Latest Articles for Biotechnology

A new method improves training of Generative Flow Networks using evolutionary algorithms.

Waterbear improves analysis of CRISPR FACS screens for genetic research.

Research reveals how RNA stability and processing affect gene expression.

Research highlights the importance of balanced DNA copying for bacterial health.

Research improves bacterial production of p-aminobenzoic acid using gene modifications.

Researchers develop a method to analyze RNA dynamics related to the cell cycle.

Molecular motors influence chromosome behavior, organization, and gene expression in cells.

A new method improves genetic studies by analyzing multiple traits at once.

A method to improve language models for complex scientific applications.

New system enhances data collection for studying proteins and viruses.

Antimicrobial peptides show potential for treating infections and complex health issues.

Research reveals methods to improve palm kernel cake's digestibility for animal nutrition.

Examining how GFlowNets generalize to untested areas and their application potential.

Research reveals methods to enhance yeast performance in biofuel and food production.

A look into how microorganisms compete and survive in controlled environments.

Argonaute proteins interact with small RNAs to regulate gene expression effectively.

A new method enhances the study of DNA haplotypes for better genetic insights.

Researchers uncover a new species of bacteria with unique energy production methods.

Discover how cyclic di-GMP influences bacterial growth and community formation.

Exploring the potential of exosomal miRNAs in disease diagnosis.

This article examines how methionine synthesis impacts bacterial lag phases.

Researchers improve antibody selection by predicting humanness through patent data analysis.

This research explores deep learning's role in predicting intron retention and chromatin state.

Research reveals how loop movements in enzymes affect their efficiency and function.

CiBER-seq advances gene research by reducing noise and enhancing measurement accuracy.

Explore the fascinating world of cyclic polyelectrolytes and their unique behaviors.

A look into protein condensates and their role in cell biology.

CRISPRware enhances gRNA library design for improved genetic studies.

Explore how dataset choices affect machine learning models predicting antibody binding.

Researchers develop tools for yeast signaling and adhesion in synthetic biology.

New methods are reshaping how scientists study molecular structures and their applications.

A new method improves protein shape reconstruction using cryo-electron microscopy.

This study reveals how transcription factors affect bacterial virulence and plant interactions.

G-quadruplexes play a significant role in controlling gene expression and chromatin structure.

New techniques reveal insights into how cells communicate and respond to their environment.

A new method to study and manage cellular noise through light-controlled gene expression.

Researchers study how DNA regions influence protein production and animal body formation.

Scientists study yeast communication to enhance information exchange for various applications.

New insights into how alginate gels flow in narrow spaces.

AlphaFold2 revolutionizes the prediction of protein shapes using deep learning.