Latest Articles for Molecular Biology

Research reveals MCPyV's role in skin cancer and immune response.

Study assesses structural alignment tools for predicting protein interactions.

Examining how Spirodela manages transposable elements and their evolutionary implications.

A new method combines protein sequence and shape for better mutation predictions.

VSS-Hi-C improves the analysis and visualization of chromatin data.

Lute enhances accuracy in estimating cell types by accounting for size variations.

Research reveals structural details of parechoviruses and their 2A proteins.

Exploring the importance of repetitive sequences in DNA function and regulation.

Examining Hsp90's movement can lead to better cancer treatments.

Examining GPCRs and their role in cell signaling for improved drug therapies.

Research highlights how BLM and RAD54L2 work together to fix DNA damage.

K-mer methods play a key role in genomic studies and data analysis.

Learn how ASOs are reshaping gene regulation and treatment options.

Research uncovers how NYN protein aids crRNA processing in bacterial immune systems.

Meiotic recombination shapes genetic diversity and influences evolution in species.

Explore the role of centrosomes and their components in cell division.

Exploring how STING influences immune responses and its implications for various diseases.

ScPAFA speeds up understanding of cellular pathways and diseases.

T42A mutation alters SHP2's binding and recognition, influencing disease development.

Study reveals HCN and HNC reaction dynamics with hydrogen at low temperatures.

Dicer is key in regulating RNA and gene expression in living organisms.

The study reveals essential proteins for MCM complex loading on DNA.

ARTEMIS improves RNA structure comparison and analysis, revealing insights into non-coding RNAs.

Explore the methods and significance of gene expression analysis in health and disease.

Explore the roles of CpG islands and non-methylated islands in gene regulation.

Research reveals the crucial role of the Xer system in bacterial DNA management.

Guanidine-IV riboswitches regulate gene expression by changing shape in response to guanidine.

Nova-ST enhances spatial transcriptomics for better RNA analysis in tissues.

A look into DNA licensing and its significance in cell division and disease.

Discover how enzymes evolve and perform similar tasks across different species.

Research reveals complex protein movement within the Golgi, challenging old models.

New methods improve understanding of protein structures and classifications.

Investigating how CDX factors influence spinal cord development in mammals.

CircRNAs are vital for gene regulation and synapse development in the brain.

A study revealing key differences in scRNA-seq data analysis tools.

piRNAs help control transposable elements, impacting reproduction in eukaryotic organisms.

AAontology refines amino acid scales for better protein research applications.

Adaptive Digital Tissue Deconvolution improves accuracy in bulk transcriptomics analysis.

Cortexa simplifies study of gene expression and splicing in mouse brains.

This article explores the properties and potential of switchback DNA in nanotechnology.