Deciphering potent DNA toxin's secrets
One of the most potent toxins known acts by welding the two strands of the famous double helix together in a unique fashion which foils the standard repair mechanisms cells use to protect their DNA.
One of the most potent toxins known acts by welding the two strands of the famous double helix together in a unique fashion which foils the standard repair mechanisms cells use to protect their DNA.
Biochemistry
Aug 2, 2017
0
138
Humanity is producing data at an unimaginable rate, to the point that storage technologies can't keep up. Every five years, the amount of data we're producing increases 10-fold, including photos and videos. Not all of it ...
General Physics
Jul 28, 2017
4
34
A recent study from UBC's Okanagan campus identifies new genetic markers in sockeye salmon that can help improve management of fish populations.
Ecology
May 25, 2017
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2
Oyster farmers are set to benefit from a new genetic tool that will help to prevent disease outbreaks and improve yields.
Ecology
May 23, 2017
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5
A single process for how a group of molecules called nucleotides were made on the early Earth, before life began, has been suggested by a UCL-led team of researchers.
Biochemistry
May 19, 2017
12
1036
Materials scientists have written the recipe on how to use an oddball enzyme to build new biomaterials out of DNA. The work provides instructions for researchers the world over to build self-assembling molecules for applications ...
Biochemistry
May 16, 2017
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9
Scientists and mungbean growers around the world now have access to an open-source website containing the latest genetic information on the qualities of 560 accessions of mungbean.
Biotechnology
Apr 20, 2017
1
7
Human MutT homolog 1 (hMTH1) protein acts as the primary enzyme for breaking down (hydrolyzing) damaged (oxidized) deoxynucleoside triphosphates (dNTPs) the substrates of DNA synthesis. Recently, hMTH1 has drawn attention ...
Biochemistry
Mar 29, 2017
0
5
Over many thousands of years, farmers have bred maize varieties so the crops are optimally adapted to local environments.
Biotechnology
Feb 15, 2017
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39
Day in and day out, in our bodies, the DNA in cells is damaged for a variety of reasons, and thus intercellular DNA-repair systems are fundamental to the maintenance of life. Now scientists from the UNC School of Medicine ...
Cell & Microbiology
Feb 7, 2017
0
1771