Latest Articles for Biotechnology

New methods improve antibody detection, aiding early cancer diagnosis.

Explore how surfactants influence products from soaps to pharmaceuticals.

EAGLE predicts gene behavior across fungi, advancing biotechnology applications.

Study shows quick sample handling improves HRD testing accuracy for better treatment decisions.

How machine learning is changing the game in antibody design and therapy.

New technique enhances gene editing in bacteria for various applications.

Exploring how GS regulates nitrogen use in organisms.

Explore how microbes stick and the antibodies that fight them.

Balancing scientific progress with the risks of genetic data misuse.

New methods promise faster insights into host-pathogen interactions for better vaccines.

Recent progress in RNA sequencing is enhancing gene analysis and transcript discovery.

VIPER enhances enzyme prediction accuracy for industrial applications.

Introducing RNA-TorsionBERT for improved RNA angle predictions and quality assessment.

Explore how ConSTRain advances STR analysis in health and agriculture.

New framework scNET enhances understanding of gene interactions and disease connections.

Scientists use Protein Language Models to reveal protein functions and connections.

Researchers develop new models to predict peptide stability for drug use.

Discover how lipid membranes protect and regulate cell functions.

Multi-V-Stain improves cancer tissue imaging using H&E images.

Discover how iModMix enhances the integration of multi-omics data for better insights.

Research reveals potential of microorganisms in producing valuable isoprenoids like bisabolene.

Research reveals how biomolecular condensates regulate gene expression in plants.

Discover a powerful new strategy for RNA sequence design and its implications.

AI is transforming antibody design for better disease treatments.

Learn how alpha-expansins help plants grow and adapt.

Researchers develop mini-TCR mimics to enhance cancer treatment effectiveness.

A new model revolutionizes how scientists predict protein-ligand interactions for drug development.

New red potassium indicators reveal insights into cellular processes and neuron activity.

Researchers use naked DNA to observe gene expression without harming animals.

FlowDock revolutionizes protein-ligand interactions for faster drug development.

Explore how genes control protein production in cells.

New methods improve functional data analysis by embracing flexibility and complexity.

Discover how nanobodies are transforming research and medicine.

Discover how liquids interact with surfaces and why it matters.

Discover how kinetic modeling transforms our understanding of biological processes.

Uncover the surprising roles of pseudogenes and non-coding RNAs in our DNA.

Researchers create new protein structures for diverse medical applications.

New tool SCOPER enhances RNA shape modeling using SAXS data and ion predictions.

Discover how scientists create and improve proteins for various applications.

Machine learning is changing how scientists count muscle stem cells.