Latest Articles for Molecular Biology

New findings reveal the roles and structures of KCTD proteins in cellular processes.

Research focuses on transforming forest Phytophthora for better management strategies.

Research reveals Pef1's role in cell lifespan and interactions during stress.

Exploring how estrogen affects gene expression and DNA structure in endometrial cancer cells.

This study reveals how genetic variants interact with genes through regulatory mechanisms.

AI is changing how researchers study plant proteins and their interactions.

Research using machine learning offers new insights into LTRs in plant DNA.

Damsel enhances DamID research with improved analysis and visualization.

New findings question the effectiveness of uORF-targeting ASOs in boosting RNASEH1 levels.

Research reveals how large molecules influence solution properties in crowded environments.

This study examines how conserved genes evolve in vertebrates and insects.

Research reveals mixed impacts of mistranslating tRNAs on fruit flies.

Exploring the role of acetylation in Ydj1 function and protein folding.

Research highlights significant RNA modifications in chloroplasts and their role in protein synthesis.

New methods improve RNA design for better stability and functionality.

Recent techniques improve our understanding of human DNA and gene regulation.

Study reveals how KSHV manages gene expression using complex regulatory elements.

New calibration method improves accuracy in studying biological molecules.

A new method enhances the accuracy of molecular diagnostics using artificial data.

A new cloning method streamlines protein production and purification in labs.

New methods enhance genome accuracy using long reads from PacBio and Oxford Nanopore.

Researchers develop a model that enhances stability in molecular dynamics simulations.

Study of how solvents influence molecular stability and interaction energy.

This study explores machine learning techniques to find new coagulant candidates.

Using analog quantum computing to improve water molecule predictions around proteins for drug design.

Investigating how alternative splicing aids adaptation in threespine sticklebacks.

Research reveals interactions in leukemia cell maturation pathways.

New methods reveal how chromatin organization affects gene expression.

Examining the role of exons in protein structure and evolution.

DeepKINET improves understanding of mRNA splicing and degradation rates in cells.

This article explores how proteins shape the body plan of Drosophila larvae.

Exploring how chromatin organization changes during DNA replication in eukaryotic cells.

Research reveals how RNA stability and processing affect gene expression.

Exploring the protective role of YBX1 and RNA in DNA damage response.

TERRA's presence in cytoplasm may influence cancer cell stress responses.

Research highlights the importance of balanced DNA copying for bacterial health.

Research reveals how enzyme movements impact their function and evolution.

New findings reveal dynamics of genetic structures in fruit flies.

Vimentin is key for cell movement in tissues, influencing healing and cancer spread.

Researchers develop a method to analyze RNA dynamics related to the cell cycle.