Latest Articles for Molecular Biology

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.

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

Exploring how Condensins and Cohesins shape DNA structure for cellular function.

A look into the mechanisms and controls of DNA replication.

GRIT offers insights into gene functions and interactions using individual cell data.

This article discusses the benefits and methods of DNA fragmentation for sequencing.

Research on cytochromes reveals new designs for studying electron transfer.

How proteins coordinate to ensure successful crossover during meiosis.

Research reveals how genetic differences influence health through gene expression and splicing.

Plants use DNA methylation to control transposable elements and maintain genome stability.

STAG3 protein shapes gene expression and cell identity in stem cells.

Research reveals key proteins that influence the size of synaptic vesicles in nerve cells.

Exploring how morphogens guide cell behavior in zebrafish embryos.

Learn how RNA polymerase II shapes gene expression through termination mechanisms.

Learn how nanopore technology helps analyze DNA and its interactions with ions.

RC flow simplifies the analysis of complex molecular systems using key reaction coordinates.

Discover how wtf genes challenge the rules of inheritance in fission yeast.

AFsample2 enhances protein shape predictions through innovative sampling methods.

New computational methods improve mRNA design for vaccines and therapies.

Surforama improves analysis of membrane proteins using cryo-electron tomography.

New models enhance predictions for protein fitness and design.

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.

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.