Latest Articles for Molecular Biology

A deep learning model designed to optimize codon usage across various organisms.

An overview of protein folding and its significance in biological functions.

This article explores the role of transcription factors in gene regulation and plant development.

A deep dive into protein folding and structure prediction.

Exploring the mechanisms and dynamics of gene expression in living organisms.

Exploring nuclear pore complexes and their impact on RNA transport and cellular health.

New models enhance protein analysis accuracy for research applications.

New insights into RNA interactions could lead to better drugs for bacterial infections.

This study introduces a method to analyze complex biological datasets effectively.

A new tool reveals complex chromatin structures in individual cells.

A new method enhances the accuracy of 3D reconstructions in cryo-electron microscopy.

New methods enhance LIR identification in selective autophagy processes.

Researchers use advanced imaging techniques to track barium ions in xenon gas.

Research reveals insights into DNA repair processes and their impact on gene editing.

Examining the role of splicing factors and KRAS in lung cancer development.

Cohesin is key to crossover formation during meiosis, ensuring genetic stability.

New method improves drug candidate generation through AI and property prediction.

New research highlights a method to boost chemotherapy effectiveness using TopBP1 condensates.

New techniques improve nuclear spin measurements in solid samples.

Study reveals how active forces influence movement of charged macromolecules.

Research reveals complex organization of DNA during cell cycle transitions.

Learn how chromosome organization impacts cell health during division.

SOX2 significantly influences tumor growth and treatment resistance in colorectal cancer.

Transposable elements play complex roles in genome evolution, balancing benefits and risks.

This article examines the connection between cell aging and cancer mechanisms.

Discover how water influences protein structure and behavior.

New methods improve RNA structure prediction and engineering through advanced machine learning techniques.

New methods improve accuracy in sequencing RNA molecules, aiding biological studies.

Research reveals the complex links between transcription and histone changes.

Study reveals how Su(H) influences transcription during Drosophila development.

Study reveals link between mitochondrial DNA repair genes and cancer treatment.

Top3β is crucial for RNA stability and brain function.

COMPASS method addresses noise issues in molecular docking, enhancing drug discovery.

A look at how gene regulation controls transcription processes.

BICePs improves molecular behavior predictions by refining model parameters using experimental data.

Research uncovers the role of ANP32 proteins in influenza and thogotoviruses.

Explores how DNA methylation affects gene expression and metabolic pathways in cyanobacteria.

Discover how proteins influence crossover events in meiosis and their impact on fertility.

Exploring the role of Bam and Rbp9 in stem cell differentiation.

This study sheds light on RdRp's significance in human norovirus replication.