutions to complex biological and biomedical challenges. Recent advances in domain-specific foundation models have shown strong performance across a wide range of applications, including protein structure and function prediction, gene annotation, drug discovery, multi-omics data ...read more
Hot Topics in Computational Genomics
Computational genomics has emerged since the beginning of the 21st century. Recently, along with the sequencing technology at single-cell level, computational genomics step forward to the level of singe-cell resolution. Several topics are well studied in this area. Several other topics are still challenging tasks for bioinformatics. This thematic issue ...read more
Related Books
Smart Technologies for Transforming Next-Generation Agriculture: Deep Learning, IoT and Blockchain
Cell Biology: Basics to Breakthroughs
Advanced Liposome Technologies: Preparation, Mechanisms, and Applications
Microbial Insights into Wastewater Treatment and Environmental Sustainability
Biological Control for Plant Protection: Recent Advances in Research and Sustainability
From Genes to Algorithms: Navigating the Biotechnology Data Revolution
Phytochemical Arsenal: Understanding Plant Defense Mechanisms Against Nematodes
Controlled Environment Horticulture: Where Plant Biotechnology Meets Sustainable Future
Genetic Diversity of Coronaviruses: From SARSCoV to SARS-CoV-2 – (Part 2)
Wild Vegetables: Morphology, Phytochemistry and Utility - (Part 2)
14