Latest Articles for Biotechnology

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.

Researchers uncover the role of STK19 in DNA repair.

Researchers reveal essential genes that sustain Schaalia odontolytica in lab conditions.

A new method streamlines protein design and optimization using AI.

A groundbreaking tool for understanding miRNA and isomiR roles in gene regulation.

Study reveals how intrinsic terminators shape bacterial gene expression and evolution.

A novel technique enhances the measurement of ribozyme activity across various contexts.

A study on how polymers move through tiny openings in crowded settings.

A new tool enhances predictions for proteins in liquid-liquid phase separation.

This study reveals how microbes interact through nutrient sharing and competition.

New models reveal how DNA arrangement impacts gene regulation and disease.

forkedTF enhances understanding of transcription factors and their binding mechanics.

Study reveals how reaction networks influence cellular behavior and stability.

New sequencing technology shows promise in identifying foodborne pathogens more quickly.

An innovative method improves statistical analysis in high-dimensional logistic regression.

A novel approach reveals complex gene interactions in live organisms.

New methods improve detection of RNA-protein interactions in bacteria.

Discover how yeast proteins adapt and evolve for better sugar transport.

Scientists combine traditional and deep learning methods for better protein design.

Study reveals how gene families shape traits in diverse yeast species.