Latest Articles for Biotechnology

A streamlined approach to improve 3D imaging of biological samples.

New methods reveal insights into PETase enzyme activity against plastic waste.

Explore how beta turns influence protein shapes and functions.

Researchers study rhodopsin models to reveal light interaction changes.

Scientists aim to create chemical tools for every druggable human protein by 2035.

A novel hydrogel using DNA aptamers for efficient thrombin sensing.

A new method enhances protein optimization for better functions in biotechnology.

Missing cell types significantly affect RNA-seq method performance and insights.

NEMOer sensors offer enhanced tracking of calcium dynamics in living cells.

Research reveals the role of genes in wheat grain traits.

Researchers improve room temperature crystallography to better understand protein structures and functions.

Researchers develop probes to visualize actin organization in living cells.

Open-source toolkit enhances Raman spectroscopy analysis across various studies.

How noise influences the function of essential genes across different organisms.

Exploring the potential of enzymes to effectively break down plastic waste.

Researchers aim to develop synthetic cells that replicate and evolve.

Exploring the roles of hybridization and thermodynamics in DNA and RNA functions.

qFit enhances protein modeling, revealing diverse shapes critical for biological function.

AlphaLink improves predictions of protein complexes using crosslinking mass spectrometry data.

This study investigates how neutral diversity affects bacterial populations and their evolution.

Lactonases disrupt microbial signals, impacting biofilm formation and potential treatments.

Research highlights DNA methylation's role in Alzheimer's and potential for new therapies.

Examining the roles and challenges of IgG1 and IgG3 antibodies in therapy.

DNAscent unveils thousands of new DNA replication sites in human cells.

Advancements in soybean genome research enhance breeding and trait mapping efforts.

Advancements in nanoreactor design enhance enzyme efficiency and stability for various applications.

Researchers improve methods for tracking cell development using lineage tracing and computational approaches.

This research uses machine learning to improve nanobody binding predictions.

Research introduces a safer way to study brown fat in humans.

Scientists evaluate rejuvenation techniques using aging clocks to measure biological age.

New methods improve accuracy and speed in identifying small molecules.

Research focuses on enhancing lipid output in microalgae for sustainable fuel.

Researchers use magnetic fields to influence bacterial movement and behaviors in liquid environments.

Espaloma introduces machine learning to improve molecular simulations and drug discovery.

Researchers develop new protein scaffolds for targeted therapies.

Recent developments in optogenetics enhance our understanding of brain function and neuron stimulation.

A new R package offers solutions for managing microbial growth data analysis.

Kernel-based testing enhances insights into single-cell behavior and characteristics.

Investigating disease resistance in sugar beet through genome assembly and candidate gene identification.

A simple approach to create diverse microbial groups for research and biotechnology.