Latest Articles for Biotechnology

Research reveals how mycobacteria adapt their mRNA in low oxygen environments.

New computational methods improve mRNA design for vaccines and therapies.

Surforama improves analysis of membrane proteins using cryo-electron tomography.

Researchers improve accuracy of genome sequencing using innovative error correction methods.

AlphaDIA boosts protein analysis through advanced methods and deep learning integration.

New models enhance predictions for protein fitness and design.

Innovative strategies are reshaping the costly drug discovery process.

Scientists improve protein creation by using special amino acids.

Researchers propose new methods for studying DNA methylation in different cell types.

Exploring efficient methods for custom protein creation using advanced DNA techniques.

New models improve understanding and prediction of protein functions.

A new method enhances how we study cell growth and movement.

Real-time processing in nanopore sequencing improves accuracy and reduces costs.

This study uncovers the complexities of glycosaminoglycans and their biological significance.

Study reveals methods to determine particle location in living cell clusters.

Learn how computer simulations aid plant breeding efficiency and decision-making.

Research reveals how yeast and microalgae adapt together in co-culture.

A new model enhances protein analysis using mass spectrometry data.

Improving data reliability with pseudo batch transformation in biomanufacturing.

Research reveals the importance of AdhE structure in efficient biofuel production.

New techniques aim to reduce immune reactions in therapeutic proteins.

Revolutionary tool OptoGDI sheds light on G protein signaling.

A new method improves automation for inserting well-plates with high precision.

Proteins play a crucial role in sensing and altering cell membrane shapes.

Exploring how stem cells change into various cell types and its significance.

Study reveals how spatial organization affects cooperation in microbial communities.

Machine learning enhances protein engineering, improving enzymes and expanding applications.

Pangenomics reveals genetic diversity in crops, enhancing agriculture and medicine.

Scientists are measuring biological age to tackle aging and health issues.

Learn how recycling DNA components can benefit science and reduce waste.

New findings improve methods for studying retinal cell development and gene editing.

Scientists use microbes to sustainably produce naringenin from plant waste.

POLAR-seq simplifies genetic analysis and speeds up research in synthetic biology.

Gene editing boosts crop strength, resource use, and nutrition.

A new approach to classify cells using images and mechanical properties.

This article discusses how protein levels are managed in living organisms.

A competition to advance protein engineering through collaboration and innovation.

Protein models enhance our ability to predict protein functions and structures.

A new platform that streamlines the analysis of cell tracking data.

New methods improve accuracy in matching DNA sequences to reference genomes.