Latest Articles for Biotechnology

Study reveals how droplets behave on viscoelastic films in various conditions.

Glyceollins in soybeans offer health benefits and disease resistance.

SOFisher optimizes sampling strategies in spatial omics for impactful tissue analysis.

Research improves mannanase production, making palm kernel cake better for animal feed.

Pangene improves analysis of gene variations in humans and bacteria.

Introducing Dual-Space Optimization to enhance drug design processes.

New tools are helping scientists predict protein stability and its implications for health.

Exploring 3D BioFETs to enhance communication in organoid systems.

Exploring the potential of bioprinting in food production.

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

Brick-MIC offers a cost-effective, flexible microscopy platform for research and clinical use.

New methods improve accuracy in predicting protein-ligand interactions.

These unique microorganisms use magnetosomes to sense and navigate magnetic fields.

Scientists identify a new yeast species, Saccharomyces chiloensis, highlighting yeast diversity.

Scientists use computational methods to improve drug binding selectivity analysis.

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

Research into KRAS inhibitors highlights innovative approaches in drug discovery.

A new method addresses DNA data storage challenges for better reliability.

SimulKnock optimizes microbial design and fermentation processes for efficient chemical production.

Learn how DNA storage could change data archiving with variable payload lengths.

PEELing streamlines protein analysis, enhancing our grasp of cell biology.

iMatrix-511 shows promise in growing iPSCs without animal-derived components.

Caduceus improves genomic modeling by addressing DNA's complexities.

Recent methods improve protein design and functionality using computer techniques.

A new approach improves peptide drug design using AI and a comprehensive dataset.

Examining the roles of U2AF and DDX42 in RNA splicing.

New methods enhance the design process for DNA and protein sequences.

DMRIntTk improves detection of methylation changes linked to diseases.

DIAL enables precise gene activity adjustments for research and medical therapies.

New insights into how bacteria leave biofilms could improve infection treatment.

A new model improves understanding of protein interactions in different biological contexts.

Research explains a new approach to producing Olympic gels using DNA technology.

Study reveals how collector size influences fiber alignment in electrospinning.

An overview of the advances and hurdles in whole exome sequencing technology.

A look into phages, their types, and their influence on microbial life.

Discussing the benefits and challenges of using DNA for data storage.

An overview of how bacteria form and maintain biofilms.

Research on neoantigen-based vaccines aims to improve immune response against cancer.

Researchers develop a direct technique to measure how DNA bends.

Research reveals how surrounding sequences impact RNA hairpin structures.