Latest Articles for Biotechnology

A new approach simplifies the training of equivariant neural networks for better performance.

A new method improves understanding of gene expression in tissues.

Learn how HTS and machine learning shape protein research.

Foldseek-Multimer offers faster, more efficient comparison of protein complexes.

Introns are more than just DNA fillers; they enhance gene expression significantly.

Research highlights engineered diabodies for improved antibody structure and function.

New methods improve accuracy of genotyping through pangenome graphs.

Machine learning is transforming protein design for various applications.

ImmuneCLIP improves predictions for TCR and peptide interactions in immunology.

Examining gene interactions through innovative single-cell RNA sequencing methods.

UniScore improves peptide identification in mass spectrometry, enhancing accuracy and efficiency.

Ankyrons show promise in targeting SARS-CoV-2 variants effectively.

Research on EL222 reveals light's role in gene regulation and yeast behavior.

Study reveals how mRNA processing changes affect tumor suppressor genes and cancer risk.

New models simplify protein engineering for diverse applications.

A look at AlphaFold2's predictions and potential misinterpretations in protein structures.

Investigating how protein levels impact cell health and adaptability.

Different Cell Ranger versions significantly affect scRNA-seq data analysis outcomes.

Study droplet behavior on surfaces with different stiffness for various applications.

Research highlights the impact of muscle adaptability in biohybrid robots using reinforcement learning.

Chlamydomonas reinhardtii plays a crucial role in capturing carbon dioxide.

This study explores polyelectrolyte interactions with the SARS-CoV-2 spike protein.

Learn how scientists are improving the stability of DNA structures for various applications.

Centrioles are key structures ensuring proper cell division and function.

Tailocins offer a promising alternative to tackle rising antibiotic resistance.

A new method improves the study of transcription sites in cells.

Combining DEER data with AlphaFold2 enhances protein shape predictions.

Scientists develop a method to observe protein movements during activation.

TIPP3 improves microbial analysis accuracy and efficiency for research.

Researchers use optimal control theory to manage active nematic materials effectively.

A new method improves accuracy in DNA sequence analysis.

Nanopore technology improves peptide classification using electrical signals and machine learning.

Learn how plants protect themselves from too much light and stress.

The qByte offers affordable solutions for scientific research, enabling global access.

Researchers develop a system to enhance cellular cleanup processes.

Understanding the process and importance of DNA replication in cells.

Discover how enhancers communicate with genes across distances in our DNA.

An overview of how BTS improves GWAS analysis for genetic research.

Cells react to changes using transcription factors for survival.

DiCARN improves predictions of high-resolution Hi-C data for gene regulation studies.