Latest Articles for Molecular Biology

RBMX plays a crucial role in gene splicing and maintaining genome stability.

Researchers developed a method to create diverse 3D molecules using existing shapes.

A new method improves the selection of canonical protein isoforms.

This study explores the role of HCMV miRNAs in latency and reactivation.

New insights into protein movement and crossover formation in reproductive cells.

Research reveals new binding sites for transcription factors in E. coli.

A look at energy conversion processes in small systems like molecular motors.

Histones play a crucial role in DNA organization across living organisms.

Learn about gene set analysis and its methods for gene expression data.

Examining how SWI/SNF complexes affect gene expression in plant growth.

Examining how DNMT3A and DNMT3B interact differently with DNA.

Examining the roles of Prom1 and Ttyh1 in cell membrane dynamics.

New synthetic promoters show potential for enhanced protein production in yeast.

New computer models and imaging tools enhance understanding of cell dynamics.

Study reveals small RNAs' impact on fungal stress response and growth stages.

Explore how 3' UTRs affect RNA behavior and gene expression.

ATM simplifies predicting binding energy for drug discovery.

This study reveals key roles of lncRNAs in blood vessel development.

Researchers simplify genetic manipulation of S. pneumoniae, enhancing study of bacterial infections.

Research reveals diverse RNA types linked to brain health and disorders.

Research reveals mtDNA damage linked to oxidative stress in oral squamous carcinoma.

AlphaFold3 enhances our understanding of protein structures and interactions for medical advancements.

Researchers combine classical methods with machine learning for better molecular predictions.

A new dataset aims to improve drug discovery predictions.

TTN5 is a key GTPase influencing plant development and cellular processes.

Explore how DNA supercoiling impacts gene expression in bacteria.

Discover how riboswitches control gene expression based on nutrient availability.

Learn how promoters and enhancers impact gene regulation in living organisms.

PCBS streamlines the analysis of DNA methylation data for researchers.

An overview of how charged polymers interact with neutral particles.

This article examines how BMP and Chordin influence body formation in animals.

Investigating introns reveals their impact on gene regulation and evolution.

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

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

This study reveals how neuropilins and plexins regulate Wnt signaling pathways in cells.

Research reveals insights into how transcription factors influence gene expression variability.

A new study reveals the complex roles of transcription factors in controlling gene expression.

Recent studies on A. thaliana genomes enhance our understanding of genetic variation.

This article examines fluctuations in gene expression within feed-forward loops.

This article explores how the Golgi apparatus contributes to cell movement.