Latest Articles for Biotechnology

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

A new approach helps identify gene expression programs in cancer.

S-layers are vital structures in bacterial and archaeal cells, influencing shape and protection.

Exploring the potential of DNA nanostars for innovative gel applications.

Learn how promoters and enhancers impact gene regulation in living organisms.

New techniques reveal cell type differences in cancer studies.

Study reveals ischemia time significantly affects cancer tissue biomolecule quality.

Researchers are developing new methods to produce sustainable bioplastics from renewable sources.

FzlA is crucial for bacterial cell division across various species.

New methods enhance antibody development for better treatments.

New methods improve DNA introduction in bacteria to address CO2 challenges.

New research focuses on improving gene therapy techniques with pig models.

New methods reveal how membrane proteins are made and inserted into cells.

Research on engineered NSCs shows promise for targeting and treating malignant brain tumors.

Exploring the impact of protein missense variants on human health.

Research reveals insights into how transcription factors influence gene expression variability.

A new study reveals the complex roles of transcription factors in controlling gene expression.

This article examines fluctuations in gene expression within feed-forward loops.

A look into the mechanisms and controls of DNA replication.

GRIT offers insights into gene functions and interactions using individual cell data.

Research on cytochromes reveals new designs for studying electron transfer.

A study on manual and semi-automated cell counting methods for accuracy.

Retroviruses are crucial for delivering genes in therapeutic applications and face integration challenges.

New methods aim to control ion channels using targeted protein degradation for better disease treatment.

New microfluidic device reduces stress on particles for better manipulation.

Discover how CRISPR/Cas9 is transforming gene editing and microbial engineering.

Focus on improving mRNA vaccines and reducing by-products.

Learn how RNA polymerase II shapes gene expression through termination mechanisms.

Learn how nanopore technology helps analyze DNA and its interactions with ions.

EoHR enhances gene editing efficiency by targeting a key DNA repair protein.

A look into how semiflexible polymers aggregate and change form.

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.