Latest Articles for Molecular Biology

A new method improves simulations in molecular energy transfer.

Research sheds light on chromatin organization and its role in cellular processes.

Learn how transposable elements influence genetic change and evolution.

Examining how heterochromatin affects the life cycle of Plasmodium falciparum.

Explore how the cell cortex and septins influence cellular processes.

Investigating how dGcn5 influences DNA damage repair and cell health.

Exploring the impact of preferred orientations in cryo-EM imaging.

An in-depth look at how ϕX174 controls gene expression.

Explore the relationship between protein domains and their interactions with drugs.

A new deep neural network model makes predicting molecular interactions more efficient.

Introducing SQUARNA, a promising method for predicting RNA secondary structures.

Examining how CMG helicase influences DNA replication and its impact on genetic stability.

Explore the significance of molecular physics in various scientific fields.

A new method enhances how we process complex data by recognizing symmetries.

Examining how low temperatures affect RNA folding and functionality.

Research reveals roles of transposable elements in zebrafish embryo development.

Researchers develop new Cre driver for precise gene control in zebrafish.

A look at how genes interact in different body tissues.

Discover DHARMA, a method transforming how we measure protein activities.

Research on cancer mutations reveals key findings for treatment and understanding.

Discover how DTT affects MGapt fluorescence in cell-free protein synthesis systems.

Exploring the roles and potential applications of circular RNAs.

Researchers improve circRNA techniques for better protein production and therapeutic uses.

Study reveals how protein binding affects gene expression during yeast mating.

Examining how TDP-43 protein modifications affect brain health.

Research explores how sparsentan interacts with the AT2R receptor.

Research highlights the function of small heat-shock proteins in preventing protein aggregation.

BLEEP enhances gene expression prediction from histology images with improved accuracy and efficiency.

Research reveals how ADD3 influences glioblastoma cell shapes and growth.

AFDB provides vital insights into protein structures, aiding research and drug development.

A study investigates the role of indels in mammalian evolution and protein sequence alignment.

Research advances targeted protein degradation methods for studying proteins and developing antibiotics.

Transposable elements significantly influence the evolution of eukaryotic genomes.

Investigating CFI complex components in Arabidopsis for mRNA processing and plant health.

WatGNN improves water position predictions around proteins for better research outcomes.

A new method improves CRISPR screening accuracy and reliability in gene discovery.

Researchers utilize generative models to study non-B DNA structures in genetics.

This study examines CPT1A and FOXM1's roles in colorectal cancer treatment resistance.

Molecular simulations are transforming how scientists develop new drugs by analyzing molecular interactions.

Study reveals the role of size and charge in bacterial particle movement.