Latest Articles for Biotechnology

This study reviews new methods for analyzing ancient DNA effectively.

CellWalker2 greatly improves the analysis and labeling of single-cell data.

This article explores the synthesis and significance of natural products known as RiPPs.

Discover the latest in DNA and RNA simulation technology and its applications.

MetaDAG offers a new way to analyze microbial metabolic networks efficiently.

ARPBs enhance interaction with chiral molecules for drug development.

A novel model enhances accuracy in lipid classification and analysis.

New methods reveal deeper insights into biological age and health connections.

A novel approach to render complex DNA structures clearly and efficiently.

A new qTAG system simplifies gene tagging for researchers.

Researchers examine protein structures to develop new cancer treatments.

A novel technique connects protein release from cells to their genetic information.

Researchers are improving drug design with innovative techniques for better medication development.

New models predict protein stability and generate sequences effectively.

Research improves TCR structure prediction for better immune therapies.

New methods improve biological age predictions using epigenetic data.

Study reveals how microswimmers navigate through environments filled with obstacles.

New model improves predictions of TCR-antigen binding for cancer treatment.

Scientists enhance peptide analysis techniques using deep learning insights.

Exploring the development and importance of artificial blood vessel networks.

A look at the latest in genome assembly and annotation methods.

Researchers find peptides that can inhibit TLR activity, offering new treatment avenues.

Exploring the significance and challenges of designing proteins through computational methods.

Researchers develop genetic tools to enhance nitrogen-fixing bacteria for sustainable agriculture.

New methods improve analysis of proteins, aiding in health research.

Language models are reshaping how proteins are designed for medicine.

T cell receptors are vital for immune response and disease research.

Tidyomics connects Bioconductor and tidyverse for improved genomic data analysis.

A fresh approach enhances prediction accuracy in drug discovery using bioactivity data.

Study reveals E. coli's potential for producing vital cancer-fighting enzyme.

Discover how directed evolution optimizes protein functions for real-world applications.

Research highlights lncRNAs as potential markers for pancreatic cancer detection and treatment.

Researchers developed a method to create diverse 3D molecules using existing shapes.

Researchers reveal insights into CHO cells and their antibody production over time.

Research reveals new binding sites for transcription factors in E. coli.

Research highlights the potential of retrons for DNA aptamer production in living cells.

New synthetic promoters show potential for enhanced protein production in yeast.

ATM simplifies predicting binding energy for drug discovery.

Researchers simplify genetic manipulation of S. pneumoniae, enhancing study of bacterial infections.

A look at how Bacillus subtilis adapts through motility and biofilm formation.