Latest Articles for Biotechnology

Discover how microbes shape the lives of insects and their survival.

PLAID simplifies protein design, merging sequence and structure for targeted applications.

Uncovering the secrets of tiny creatures with cutting-edge techniques.

A look at how SBMO advances drug design by refining molecular candidates.

Discover how DoRIAT enhances T cell-mediated immunity studies.

Researchers develop a new benchmark for studying low-frequency somatic mutations in genetics.

Discover how high-throughput screening transforms our understanding of genes and diseases.

Learn how enzymes tackle pollution and promote environmental recovery.

Scientists are reshaping yeast genomes to unlock new capabilities.

Tokenvizz revolutionizes genetic data analysis with innovative graph modeling techniques.

R-loops are key structures in gene regulation during transcription.

CAP method streamlines cell tracking, enhancing research efficiency.

Learn how CRISPR and anti-CRISPR technologies are shaping biotechnology.

DIANovo enhances peptide detection using deep learning techniques in complex biological samples.

GraphVelo helps researchers track gene activity changes in cells over time.

AIDA improves antibody design by predicting sequences using structural information.

Using histology images, GeneQuery enhances predictions about gene expression efficiently.

A look into the microscopic battle of bacteria and viruses through enzymes.

Antibody therapies are changing treatment for infections and diseases.

Discover how PepHAR improves peptide design for disease treatment.

Comparing tokenization strategies for effective protein analysis.

High-throughput methods are speeding up antibody discovery for better disease treatments.

Researchers analyze gene interactions using RH and CRISPRi methods.

A new model dramatically speeds up DNA breathing analysis, impacting genetics and medicine.

NucleoSeeker helps scientists curate high-quality RNA structure datasets for better predictions.

Cells make choices that shape life; explore how they decide their fate.

Orthrus enhances RNA predictions, improving understanding of genetic functions and properties.

Anaerobic digestion and hydrothermal liquefaction join forces to tackle waste.

KANs offer a promising approach in genomic research, achieving efficiency and performance.

Discover how enhancers and promoters work together to regulate gene expression.

A new bacterial protein family reveals unique structures and functions.

Discover how protein size influences cell signaling and communication.

ScPace enhances timestamp accuracy for deeper cellular insights.

Discover how BigMACS are changing tissue engineering and cell culture.

Explore how enhancers influence cancer growth and treatment responses.

Discover the vital role of RNA folding in cellular processes and synthetic applications.

A breakthrough method improving protein sequence assignment from cryo-EM maps.

New insights into RINCAA could change cancer treatments.

Discover how DNA's breathing dynamics influence gene activity and cellular processes.

Discover how vmrseq changes the game in studying DNA methylation and cell behavior.