Structural biology techniques have advanced dramatically, revolutionizing our understanding of biological macromolecules. Achievements such as the structural elucidation of large complexes and intrinsically disordered proteins, accurate characterization of protein-nucleic acid interactions, and refinement of atomic-resolution structures, have become increasingly feasible due to continuous methodological innovations.
This Research Topic titled "Methodological Advancements and Improvements in Structural Biology" focuses on recent advances and enhancements in structural biology methodologies, emphasizing novel approaches, refinements of existing techniques, and integration of complementary computational methods. With this collection we aim to promote the advancement, accessibility, and integration of structural biology techniques, providing tools that efficiently capture and interpret the rich structural complexity of biological macromolecules.
Structural biology techniques have advanced dramatically, revolutionizing our understanding of biological macromolecules. Achievements such as the structural elucidation of large complexes and intrinsically disordered proteins, accurate characterization of protein-nucleic acid interactions, and refinement of atomic-resolution structures, have become increasingly feasible due to continuous methodological innovations.
This Research Topic titled "Methodological Advancements and Improvements in Structural Biology" focuses on recent advances and enhancements in structural biology methodologies, emphasizing novel approaches, refinements of existing techniques, and integration of complementary computational methods. With this collection we aim to promote the advancement, accessibility, and integration of structural biology techniques, providing tools that efficiently capture and interpret the rich structural complexity of biological macromolecules.