Latest Articles for Molecular Biology

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.

A new model improves the accuracy of simulations in biological systems.

AFMfit offers advanced methods for real-time analysis of biomolecules.

Bacteria can rapidly adapt through the movements of mobile genetic elements in their DNA.

This study explores how mutations in tumor suppressor genes affect cancer risk.

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

Combining structural and dynamic data reveals insights into molecular behavior.

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

Researchers reveal a nine-miRNA signature linked to liver cancer survival outcomes.

A look at tools for studying complex DNA sequences and their biological significance.

Research reveals the role of sfRNAs in flavivirus interactions with human proteins.

Exploring the role of Slc11 transporters in metal uptake and gut bacteria.

Centrosomes are key to proper cell division and maintaining genetic stability.

Research reveals potential roles of Vault RNAs in cell development and health.

Study reveals how gene duplication affects evolutionary changes in genes.

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

Exploring how neurons find their paths during development.

Researching how transcription factors interact with DNA to regulate gene expression.

Brachyury's impact on cancer, especially chordoma, reveals new treatment possibilities.

MORC proteins play key roles in gene expression and silencing mechanisms.

Research reveals oxybutynin's crystal structure, aiding future bladder medication development.

Researchers develop MARS, enhancing protein movement control in mitosis.

SRSF2 is vital for the proper formation of skeletal muscles.

A tool for efficient atomic interaction modeling in materials science.

This article explores the vital function of DBD-α4 in Ewing sarcoma development.

Combining 2D and 3D models boosts molecular property prediction accuracy.

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

New mathematical models enhance our view of DNA's intricate shapes.

Exploring new methods to improve protein structure alignment in molecular biology.

Combining machine learning and OFDFT enhances molecular analysis efficiency and accuracy.

Research reveals the role of CMA in sperm health and quality in zebrafish.

New methods offer insights into protein interactions and mutation impacts.

Research reveals key enhancer activity in oesophageal adenocarcinoma and its treatment response.

Investigating how non-coding genetic changes affect diseases like CCDDs.

Research reveals the importance of short peptides in cellular processes and immune responses.

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

Study reveals key changes in mitochondrial function during early embryo stages in zebrafish.

This article explores how cells manage RNA production after DNA damage.