Latest Articles for Molecular Biology

Study reveals essential roles of miR-290 and miR-302 in generating induced pluripotent stem cells.

A new approach reveals how proteins function in natural environments.

Research unveils a method to analyze DNA replication with improved accuracy.

This study examines vimentin's role in maintaining cell stability and integrity.

A look into the APC/C and its role in cell division.

Research reveals complex organization of mitochondria in green algae.

GAGases show diverse enzyme capabilities in breaking down glycosaminoglycans and alginate.

Exploring mechanisms that help organisms tolerate dry conditions.

A new tool enhances accuracy in gene expression studies by filtering ambient RNA.

Kainate receptors, particularly GluK1, are vital in brain signaling and development.

New algorithm enhances crosslinking mass spectrometry for protein analysis.

A new tool helps predict hidden gene activity in synthetic biology.

Research reveals how Cas9 variants protect bacteria from viral attacks.

Explore how integrative and conjugative elements impact bacteria and antibiotic resistance.

Glycans are vital for the infection process and immunity in beta-coronaviruses.

A new approach combines CRISPR and barcode technology to study gene activity.

Discover how machine learning enhances gel electrophoresis for biomolecule analysis.

tRNA is vital for protein production during the growth of neurons.

Study highlights how p53 mutations affect breast cancer cell behavior.

Analyzing RNA structure dynamics for better biological understanding.

Study uncovers RNA binding proteins' roles in liver cancer and potential therapies.

Exploring how heterochromatin and proteins influence gene expression and genome stability.

Exploring the evolution and future potential of protein design in various fields.

Study reveals how wtf genes influence meiotic drivers in fission yeast.

An overview of DNA replication processes, modifications, and their significance in human cells.

Study reveals insights into the role of enhancers in gene activity regulation.

RNA does more in the cell nucleus than making proteins.

This research reveals how noncoding genetic variations impact health and disease.

Researchers use AI to enhance proteins for harsh industrial environments.

Pcbp1 is crucial for regulating Oct4 and maintaining stem cell identity.

New model predicts S-palmitoylation sites in proteins, enhancing understanding of protein modifications.

New tools reveal how motor proteins transport cargo and the impact of mutations.

An overview of tRNA functions and their significance in proteins.

This study uses SAXS and SANS to analyze RNA:RNA interactions.

Investigating the role of the Evening Complex in plant temperature adaptation.

Explore how DNA's topology influences cellular functions and biological processes.

A new system for regulating gene expression in yeast shows promising results.

A new framework for guiding generative models to achieve specific outputs.

MATES offers a novel approach to study transposable elements at the single-cell level.

Researchers unveil efficient techniques to study histone modifications impacting gene expression.