Latest Articles for Biotechnology

New methods enable safer studies of the SARS-CoV-2 virus and its spike protein.

Recent studies question the reliability of computational protein structure predictions.

New genomic insights pave the way for better acerola fruit breeding techniques.

New methods improve how researchers study single-cell responses to treatments.

This research sheds light on E. coli's growth behavior in changing conditions.

A study on fungal-produced polymers reveals agricultural potential.

Research uncovers new ART families in Legionella, enhancing understanding of bacterial behavior and infection.

This study focuses on achieving reliable majority consensus in microbial populations.

Research on GmWRI1 and GmLEC1 aims to boost oil production in crops.

Researchers improve genome assembly quality with long-read sequencing and new evaluation tools.

Research reveals improved techniques for extracting membrane proteins in natural settings.

Research reveals how gene expression changes impact traits across mammalian species.

Research on cfDNA offers insights into early cancer detection and monitoring.

New fluorescent proteins enhance visibility in biological research.

Research reveals potential for improved light conversion in carbon nanotubes.

A new method enhances understanding of cell structure and drug effects.

This article explores bacterial movement in various fluid environments.

Cyanidioschyzon merolae offers unique opportunities in genetic engineering and sustainable production.

PeakPerformance simplifies chromatographic data analysis for better research outcomes.

A new approach to studying drug-protein interactions using thermal stability assays.

Research on improved plasmids enhances gene expression and natural product yields in fungi.

TranSigner improves RNA sequencing accuracy by assigning reads to specific transcripts.

An overview of how bacteria swim using flagella and ion-powered systems.

A study comparing various techniques to measure transcription factor activity using ATAC-seq data.

Discover how microRNAs are processed and regulated in cellular functions.

Exploring the fine structure of DNA melting and its implications.

Research reveals how sugar modifications can boost NK cell effectiveness in cancer therapy.

A new method streamlines drug design by generating tailored molecules efficiently.

Researchers develop P3 editing for precise genomic changes using protein interactions.

Study reveals DNA levels impact ribosome activity and bacterial growth rates.

A new system for evolving proteins offers faster and more efficient solutions.

New lipid vesicles improve drug delivery efficiency and reduce toxicity.

Discover how machine learning is advancing synthetic biology through innovative methods.

Research on engineered bacteria could transform treatments for resistant infections.

MicroRNAs are key regulators of gene expression linked to various health conditions.

Study reveals essential roles of miR-290 and miR-302 in generating induced pluripotent stem cells.

A new method enhances efficiency in protein sequence optimization.

Introducing Prompt-DDG to enhance understanding of protein mutation effects.

Research uncovers complex effects of DNA methylation on plant growth and traits.

Exploring mechanisms that help organisms tolerate dry conditions.