Latest Articles for Molecular Biology

New method to find recent DNA changes and transposable elements in various species.

This article examines how substitutions and deletions in DNA affect protein function.

New methods improve the study of kinase activity in diseases.

Transposable elements play vital roles in genetic diversity and evolution.

Learn how uORFs help bacteria adapt to stress and antibiotics.

Research explores HER2's role in prostate cancer resistance and potential treatment strategies.

This study investigates how SntB affects growth and toxin production in Aspergillus flavus.

Study reveals insights into gene duplication impacts on evolutionary traits.

Study examines the impact of 14-3-3 proteins on plant stress responses.

Researchers reveal a new approach to study protein shape changes and allostery.

Research reveals how ERK5 influences stem cells and potential links to cancer.

New tool simplifies primer design for FastCloning, boosting research efficiency.

Understanding how enhancers and insulators interact for gene regulation.

A novel approach enhances understanding of gene expression in zebrafish development.

DualNetGO improves protein function predictions using advanced algorithms and diverse data sources.

GET enhances understanding of transcription factors in various human cell types.

Enhancing computer animation realism through charged mass-spring systems.

New findings reveal crucial roles of SEM-2 in muscle cell formation.

Study reveals how machine learning enhances predictions of Raman spectra for amino acids and peptides.

Exploring how cells manage DNA damage during replication stress.

A fresh approach to examine the behavior of membraneless organelles in cells.

A new model enhances the prediction of circular RNA structures, improving accuracy and efficiency.

This study explores how active droplets move and function within cellular environments.

Research reveals mechanisms behind cellular responses to DNA breaks.

Nanotiming simplifies DNA replication timing studies with low-cost, high-resolution profiles.

Research reveals vital information on gene activity in response to treatments.

Research reveals how loop extrusion and condensates organize DNA for efficient gene expression.

R2Dtool simplifies RNA feature analysis and visualization for better understanding of gene regulation.

Exploring how glycosylation impacts protein behavior and interactions.

Study reveals complexities of genetic recombination in sperm samples.

Discover the mechanisms behind neuron spacing and connection in the brain.

BacTermFinder improves predictions of transcription termination sites in bacteria.

A new method improves cell segmentation for better tissue studies.

Examining how ubiquitination affects neurotransmitter release and neuronal signaling.

Pangene improves analysis of gene variations in humans and bacteria.

Study reveals how genetic variations influence growth under various conditions.

Research improves understanding of molecular movement in the brain's extracellular space.

Introducing Dual-Space Optimization to enhance drug design processes.

Study reveals the roles of Spt6p and Tom1p in transcription regulation.

Insights into the role of protein arrangements in biological functions.