Latest Articles for Drug Development

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

New drug candidates may lead to effective hepatitis B therapies.

A new model improves predictions of protein interactions and drug resistance.

New methods improve timing predictions in biochemical reactions.

A new model enhances the prediction of harmful compounds in drug development.

New quantum method improves molecular energy calculations significantly.

Research reveals how viruses package RNA, impacting antiviral therapies and drug delivery.

A straightforward approach to predict the solubility of chemical compounds in water.

Explore how lipids and proteins work together in viral assembly.

Combining therapies could improve outcomes for gastric cancer patients.

CMPD1 shows promise in targeting cancer cells while minimizing side effects.

This article discusses the integration of VR and molecular dynamics for research advancements.

A range-based approach helps assess similarities in drug quality attributes.

Discover how small molecules and proteins interact in the Protein Data Bank.

A look at how purification improves biotherapeutic safety and effectiveness.

Glucokinase is key in diabetes management, influencing energy and insulin responses.

A look into the complexities of treating Chagas disease and emerging drug resistance.

TDC-2 enhances research in drug development through better data access and multimodal models.

Researchers aim to improve treatments for stubborn triple-negative breast cancer using gene-targeting techniques.

A novel model predicts cancer cell responses to treatments using gene expression.

Learn how ALT helps cancer cells evade aging.

New strategies focus on chromatin structure to improve cancer treatment outcomes.

MMseqs2-GPU accelerates protein analysis and enhances research capabilities.

Researchers develop selective inhibitors targeting BRCC36 for autoimmune disease therapy.

An overview of antibodies, their importance, and the new AACDB.

New therapies focus on KRAS variants to improve cancer patient outcomes.

A new approach improves cancer drug trial accuracy and efficiency.

Exploring the crucial function of the transmembrane domain in SARS-CoV-2.

A new tool predicts water interactions around proteins for better drug design.

Research reveals new structures of STEP, aiding drug design for neurological diseases.

Researchers develop a faster method to predict how cells react to treatments.

Insights into how patient factors affect drug responses.

A fresh approach enhances our view of molecular interactions.

A new method enhances protein-ligand binding predictions in drug discovery.

Scientists use advanced methods to create better cancer treatments with fewer side effects.

A look into how the malaria parasite survives and adapts.

OneProt combines various data types to enhance protein research efficiency.

A computer model improves predictions for cancer drug combinations, enhancing treatment plans.

Scientists use electron vortex beams to study chirality at the molecular level.

A new approach to measure the ease of drug synthesis.