Latest Articles for Biochemistry

An overview of how charged polymers interact with neutral particles.

Investigating introns reveals their impact on gene regulation and evolution.

Research sheds light on nanodiscs' structure and stability with apoE3.

Flavonoids are vital compounds that support plant health and survival.

New methods reveal how membrane proteins are made and inserted into cells.

Exploring cardiolipin's impact on mitochondrial health and related disorders.

Exploring the functions of CaSR in cellular signaling and calcium management.

Research on cytochromes reveals new designs for studying electron transfer.

Examining how particle movement affects chemical reaction rates.

New models improve predictions of metal ion locations in proteins.

New methods improve the accuracy of excitation energy calculations in chemistry.

This article discusses the roles and properties of structured RNA in biological systems.

Transcription factors can act as both activators and repressors in gene expression.

Advancements in protein research improve understanding of shapes and functions.

Recent studies reveal complex interactions of protons in acidic water.

This study uncovers the complexities of glycosaminoglycans and their biological significance.

Research using FragLites reveals key binding sites in CDK-cyclin complexes.

DANCE tool revolutionizes understanding of protein shape changes and functions.

Rac-1 shows promise as a new inhibitor for TDO2, aiding cancer therapies.

Study reveals distinct transport systems for cytokinin forms in plant growth.

Researchers improve enzyme activity through protein engineering and machine learning.

Proteins play a crucial role in sensing and altering cell membrane shapes.

An overview of how trypsin interacts with BPTI and its variants.

Exploring the effects of Rothschild hemoglobin on oxygen binding and health.

Researchers explore gene connections to plant nutrient absorption using advanced methods.

New approach reveals kinase dynamics and drug design insights.

Current methods using molecular fingerprints face significant limitations in drug development.

New insights into AcrA and its role in antibiotic resistance.

Researchers refine techniques for analyzing proteins from single cells.

Research reveals how MCL-1 protein dynamics have evolved across species over time.

Researchers study small molecules to learn about kinases and cell growth.

Researchers use machine learning to enhance drug development for anticholinesterase therapies.

Study of hSIDT1 sheds light on RNA transport mechanisms in cells.

New techniques improve imaging of small proteins using cryo-electron microscopy.

This study explores co-design to improve protein-ligand binding interactions.

Research reveals geometric factors influencing protein movement during DNA loop extrusion.

Study reveals how temperature and protein levels influence aqueous protein solution properties.

Study reveals complex roles of PUF proteins in RNA regulation and stem cell maintenance.

Research reveals Pef1's role in cell lifespan and interactions during stress.

A study reveals how rubber trees adapt to changing weather patterns in Colombia.