Latest Articles for Molecular Biology

Research reveals insights into chromosome behavior during cell division.

Linking molecular mutations to broader evolutionary patterns and biological systems.

A novel approach reveals complex gene interactions in live organisms.

New methods improve detection of RNA-protein interactions in bacteria.

TEA-GCN improves gene analysis using diverse data with enhanced accuracy.

Study reveals insights into oogenesis in Drosophila via actin mesh and protein interactions.

A new automated method enhances protein fitting from cryo-EM images, improving speed and accuracy.

Exploring how molecular networks produce essential biological molecules.

Learn how quantum tomography and ultrafast electron diffraction unveil molecular behavior.

Learn how liquid droplets influence chemical reactions in living cells.

Tiberius improves gene prediction accuracy using deep learning and biological context.

Examining how codon usage affects protein synthesis across species.

Investigating energy-relay proofreading's role in biological error correction.

Research reveals new insights into CFTR protein synthesis in cystic fibrosis.

RegDiffusion offers a new method for understanding gene interactions effectively.

Research reveals unique clippase activities in bacteria, impacting host interactions.

Researching key proteins that influence early mouse embryo development.

Learn how FinO-domain proteins influence bacterial responses through RNA binding.

Research highlights how Cse4 and its partners ensure proper chromosome separation during cell division.

PairK improves prediction of protein interactions by focusing on short motifs.

CRNDEUCE is crucial for ribosome production in renal cell carcinoma.

Explore the role of RNA binding proteins in bacterial gene expression.

New methods improve the understanding of protein interactions for drug discovery.

Research reveals RNA misfolding at low temperatures affects its function.

Investigating how specific proteins protect and repair lysosomes during cellular stress.

New framework enhances protein models using rich annotations for accurate predictions.

New methods improve accuracy in measuring tRNA levels within cells.

A comprehensive study on maize's genetic and regulatory networks.

Research reveals how Snail manages gene activity during cell development.

Study reveals how phase separation affects the structure of disordered proteins.

New method improves accuracy of molecular dynamics simulations under electric fields.

Research reveals how proteins transmit signals through structural changes.

Examining how green algae produce multiple proteins from a single mRNA.

Exploring how pressure influences the structure and function of a key protein.

Examining the role and mechanisms of potassium channels in cellular activity.

PTF-Vāc improves accuracy in predicting transcription factor binding sites across species.

Research reveals how CDHR1 and PCDH15 affect retinal health.

Streamlined techniques in k-mer analysis enhance sequence comparison efficiency.

Exploring how cells divide and differentiate during early development.

Explore how receptors and ligands shape cellular responses.