All Molecular Biology articles
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NewsMirrored molecules target disordered proteins in Alzheimer’s disease
Researchers at Kobe University have developed a novel approach to Alzheimer’s disease treatment by engineering right-handed amino acid chains that bind to amyloid-beta proteins. The method, inspired by materials science principles of chirality, demonstrated effective inhibition of toxic protein aggregation in mouse brain cell cultures, maintaining cell viability where amyloid-beta alone reduced it by 50 percent.
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ReportCRISPR & Genomics: Turning Data into Confident Drug Discovery Decisions
Early drug discovery has no shortage of genomic data, but confidence remains scarce. This report examines how CRISPR, functional genomics and human-relevant models are being applied to determine which signals matter, how they influence disease biology and which targets and strategies are worth pursuing.
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InterviewPhysics-based modelling offers a new way to study drug targets
Australian start-up OmnigeniQ has demonstrated what it describes as the first deterministic, physics-based computation of a human protein in its native state.
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ArticleAnticipating adaptation: understanding and overcoming cancer drug resistance
Neil Bhowmick explores how understanding the mechanisms of cancer drug resistance has reframed our approach to treatment, revealing containment and control as realistic goals for therapeutic strategies.
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ArticleKMA and LMA antigens emerge as high value targets for plasma cell dyscrasia treatment
Research published in Clinical Lymphoma, Myeloma and Leukemia identifies Kappa Myeloma Antigen and Lambda Myeloma Antigen as highly selective immunotherapy targets across plasma cell dyscrasias.
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NewsBlocking protein pathway may slow Huntington’s disease
Researchers have identified a previously unknown cellular mechanism involving tunnelling nanotubes and the protein SLC4A7 that enables toxic huntingtin to spread directly between neurons, offering new therapeutic targets for Huntington’s disease.
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NewsProbiotic bacteria successfully attacks tumours in preclinical models
Engineered probiotic bacteria that can deliver cancer-fighting drugs directly to tumours have shown promising results in mice, offering a potential new approach to targeted cancer therapy.
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NewsSonoPIN ultrasound method shows promise for targeted cancer therapy
A new ultrasound-based technique developed by researchers at Duke University uses microbubbles to deliver cancer drugs directly into tumour cells, showing promise for highly targeted treatments that cause minimal damage to healthy tissue.
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ArticleWhy NMDA receptor modulation remains central to next-generation depression therapies
A key player in brain communication and mood regulation, the pharmaceutical industry views the NMDAR as the central pillar for next-generation therapies for depression. Dirk Beher from FundaMental Pharma reveals new strategies for targeting this important receptor.
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NewsNew RNA injection could help hearts heal after heart attacks
A new RNA-based therapy developed at Columbia University could help the heart repair itself after a heart attack without invasive surgery.
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ArticleDesigning targeted assays for clinical success from the start
Why do some targeted assays move smoothly from discovery to clinical practice while others stall? The answer often lies in the earliest design decisions, where choices about samples, platforms and data determine what is possible later.
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NewsScientists develop cream that triggers skin’s anti-cancer defence
A topical cream that activates the skin’s immune defences has been shown to suppress tumour growth in early models of cutaneous squamous cell carcinoma.
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ArticleDiscovery is changing – and automation leads the way
Automation is helping drug discovery teams screen faster, cut costs and run complex assays at scale – but its real value lies in what happens next.
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NewsSimple amino acid mix dramatically improves gene therapy delivery
Scientists have discovered that adding a simple cocktail of three common amino acids to lipid nanoparticle injections can dramatically improve the delivery of mRNA and CRISPR therapies.
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NewsDeep-sea compound yaku’amide B shows new cancer-fighting mechanism
Japanese researchers have discovered how yaku’amide B, a rare compound from deep-sea sponges, targets aggressive cancer cells.
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NewsLab-made lncRNA could lead to new anti-inflammatory drugs
Scientists at the University of Toronto have created long noncoding RNA outside living cells for the first time, a breakthrough that has already produced experimental anti-inflammatory molecules.
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NewsNew target found for glaucoma treatment
Scientists have discovered that specialised immune cells in the eye help keep its drainage system clear and regulate pressure, which could inform new treatments for glaucoma.
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ArticleWorld ADC 2026: where antibody-drug conjugates are heading
At World ADC London 2026, experts highlighted how advances in payload design, targeting strategies and AI-driven discovery are changing antibody–drug conjugate development.
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NewsNew AI tool could accelerate drug discovery and cut lab costs
Scientists have developed a machine learning system that can predict how complex chemical reactions will produce the correct molecular form for medicines.
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NewsBlocking FAK protein may help to overcome resistance in ovarian cancer
A new preclinical study has demonstrated that locking the focal adhesion kinase (FAK) protein may help the immune system better detect and attack ovarian tumours.