Latest Articles for Molecular Biology

Cholesterol significantly influences G protein-coupled receptors and their role in drug responses.

FHOD3L is crucial for forming muscle cell structures essential for contraction.

Learn how cells coordinate in Drosophila wings.

A new model improves predictions of where proteins bind, aiding drug discovery.

CAT tails are crucial for protein quality control in cells.

Research reveals how proteins Cdc24 and Rga2 regulate Cdc42 activity in yeast.

Research improves single-molecule fluorescence imaging by boosting signal detection methods.

CytoLNCpred improves predictions of long non-coding RNA locations in cells.

New combination therapies show promise in improving cancer treatment outcomes.

A new approach to study ligand-receptor interactions in various animals.

New tools improve RNA structure predictions and help identify false homologs.

Study refines methods for peptide measurement and degradation in biological samples.

A study reveals new insights into the DNA replication process.

New insights on AlphaFold's ability to predict protein structures and its limitations.

Investigating how transposable elements influence genetic functions and health.

New methods shed light on the importance of G-quadruplexes in gene expression.

Lysosomes play a key role in cellular health and brain function.

Research reveals optimal sequencing depth for detecting alternative splicing in human tissues.

Chai-1 predicts biomolecule shapes, enhancing drug design and biological research.

Study reveals gene expression shifts in bacteria under temperature stress.

Research on asymmetric cell division reveals insights into cell specialization and evolution.

Exploring how West Nile Virus uses frameshifting to produce proteins.

A look at how JEV evades host defenses to persist.

Riboswitches sense molecules to control gene expression, revealing new research avenues.

Learn how DAG and Dip2 influence cell signaling and health.

Research uncovers new sulfation sites, enhancing protein functional understanding.

Study reveals how protein interactions in piRNA pathway adapt over time.

Study reveals how cells adapt through genetic changes in response to protein loss.

Researchers reveal advancements in studying nuclear behavior during cell development.

KinPFN uses deep learning to speed up RNA folding analysis.

Study reveals how DNA replication handles tension and stability issues.

Research highlights the role of phospholipids in GPCR function using lipid vesicles.

A critical look at current methods for studying gene regulation.

New research reveals Xist's influence on genes beyond the X chromosome.

Exploring how cryptic pockets in proteins influence drug development efforts.

Research shows lipids can influence adenylyl cyclase activity and cAMP production in cells.

PSALM improves protein domain predictions through innovative modeling techniques.

Explore how untranslated regions affect RNA stability and gene expression regulation.

This study examines how microhomology affects immune receptor diversity.

Research reveals how torsion affects RNA polymerase action during transcription through chromatin.