Latest Articles for Biotechnology

Exploring how genetics impacts health through DNA methylation.

BaNDyT combines simulations and networks to advance protein research.

A look into how chromosome structure impacts gene function and health.

A look into the dynamics of microbial communities and their roles in ecosystems.

Devider helps scientists analyze genetic variants with improved accuracy.

Scientists use spoon to improve identification of variable genes in tissue samples.

A look at how nanoscale budding affects cell functions and disease dynamics.

Cell-free biosensors promise affordable solutions for environmental and health monitoring.

A look at how purification improves biotherapeutic safety and effectiveness.

Research highlights blood proteins that may indicate Alzheimer's disease risk.

Ribosome profiling reveals crucial information about protein production in cells.

CELTIC improves accuracy in labeling rare cell types and organelles.

New modeling techniques improve understanding of DNA structure and its functions.

Examining protein behavior in solutions and its implications for science and medicine.

A new model enhances protein analysis by capturing structural information effectively.

Uncovering how RNA interacts with proteins beyond protein coding.

Evolvoid uses genetic algorithms to model cellular shapes inspired by living tissues.

This study reveals how droplets form intricate patterns during evaporation.

Researchers create tags to direct proteins to specific cell locations.

A new method reveals how genes influence traits and interact with one another.

Researchers are optimizing gene circuits for real-world applications in medicine and environmental cleanup.

This article explores polymer fractionation and its implications for material design.

A new method improves peptide identification in MALDI imaging.

RapidOMS offers a faster, more efficient approach to mass spectrometry analysis.

Discover how splicing modulation can improve treatments for genetic disorders.

Scientists develop efficient methods for creating monoterpenoids through engineered yeast and innovative biosensors.

FAbCon model enhances antibody analysis and generation for improved healthcare solutions.

Examining bacterial microcompartments and their complex functions in cells.

Researchers unveil IMMClock, a tool to measure immune cell aging.

Discover how protein language models help in understanding protein behavior and interactions.

Combining optimal transport and structural models improves single-cell data interpretation.

This method helps researchers find efficient designs in complex problem spaces.

Researchers examine how proteins determine the fate of miRNAs in extracellular vesicles.

Examining how polymers capture heavy metals for environmental cleanup and health.

Scientists use MPOGAN to create promising new antimicrobial peptides.

New methods clarify measurement noise in flow cytometry, enhancing data reliability.

Scientists utilize budding yeast for innovative genetic studies via the PIPO method.

DreaM improves clarity in DNA-protein studies by reducing data noise.

An exploration of how water acts in narrow spaces with hydrophilic surfaces.

Scientists design and test genetic circuits in living cells for various applications.