Tiny DNA reader to advance development of anticancer drugs
DNA is small. Really, really, small. So, when researchers want to study the structure of a single-stranded DNA, they can't just pull out their microscopes: they have to get creative.
DNA is small. Really, really, small. So, when researchers want to study the structure of a single-stranded DNA, they can't just pull out their microscopes: they have to get creative.
Biotechnology
Mar 7, 2019
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6
The work provides a step towards chemical cognition in synthetic protocells and could be useful in biosensing and therapeutics.
Bio & Medicine
Mar 4, 2019
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245
DNA replication is a complex process in which a helicase ring separates the DNA molecule's two entwined and encoded strands, allowing each to precisely reproduce its missing half. Until recently, however, researchers have ...
Cell & Microbiology
Feb 26, 2019
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87
Physicists from the University of Basel have developed a new method to examine the elasticity and binding properties of DNA molecules on a surface at extremely low temperatures. With a combination of cryo-force spectroscopy ...
Biochemistry
Feb 8, 2019
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160
Much like shoelaces or dangly necklaces, DNA strands can tangle up in unruly knots. Specialized enzymes keep DNA organized when cells divide, so the cells split smoothly and don't get stuck. But in tumor cells, this failsafe ...
Biochemistry
Feb 5, 2019
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8
University of Arkansas physics researchers have developed a simple, cost-effective method to study the effects of chemicals on DNA which has potential to improve the development and testing of life-saving treatments.
General Physics
Jan 14, 2019
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374
In the January 7th edition of Communications Biology, researchers at InsideOutBio argue that an unusual form of DNA with a reverse twist may have helped thwart the invasion of the human genome by junk DNA. This mechanism ...
Biotechnology
Jan 11, 2019
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9
Move over Mona Lisa, here comes tic-tac-toe.
Bio & Medicine
Dec 20, 2018
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128
Proteins have now been designed in the lab to zip together in much the same way that DNA molecules zip up to form a double helix. The technique, whose development was led by University of Washington School of Medicine scientists, ...
Biochemistry
Dec 19, 2018
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108
About 15 years ago, UNC Lineberger's Dale Ramsden, Ph.D., was looking through a textbook with one of his students when they stumbled upon a scientific mystery.
Cell & Microbiology
Nov 16, 2018
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