Computational Approaches to Predict Protein–Protein Interactions in Crowded Cellular Environments
Investigating protein–protein interactions is crucial for understanding cellular biological
processes because proteins often function within molecular complexes rather than in …
processes because proteins often function within molecular complexes rather than in …
Bioorthogonal Chemistry in Cellular Organelles
V Šlachtová, M Chovanec, M Rahm… - Topics in Current …, 2024 - Springer
While bioorthogonal reactions are routinely employed in living cells and organisms, their
application within individual organelles remains limited. In this review, we highlight diverse …
application within individual organelles remains limited. In this review, we highlight diverse …
From Monomers to Hexamers: A Theoretical Probability of the Neighbor Density Approach to Dissect Protein Oligomerization in Cells
Deciphering the oligomeric state of proteins within cells is pivotal to understanding their role
in intricate cellular processes. With the recent advances in single-molecule localization …
in intricate cellular processes. With the recent advances in single-molecule localization …
From Molecules to Classrooms: A Comprehensive Guide to Single-Molecule Localization Microscopy
Single-molecule localization microscopy (SMLM) has revolutionized our ability to visualize
cellular structures, offering unprecedented detail. However, the intricate biophysical …
cellular structures, offering unprecedented detail. However, the intricate biophysical …
Advancements and Practical Considerations for Biophysical Research: Navigating the Challenges and Future of Super-resolution Microscopy
The introduction of super-resolution microscopy (SRM) has significantly advanced our
understanding of cellular and molecular dynamics, offering a detailed view previously …
understanding of cellular and molecular dynamics, offering a detailed view previously …