Latest Articles for Molecular Biology

Discover the fascinating world of catenanes and their unique movements.

MrfB plays a crucial role in bacterial DNA repair mechanisms against damage.

This article explores how pathway modules assist in studying biochemical networks.

libLEARNA enhances RNA design efficiency and adaptability for diverse scientific needs.

RNA is key to understanding life's biological processes and functions.

GraphGANFed combines cutting-edge methods for molecule generation while ensuring data privacy.

Research highlights how GATAD2B-NuRD complex aids DNA repair mechanisms.

TIRR helps cells manage RNA during DNA repair.

Investigating the importance of INTS6 in maintaining DNA integrity and repair.

High-throughput techniques enhance understanding of gene expression and chromatin organization.

Exploring the significance of alternative splicing in health and disease.

New methods enhance the identification of mutations in genetic studies.

Transposable elements affect mosquito genetics, fitness, and health.

Examining how tRNA changes impact bacteria and infection.

Nucleosomes play a vital role in organizing and regulating DNA in eukaryotic cells.

Exploring how changes in the SCN2A gene impact sodium channel activity and health.

Research sheds light on how EVs impact cellular communication and disease.

New methods improve efficiency in modeling molecular interactions using active learning.

Reviewing AI methods for predicting protein behavior and their biological importance.

Study reveals MAP2Ks can use ADP, highlighting cellular energy adaptation mechanisms.

High AURKA levels may signal cancer's severity and treatment response.

Research reveals how ubiquitination affects nucleosome function and gene expression.

Exploring the role of diaminopurine in the origins of genetic material.

This article explores how STX17 is recruited during the autophagy process.

Recent findings challenge the roles of subtelomeric elements in yeast telomere stability.

Glycosylation is key to protein function and stability in living organisms.

Researchers develop small molecules to bind RNA and affect gene expression.

A groundbreaking model enhances molecular representation for drug development.

Research on glycan modifications shows promise for improved HIV vaccine strategies.

Research explores molecular motors that use electrical current for motion.

Research reveals interactions among transcription factors can enhance gene activity.

CENP-A placement is vital for accurate cell division and genetic inheritance.

Research reveals how PKA-C functions and impacts disease-related mutations.

Study reveals how NAGK modifications affect enzyme activity and protein interactions.

Research reveals an efficient method to predict coronavirus hosts from spike protein sequences.

Research on how Mis18 and PLK1 affect chromosome health during cell division.

A new method improves RNA sequencing by capturing a wider variety of RNA types.

New gene editing methods deepen understanding of SF3B1's impact on cancer.

Examining how heparan sulfates impact the growth and infection of EV-A71.

DiscoGen improves gene regulatory network analysis by cleaning noisy data for better inference.