Abstract
General principles governing biomolecular interactions between species are expected to differ significantly from known principles governing the interactions within species, yet these principles remain poorly understood at the systems level. A key reason for this knowledge gap is the lack of a detailed three-dimensional (3D), atomistic view of biomolecular interaction networks between species. Recent progress in structural biology, systems biology, and computational biology has enabled accurate and large-scale construction of 3D structural models of nodes and edges for protein–protein interaction networks within and between species. The resulting within- and between-species structural interaction networks have provided new biophysical, functional, and evolutionary insights into species interactions and infectious disease. Here, we review the nascent field of between-species structural systems biology, focusing on interactions between host and pathogens such as viruses.
Highlights
Protein–protein interactions (PPIs) can be divided into two fundamentally different classes
The resulting host–pathogen and within-host structural interaction networks enable the discovery of new principles of host–pathogen interactions that are otherwise hidden in the binary PPI network
This review focuses on high-throughput mapping and large-scale analysis of host–pathogen PPI networks, which reveal global trends and patterns in host–pathogen interactions that are minimally confounded by investigator biases
Summary
Protein–protein interactions (PPIs) can be divided into two fundamentally different classes. Recent progress in structural biology, systems biology, and computational biology has enabled accurate and large-scale construction of 3D structural models of nodes and edges for protein–protein interaction networks within and between species. We review the nascent field of between-species structural systems biology, focusing on interactions between host and pathogens such as viruses.
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