Latest Articles for Biotechnology

Research on chimeric organs offers hope for organ transplant shortages.

CollectNET simplifies the study of cell interactions for researchers.

Cyanobacteria can drive renewable energy through efficient photosynthesis and innovative biotechnological applications.

Research reveals insights into microbial roles in medium-chain carboxylate production.

Local Spatial Gradient Inference offers a fresh look at tumor cell interactions.

CELL-E model enhances predictions of protein locations within cells based on sequences and images.

IMPC studies gene mutations in mice to understand gene functions.

New method enhances peptide identification through multiple database searches.

Language models may reshape genetic sequence generation and analysis.

Exploring the potential of living cells for computational tasks and advanced genetic circuits.

Researchers make strides in synthetic yeast genome manipulation and gene regulation.

Learn how transposable elements influence genetic change and evolution.

A new model for generating biological sequences and solving complex puzzles.

Study compares prostate cancer cell lines to patient data for better drug research.

BioCLIP combines protein sequences and structures for better understanding.

New techniques enhance engineered cell therapies through MESA receptor development.

New models are changing how we study proteins and their interactions.

Scientists are making strides in lab-grown meat technology for ethical food sources.

PreTSA enhances efficiency in studying gene activity patterns in cells.

Research reveals potential of lichen-derived compounds and their unique enzymes.

New methods improve gene interaction analysis from single-cell RNA sequencing data.

Research reveals valuable insights into gene regulation in Curvibacter sp. AEP1-3.

Discover DHARMA, a method transforming how we measure protein activities.

Discover how DTT affects MGapt fluorescence in cell-free protein synthesis systems.

Researchers improve circRNA techniques for better protein production and therapeutic uses.

Study reveals how protein binding affects gene expression during yeast mating.

Research on gene expression in plants enhances crop health and immune response.

New methods streamline the process of designing effective proteins with fewer resources.

AFDB provides vital insights into protein structures, aiding research and drug development.

Researchers are improving DNA storage methods for efficient data management.

Multicopy genes are vital for plant adaptation and resilience.

A novel system for efficient gene interaction screening shows promise in targeted cancer therapies.

A new method improves CRISPR screening accuracy and reliability in gene discovery.

New optimization methods are reshaping protein design for better accuracy and efficiency.

Learn how amphiphilic nanocubes self-assemble and their potential applications.

Bacterial genomes face unique challenges affecting gene expression due to tight arrangements.

New insights into FLAG-tag interactions enhance protein research capabilities.

Discover how MPP8 maintains genetic stability by regulating transposable elements.

Discover how machine learning is transforming protein engineering and directed evolution.

DSSI cross-linker enhances protein analysis, revealing new insights into protein interactions.