Latest Articles for Biotechnology

Study reveals insights on polyploidy in Chlamydomonas, using new genetic methods.

New tools enable precise tracking of kinase activity in living cells.

New light-responsive tools like REDLIP enhance gene control for targeted therapies.

How training data selection influences protein language models' predictions.

Innovative PNA-based probes enhance RNA visualization in living cells.

Nucleases play a crucial role in DNA and RNA analysis.

New method predicts drug binding using protein's 3D structure.

A new method improves the identification of genetic changes in disease-causing organisms.

New methods improve data handling for nanopore sequencing, enhancing analysis efficiency.

SciPhy offers new methods for tracking cell lineage and growth dynamics.

APOLLO merges diverse cell data for improved predictions and insights.

A new framework enhances the identification of proteins for biological research.

Gallaecimonas pentaromativorans strain 10A shows potential in breaking down pollutants.

Examining the structure and stability of lipid nanoparticles in COVID-19 vaccines.

New methods and resources aim to improve gene activity analysis in tissues.

A fresh approach combining AI and quantum techniques aims to streamline protein design.

Research improves biosensors to detect landmines safely and effectively.

New methods in antibody development enhance treatments for infections and diseases.

New method GENBAIT improves protein subset selection for cellular studies.

Researchers develop syn3B to enhance gene transfer understanding and efficiency.

Research introduces Top-ML for better anticancer peptide prediction using topological features.

Research reveals bacterial biofilms can be beneficial in energy generation and pollution cleanup.

DMRIntTk integrates DMR sets for clearer insights into gene behavior.

Research into speckle tweezers offers new ways to manipulate particles at liquid interfaces.

Contractile injection systems play a key role in viral infections.

This study reveals how peat retains carbon and responds to enzymatic breakdown.

Scientists enhance understanding of protein interactions to improve disease treatment.

CRISPR tools enhance gene editing and research in mycobacteria, paving the way for new treatments.

Research develops a metabolic model for enhancing lipid output in Umbelopsis fungi.

Scientists use machine learning to improve antibody design for medical treatments.

A novel tool for designing RNA sequences based on their shapes.

PriC assists in restarting DNA replication, ensuring cell survival under stress.

A new method for building multi-gene expression systems efficiently.

New insights into how DNA repair influences melanoma development.

Research sheds light on improving AAV packaging for gene therapy applications.

Researchers tackle issues in scRNA-seq with sample pooling and doublet identification.

New tools enhance ancient DNA study, improving accuracy and sensitivity.

New methods improve our grasp of genetic variation and its implications.

New model CFGen improves synthetic single-cell data generation for better research insights.

Exploring DNA's potential in data storage amidst growing digital demands.