Latest Articles for Biotechnology

Scientists enhance protein study in worms with a simpler technique, OFIC processing.

DeepPolisher enhances genome assembly accuracy through advanced polishing techniques.

A new method improves the study of genome editing through iPS cell isolation.

New tool BayesAge improves accuracy in predicting biological age through gene expression.

A novel approach enhances aptamer search while reducing data dependency.

Humatch streamlines the humanization of antibody drugs for better efficacy and safety.

This article examines the impact of non-conversion errors in DNA methylation research.

Exploring how alcohol affects phase transitions in living materials.

Scientists are enhancing Rubisco efficiency to improve crop growth and food security.

Nanobodies show promise in medical treatments due to their unique stability and binding abilities.

A new model predicts nanobody thermostability using limited data.

New ligands enhance protein research and understanding.

An overview of two-phase flows and the numerical models that study them.

New approaches enhance PCR accuracy in DNA analysis.

NovoBench provides a structured framework for evaluating peptide sequencing methods.

SGD enhances yeast research with new data and tools.

A look into how frequency response helps study biochemical networks.

Researchers create human neurons to study metabolic diseases like obesity and diabetes.

A look into how macrophage extracellular vesicles impact immune cell communication.

InvMSAFold generates diverse protein sequences while preserving structural integrity.

A new model improves therapeutic antibody design efficiency and accuracy.

Metasurfaces combine imaging techniques for clearer biological analysis.

SparseSSP reduces imaging needs for cell studies, enhancing speed and cost-efficiency.

New method improves gene analysis in tissue samples, revealing spatial patterns.

A new method improves analysis of complex datasets using advanced techniques.

VirID enhances RNA virus discovery and classification for better public health monitoring.

Research on PHAs could provide a sustainable alternative to traditional plastics.

CRISPR and trimology integration enhance precision in gene editing for medicine and agriculture.

A novel approach to combine design methods for better outcomes in DNA and protein engineering.

A new method for studying enzyme interactions and activity in real time.

scooby improves gene behavior predictions at the single-cell level using DNA sequences.

Research sheds light on mutations driving cancer growth and treatment.

TrustAffinity enhances drug binding predictions and assesses uncertainty effectively.

Exploring new strategies for managing insect pests without harmful chemicals.

Studying Aspergillus wentii reveals potential for medical compound production.

Introducing AsaruSim for realistic single-cell RNA sequencing dataset simulation.

New model helps predict how plants adapt to temperature shifts.

A new tool improves predictions of protein stability at high temperatures.

Research reveals new methods to transform biogas into valuable compounds like ectoine.

BOMS improves cell segmentation, enhancing analysis of gene expression in tissues.