Tag Archives: Nature Chemical Biology

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Remarkable enzyme points the way to reducing nitric acid use in industry

September 21, 2012 – 10:00 pm

Remarkable enzyme points the way to reducing nitric acid use in industry - An enzyme in the bacterium that causes potato scab could help create new, environmentally-benign biocatalysts with the potential to cut use of the highly corrosive chemical nitric acid. Chemists at the University of Warwick in the UK, in collaboration with researchers at Cornell University in the USA, have reported in the journal Nature Chemical Biology the discovery of an enzyme in the bacterium Streptomyces scabies that catalyses an aromatic nitration reaction.(10.1038/nchembio.1048)

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Study suggests expanding the genetic alphabet may be easier than previously thought

June 4, 2012 – 6:00 pm

Study suggests expanding the genetic alphabet may be easier than previously thought - A new study led by scientists at the Scripps Research Institute suggests that the replication process for DNA -- the genetic instructions for living organisms that is composed of four bases (C, G, A and T) -- is more open to unnatural letters than had previously been thought. An expanded "DNA alphabet" could carry more information than natural DNA, potentially coding for a much wider range of molecules and enabling a variety of powerful applications, from precise molecular probes and nanomachines to useful new life forms. Reference: 'KlenTaq polymerase replicates unnatural base pairs by inducing a Watson-Crick geometry,' F. E. Romesberg et al, Nature Chemical Biology (2012) doi:10.1038/nchembio.966

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Uncharted territory: Scientists sequence the first carbohydrate biopolymer

October 14, 2011 – 12:00 am
  • Uncharted territory: Scientists sequence the first carbohydrate biopolymer - Today, for the first time ever, a team of researchers led by Robert Linhardt of Rensselaer Polytechnic Institute has announced in the Oct. 9 advanced online publication edition of the journal Nature Chemical Biology the sequence of a complete complex carbohydrate biopolymer. The surprising discovery provides the scientific and medical communities with an important and fundamental new view of these vital biomolecules, which play a role in everything from cell structure and development to disease pathology and blood clotting.
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