Latest Articles for Biotechnology

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.

Exploring new methods to enhance antibody treatments through machine learning approaches.

Discover the latest tools for analyzing protein levels in complex samples.

dotears combines data types to clarify gene interactions.

New adaptable incubators support living cell culture experiments.

Research explores CRISPR techniques to improve rubber tree yields and quality.

Exploring how genetic changes in cancer cells impact treatment effectiveness.

Examining how ring polymers behave and change viscosity under different conditions.

Research reveals how SKIK tag placement boosts protein production in cells.

Sparse Linear Centroid-Encoder simplifies feature selection for large datasets.

Research advances genetic methods to analyze neurological connections in developing mice.

D3FG model improves drug design by focusing on functional groups and linkers.

Researchers develop a model to better predict protein stability changes from amino acid mutations.

A look into how cells navigate and move in their environment.

New methods enhance detection of protein isoforms in biological studies.

New methods improve understanding of heart tissue mechanics.

ExDyn offers a fresh perspective on how external factors influence cell behavior.

A new method enhances the search for diverse and high-quality solutions in optimization.

A novel approach enhances accuracy in predicting how drugs interact with proteins.

New platform enhances studies of genetic variants for disease understanding.

A novel approach uses limited data to improve predictions of protein-peptide interactions.

Exploring how bacteria talk and influence phage behavior.

FlhF protein coordinates flagella assembly and positioning in bacteria.

New methods improve accuracy in predicting protein shapes and their functions.

Robseq enhances RNA-Seq analysis by addressing false discoveries and variability.

A new method enhances protein detection in plasma for better disease diagnosis.

Explore the key features and applications of hybrid coacervates in science.

Gode merges molecular graphs with knowledge graphs for better property predictions.

Researchers develop a tool to predict bacterial RNA transcripts, enhancing our understanding of gene regulation.

CrAI automates antibody identification in cryo-EM data, improving efficiency and accuracy.

This study examines the relationship between protein sequences and condensate properties.

Research on AMPK activation offers hope for mitochondrial disorder treatments.

Study assesses structural alignment tools for predicting protein interactions.

A new method combines protein sequence and shape for better mutation predictions.

Researchers use plants to produce proteins quickly and cost-effectively.

BiSDL simplifies designing complex biological systems for researchers of all levels.

Researchers innovate protein design with advanced sampling techniques for better antibodies.

Recent analysis reveals Cellpose's strong performance against new segmentation tools.