Latest Articles for Biotechnology

This study reveals how peat retains carbon and responds to enzymatic breakdown.

Scientists enhance understanding of protein interactions to improve disease treatment.

CRISPR tools enhance gene editing and research in mycobacteria, paving the way for new treatments.

Research develops a metabolic model for enhancing lipid output in Umbelopsis fungi.

Scientists use machine learning to improve antibody design for medical treatments.

A novel tool for designing RNA sequences based on their shapes.

PriC assists in restarting DNA replication, ensuring cell survival under stress.

A new method for building multi-gene expression systems efficiently.

New insights into how DNA repair influences melanoma development.

Research sheds light on improving AAV packaging for gene therapy applications.

Researchers tackle issues in scRNA-seq with sample pooling and doublet identification.

New tools enhance ancient DNA study, improving accuracy and sensitivity.

New methods improve our grasp of genetic variation and its implications.

New model CFGen improves synthetic single-cell data generation for better research insights.

Exploring DNA's potential in data storage amidst growing digital demands.

Examining how QKI and SF1 interact to influence RNA splicing patterns.

Combining coding techniques and biological principles to improve DNA storage efficiency.

New bioengineering methods enhance treatment options for dairy cow mastitis.

A look into the structure and function of flagellar motors in bacteria.

Research reveals how AcrIIA4 inhibits Cas9, guiding future CRISPR innovations.

Exploring the role of DNA sequences in replication across various life forms.

Research improves CRISPR-Cas systems to enhance bacterial defenses against viruses.

Researchers enhance DNA delivery in diatoms, promising advances for sustainable food production.

A new method improves the stability and production of circRNA for medical use.

HRProfiler improves identification of HR deficiencies, aiding cancer treatment decisions.

VR-Omics simplifies spatial transcriptomics data analysis for researchers.

Explore the role of RNA Polymerase II in turning genes into proteins.

Research reveals ways to improve lab-grown blood-forming cells.

Research reveals how plant mRNAs detect temperature to control protein production.

AlphaFold's evolution enhances accurate protein structure predictions for science and medicine.

New methods enhance predictions for immune response research.

Researchers are using LIMO to create specialized molecules for medicine.

Researchers develop GEARBOCS to edit astrocyte genes and study brain functions.

New methods using model organisms show promise in developing treatments for rare diseases.

AsEP dataset and WALLE model enhance antibody-epitope prediction methods.

A new dataset combines DNA sequences and enzyme function descriptions to enhance predictive models.

Discover how scientists are designing new protein structures for various applications.

TUNA enables real-time monitoring of bacterial metabolic changes with high accuracy.

New methods allow for effective peptide binders from protein sequences alone.

Research identifies promising proteins for early pancreatic cancer detection.