Latest Articles for Drug Development

Research reveals potential of G quadruplexes in treating cancer and HIV.

drGAT uses machine learning to predict how cells respond to drugs.

New methods improve the speed and accuracy of drug design.

Investigating apicoplast functions and implications for parasite-related diseases.

How digital twins improve patient treatment and drug development.

Researchers unveil a safer technique to measure cell membrane potential accurately.

Abl1 kinase is vital in managing cellular processes and cancer development.

Research on new compounds shows promise against antibiotic resistance.

Research highlights IL12B as a target for small molecule drug development.

Study reveals Wnt pathways' role in liver fluke growth and potential drug targets.

A new approach enhances the generation of molecules for drug response prediction.

Study reveals connections between immune cell counts and immune-mediated diseases.

High-quality data is crucial for successful drug discovery and AI integration.

A new model that simplifies drug discovery by generating molecules efficiently.

Saturn improves drug discovery by efficiently generating effective molecules for treatment.

Research focuses on improving drug testing with human-based models for better results.

New insights into RNA interactions could lead to better drugs for bacterial infections.

Research reveals how peptides interact with adhesion GPCRs, influencing drug design.

PepFlow leverages deep learning to create effective peptide designs for drug development.

New methods, including MolSnapper, improve drug design efficiency and effectiveness.

New research highlights a method to boost chemotherapy effectiveness using TopBP1 condensates.

Exploring how machine learning predicts PROTAC effectiveness in drug development.

Exploring how senescence affects cancer growth and treatments.

A study reveals structural differences between fluticasone furoate and propionate.

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

Exploring how alcohol affects phase transitions in living materials.

A look into how frequency response helps study biochemical networks.

A new AI model enhances the efficiency of clinical trials.

A new model improves therapeutic antibody design efficiency and accuracy.

How counterfactual explanations aid molecular behavior prediction and its implications.

New methods improve molecular design by measuring prediction uncertainty.

Seamless design aims to speed up cancer treatment development.

Researchers explore fungi from bogs for new tuberculosis treatments.

Examining the impact of HDAC inhibitors on lung cancer treatment responses.

Exploring the intersection of quantum computing and molecular chemistry for innovative solutions.

Research reveals distinct methods of poliovirus spread between cells, highlighting non-lytic strategies.

A new method enhances molecular discovery using evolutionary algorithms and language models.

IL-12's impact on immune response and cancer treatment revealed through clinical studies.

A fresh approach enhances drug candidate generation and effectiveness in pharmaceutical research.

A study on targeted chemical release enhances knowledge of protein reactions in living organisms.