Latest Articles for Molecular Biology

Exploring how calcium influences ATP production in cellular processes.

New tool improves identification of transposable elements in various genomes.

Rtt107 is vital for DNA repair and maintaining genomic stability.

WRN protein is crucial for repairing DNA double-strand breaks.

Research reveals the role of Ssr1238 in regulating RNA and gene expression.

Investigating IL37's structure reveals potential for new anti-inflammatory treatments.

AXSI reveals precise molecular distances in proteins like MalE.

Researchers explore various methods for effective RNA-Seq data analysis.

StackCBEmbed enhances accuracy in predicting protein-carbohydrate binding sites.

Faf's role in the Hippo pathway is crucial for tissue growth control.

Genome-Shuffle-seq offers new insights into structural variations and their impact on genetics.

Research reveals how serotonin affects animal boldness and risk-taking behaviors.

NHL-2 is crucial for miRNA function and gene regulation during development.

A new method using PF127 enhances observation of biomolecular condensates.

NPM1 protein's significance in cell processes and interactions with 14-3-3 proteins.

BAR proteins shape cell membranes, influencing multiple cellular functions.

Insights into spindle dynamics and nuclear envelope interactions during cell division.

FlexVDW improves drug design by accounting for protein flexibility during ligand docking.

Exploring the intricate connections between viruses and human proteins for better health strategies.

New methods clarify complex protein-metabolite interactions in bacterial metabolism.

Research reveals TRIM66's impact on sperm function and offspring weight.

Investigating Set1's crucial role in germline stem cell maintenance and its implications for disease.

Study reveals how SARS-CoV-2 interacts with ACE2 proteins across species.

Explore how estrogen impacts gene expression through various regulatory elements.

Examining how loops in chromosomes influence DNA organization and gene expression.

New light technology improves detection of chiral molecules in research and pharmaceuticals.

New findings on CHEK2 variants enhance cancer risk assessment.

Homologous recombination is key to DNA repair and genetic diversity in living organisms.

New modeling approach improves understanding of zinc protein interactions.

A novel approach improves imaging and tracking precision in molecular research.

Harnessing transfer learning for efficient molecular dynamics simulations.

TISM streamlines analysis of genomic data through efficient nucleotide evaluation.

Researchers develop stronger methods for manipulating chiral molecules using principles from Velella velella.

New methods enhance accuracy and speed in atomic simulations.

New insights into how BKCa channels affect breast cancer cell growth and energy use.

Examining how Imatinib selectively targets the Abl kinase over Src.

New models predict how transcription factors bind to DNA, aiding disease research.

PIMENTA improves species identification in environmental samples using DNA readings from MinION.

A new method for better molecule representation in drug design.

Research enhances understanding of early mammalian cell type development using advanced models.