Latest Articles for Molecular Biology

New methods improve gene expression analysis in tissues.

DDX3X and DDX3Y genes show unique interactions affecting gene expression.

Research highlights how curvature sensing proteins adapt to changes in cellular membranes.

Research reveals BRAT1's role in glioblastoma treatment strategies.

Discover how molecular docking and quantum computing improve drug development.

Research focuses on NOTCH2’s role in cancer drug resistance and potential treatments.

New methods improve accuracy in predicting protein-ligand interactions.

UPF1 plays a key role in mRNA decay and mitochondrial function.

Research reveals SIRT2's role in managing fat creation through acetylation and degradation of ACSS2.

Heterochromatin positioning is key to gene expression and cell differentiation.

Exploring the significance of meiotic recombination in genetic diversity.

CXCL14's role in cancer growth and immune response is crucial for new therapies.

Research reveals mechanisms of magnesium-dependent nucleases in DNA processes.

Learn how Msc1 and ESCRT-III protect the nuclear envelope during DNA repair.

KLF6's impact on blood vessels in PAH is crucial for potential treatments.

Learn how septins influence cell division and other vital processes.

CParty offers improved methods for predicting complex RNA structures, aiding scientific research.

Research connects telomere length measurement and chromatin accessibility in cellular functions.

Investigating the roles of TAK1 and PLCE1 in esophageal squamous carcinoma.

New findings reveal how gene clusters enhance gene expression through protein interactions.

Researchers introduce MPAQT, combining sequencing methods for better transcript isoform analysis.

Exploring the vital role of RNA splicing in gene expression and disease.

Study reveals diversity and role of TAPs in evolution.

Recent methods improve protein design and functionality using computer techniques.

Exploring the functions of hATG8 proteins beyond autophagy.

Examining the roles of U2AF and DDX42 in RNA splicing.

Helicases are essential proteins that unwind DNA for replication, crucial for cell division.

This study reveals how gene expression drives angiosperm adaptation and diversity.

New methods improve identification of protein interactions in scientific literature.

Nonspecific RNA polymerases buffer gene expression in bacteria, stabilizing resources.

A model integrates knowledge from molecules to improve predictions in science.

New insights into how actin influences organelle behavior and implications for health.

Recent research uncovers connections between RNA transcription and splicing processes.

Research reveals how orthohantaviruses manipulate host cells for replication.

WaveTAD enhances understanding of DNA's 3D structure and gene regulation.

A new dataset improves assessment of molecular knowledge in language models.

A new method for better understanding complex molecules using motifs and graphs.

smLiveFISH allows real-time tracking of RNA movements without altering them.

Learn how cells control gene activity for proper functioning and development.

Exploring the role of CTCF in cellular ageing and gene expression.