Hurdles and advancements in experimental membrane protein structural biology.

Abstract

This short review article traces the evolution of membrane protein structural biology over time and describes various challenges faced and overcome by researchers in the field, highlighting some of the major breakthroughs and advancements in the field. It presents a thematic exploration of membrane protein structural biology emphasizing on persistent technical and conceptual challenges from protein expression to structural techniques shaping the field with landmark innovations advancing our ability to determine membrane protein structures. The review specifically focus on a few key areas: sourcing and expressing membrane proteins, developing purification strategies and membrane mimetics, and the emergence of powerful structural tools such as X-ray crystallography, cryo-electron microscopy (cryo-EM) and micro-electron diffraction (MicroED). Each section discusses major advancements addressing long standing bottlenecks and opening avenues to understand structure-function relationships in membrane proteins. Furthermore, it also briefly discusses the impact of important discoveries and future perspectives for the field. The review concludes by discussing current emerging frontiers in the field including in-situ structural methods, AI driven structure prediction and future directions for integrative and dynamic membrane protein research.