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Nano-sized traps enable better study of proteins
Researchers have developed a new method to study protein clumps that occur in many difficult-to-treat diseases.
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Chalmers University of Technology
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The future of drug development: AI tailors artificial DNA
Swedish researchers have designed synthetic DNA that controls a cells’ protein production using AI.
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Novel microscopy technique to light the way towards new medicine
Researchers have developed a ground-breaking microscopy technique that allows proteins, DNA, and other tiny biological particles to be studied in their natural state in a completely new way.
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AI method for generating new proteins could accelerate drug development
A novel artificial intelligence (AI) technique called ProteinGAN has shown success at studying well known proteins to develop new ones.
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Copper ions could be key to blocking cancer metastasis
Researchers have identified that copper ions and their protein transporters, such as Atox1, are key to cancer cell movement and could be targeted by therapies.
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New medicinal advances could be yielded by studying proteins in glass
A unique method for studying proteins has been developed which could open new doors for medicinal research.
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Screening for genes to improve protein production in yeast
By silencing genes, researchers have increased the protein production in yeast, laying the grounds for engineering better yeast production hosts for industries producing biopharmaceutical proteins and industrial enzymes.
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Antibiotic resistance genes identified
By analysing large volumes of DNA data, researchers have identified 76 new types of antibiotic-resistant genes...
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Researchers print stem cells using 3D bioprinter to form cartilage
A team of researchers have generated cartilage tissue by printing stem cells using a 3D-bioprinter...
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3D bioprinted human cartilage cells can be implanted
Swedish researchers at Chalmers University of Technology and Sahlgrenska Academy have successfully induced human cartilage cells to live and grow in an animal model, using 3D bioprinting.
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Biomarkers In-Depth Focus 2017
Drug developers sometimes think of imaging as an emerging discipline. But John Waterton, Paul Hockings, Juliana Maynard and Caleb Roberts explain how imaging biomarkers are transforming drug development. Francesco Gatto and Jens Nielsen, from the Chalmers University of Technology in Sweden, discuss moving towards systems biomarkers for cancer diagnosis...