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Chemistry World
January 9, 2009
James Urquhart |
Chemists edge closer to recreating early life A test tube based system of chemicals that exhibit life-like qualities such as indefinite self-replication, mutation, and survival of the fittest, has been created by US scientists.   |
Chemistry World
April 7, 2011
Laura Howes |
Long chains give new life to RNA world hypothesis The so-called RNA world hypothesis has gained fresh momentum with the synthesis of the longest lab grown RNA strands made using an enzyme that is itself made of RNA, an 'RNAzyme'. |
Chemistry World
March 15, 2007
Henry Nicholls |
The Mother of All Enzymes Scientists have uncovered the three-dimensional structure of what might be biology's first enzyme. This sheds light on the chemistry at a key moment in the origin of life, they argue. |
Chemistry World
October 18, 2012
Andy Extance |
RNA teams up to beat selfish rivals A team from Portland State University has shown that cooperative ribozymes -- RNA enzymes -- outdo 'selfish' autocatalytic competitors for the same building blocks. |
IEEE Spectrum
March 2011
Lucks & Arkin |
Synthetic Biology's Hunt for the Genetic Transistor How genetic circuits will unlock the true potential of bioengineering |
Chemistry World
April 19, 2012
Andy Extance |
Polymers perform non-DNA evolution Scientists have found that six polymer alternatives to DNA can pass on genetic information, and have evolved one type to specifically bind target molecules. |
Chemistry World
October 8, 2013
Hayley Birch |
RNA mimic destined for synthetic genome US scientists have taken another step towards the goal of creating self-replicating molecules like those thought to have spawned life on Earth. The researchers made RNA-like polymers capable of copying short sections of genetic code that they suggest could act as genomes in synthetic cells. |
Scientific American
June 2005
JR Minkel |
RNA to the Rescue The spectacular discovery that a species of plant can summon up genes its parents have lost highlights biologists' increasing recognition of RNA as a more versatile and important molecule in its own right. |
HHMI Bulletin
Nov 2011
Dave Mosher |
A New PACE for Laboratory Evolution Researchers have found a way to accelerate evolution of molecules by harnessing viruses. |
Chemistry World
August 7, 2011
Phillip Broadwith |
Possible Origin of Chirality in the Rna World Given a tiny push one way or the other, simple racemic precursors can lead to the chiral building blocks of RNA using a combination of chemical and physical factors. |
Chemistry World
May 20, 2013
Emma Stoye |
RNA world hypothesis strengthened by iron The RNA world hypothesis has gained another boost after research shows that RNA is more catalytically active under conditions similar to those on Earth billions of years ago. |
Chemistry World
January 8, 2012
David Bradley |
The TNA world that came before the RNA one Once it was recognised that DNA is key to the molecular self-replication that underpins life, chemists have sought to understand the origins of this double-helical molecule in that primordial age. |
Chemistry World
December 20, 2011
Laura Howes |
Cutting edge chemistry in 2011 With the help of an expert panel of journal editors Chemistry World reviews the ground breaking research and important trends in this year's crop of chemical science papers. |
Chemistry World
February 11, 2015
James Urquhart |
'Early RNA' reactions characterized Researchers have shown how precursor nucleotide molecules could have self-polymerized without enzymes and subsequently given rise to the catalytic activity of the simplest, most ancient forms of RNA. |
Chemistry World
September 23, 2009
Simon Hadlington |
Direct route to RNA sequences Scientists in the US appear to have cracked a major problem in molecular biology: how to sequence single molecules of RNA directly. |
Chemistry World
May 5, 2015
James Urquhart |
Ancient RNA enzymes formed from freeze-thaw cycles UK researchers have shown repeated cycles of freezing and thawing could have allowed the first complex RNA enzymes, or ribozymes, to form on early Earth -- a key step for the evolution of life. |
Chemistry World
July 23, 2012
Melissae Fellet |
RNA wrapper protects small molecules Step aside benzene rings, there's a new protecting group in town. Dutch researchers have used a strand of RNA to cover portions of a complex small molecule. They then chemically modified a portion of the molecule not covered by the RNA. |
Chemistry World
April 20, 2009
James Urquhart |
New method reveals small molecule-RNA conjugates US scientists using novel chemical screening methods have discovered a new class of small molecules connected to RNA, suggesting that cellular RNA may be more chemically diverse than previously thought. |
Chemistry World
January 28, 2011
David Barden |
Chips make short work of RNA synthesis Chinese scientists have developed a much easier way to make the short strands of RNA that are an essential tool in understanding what genes do. |
Chemistry World
November 2006
Bea Perks |
Call That Chemistry? This year's Nobel prize in chemistry was a tour de force for crystallography, underscoring the vital role chemistry plays across the sciences. |
Chemistry World
August 10, 2015
Kira Welter |
Peptide glue may have held first protocell components together Electrostatic interactions induced by short, positively charged, hydrophobic peptides are all it takes to attach RNA to vesicle membranes. |
Reactive Reports
Apr/May 2005
David Bradley |
At Last, the Structure of DNA Researchers have made a significant advance in our understanding of life's main molecule, using X-ray crystallography to determine the three-dimensional structures of nearly all the possible sequences of a macromolecule. |
Chemistry World
February 27, 2006
Michael Gross |
A DNA Switch for RNA Folding Researchers have equipped a large RNA domain with a DNA switch, which they say can fold or unfold the RNA molecule at will. |
HHMI Bulletin
Winter 2013
Sarah C.P. Williams |
Cellular Search Engine Craig Mello's lab has now uncovered the reason piRNA molecules are so ubiquitous and exist in so many forms in C. elegans: so they can pair with essentially any genetic sequence they encounter during their endless scanning. |
Wired
August 21, 2007 |
Three Smart Things About Genomics 1. The real benefit of studying genomes is that it has taught us how little we know... 2. Genomics' reductionist approach has become more holistic... etc. |
Chemistry World
October 4, 2006
Bea Perks |
Good Year for RNA Roger Kornberg, professor of structural biology at Stanford University, has been awarded the 2006 Nobel prize in chemistry for his work on the molecular basis of transcription. |
Technology Research News
March 12, 2003 |
RNA forms nanomotor Researchers from Purdue University have constructed a tiny motor from DNA and RNA molecules. The device, fueled by ATP, which powers our own movements, could eventually power nanomachines. |
Chemistry World
October 31, 2008
Manisha Lalloo |
DNA-rewinding protein discovered US scientists have found an enzyme that rewinds sections of DNA whose strands have mistakenly come apart. |
Chemistry World
October 2, 2006
Bea Perks |
RNAi Pioneers Win Nobel Prize for Medicine Molecular biologists Andrew Fire and Craig Mello have been awarded this year's Nobel prize in physiology or medicine for their discovery of RNA interference. |
Technology Research News
January 12, 2005 |
RNA Tiles Form Nanopatterns Researchers have developed a method of coaxing artificial RNA molecules to self-assemble into specific shapes, much like a jigsaw puzzle automatically assembling. The structures could eventually be used as templates for nanochips, nanocircuits and nanocrystals |
Chemistry World
July 17, 2012
Simon Perks |
Synthetic nanozymes silence hepatitis C Researchers at the University of Florida, US, have discovered that an artificial nanoparticle complex, known as a nanozyme, can help to treat viral infections by 'shutting off' their genetic material. |
Chemistry World
February 1, 2008
Lewis Brindley |
Genetic Code Read Directly From RNA Scientists have directly read the genetic code from a single strand of RNA for the first time, using a combination of powerful microscopes and laser spectroscopy techniques. |
The Motley Fool
September 28, 2007
Brian Orelli |
RNAi Doesn't Kill Mice After All From Merck, to AstraZeneca, to Novartis, big pharma continues to pump hundreds of millions of dollars into unproven RNAi technology. Investors, take note. |
HHMI Bulletin
Spring 2013
Sarah C.P. Williams |
Sounding the Alarm Details on how cells detect and respond to foreign DNA may provide clues to autoimmune diseases. |
Chemistry World
February 12, 2014
Manisha Lalloo |
Synthetic strategy targets 'undruggable' small RNAs Chemists in the US have found a way to predict small molecules that can target short pieces of RNA involved in some diseases, such as cancer. |
Chemistry World
November 16, 2006
Simon Hadlington |
Gene-Reading Enzyme Catapulted by Scrunch Power Two teams of researchers have solved a conundrum that has baffled molecular biologists for 20 years -- how the enzyme responsible for `reading' genes can release itself from the portion of DNA to which it initially binds extremely tightly. |
Chemistry World
January 11, 2008
John Bonner |
DNA Nanoparticles Detect Gene Expression US scientists have made nanoparticles from DNA that they say could be used to identify the genes being expressed in a single cell. |
Chemistry World
May 13, 2009
James Urquhart |
Insight into RNA origins UK researchers have offered new insight into the origins of RNA and possibly life itself. |
Chemistry World
June 9, 2008
Simon Hadlington |
Artificial virus silences genes Scientists in Korea have created an artificial virus that can target the nucleus of cancer cells and knock out specific genes. |
HHMI Bulletin
February 2011
Mitzi Baker |
When Worlds Collide The right time and place led to a new RNAi-like pathway in bacteria for biochemist Jennifer Doudna and geobiologist Jill Banfield. |
HHMI Bulletin
February 2012
Sarah C. P. Williams |
Force Factor In the context of cells, forces are required to move molecules. Quantifying these forces gives scientists a way to compare and contrast different molecular motors. |
Chemistry World
January 20, 2011
Hayley Birch |
Programmable RNA promising for bio-compatible therapies Programmable nanostructures based on ribonucleic acid could be used as vessels for shipping therapeutic molecules into cells, according to US scientists. |
Scientific American
January 2006
Charles Q. Choi |
Un-Killing the Messenger Processing bodies do more than serve as RNA trash bins in cells. Research now suggests that these P-bodies are less like junkyards and more like office centers, where messages are amassed, silenced and reactivated. |
Chemistry World
May 22, 2014
Philip Ball |
Is junk DNA all garbage? It would be hard to find a recent scientific study that has excited more controversy than that of the international collaboration Encode. They suggested that up to 80% of our DNA was functional. |
HHMI Bulletin
February 2011
Sarah C.P. Williams |
Skin Sense An early question about aging skin led to answers on how cells code for their location. |
Managed Care
November 2003
Thomas Morrow |
Making Sense of Antisense and Interference Treatments that interfere with protein synthesis at the cellular level will soon be debated in medical policy committee meetings. |
Bio-IT World
April 15, 2003
Malorye Branca |
Beyond the Blueprint How will the wealth of data emanating from the human genome and allied technologies impact research on health and disease? |
Chemistry World
October 20, 2008
Hayley Birch |
RNA computers built in yeast US scientists have assembled ribonucleic acids into an adaptable logic system that can be programmed to sense and respond to molecules inside living yeast cells. |
Bio-IT World
December 15, 2004
David A. Bumcrot |
Identifying RNAi Drug Candidates Breakthroughs in understanding RNA's extensive role in essential cellular processes have opened up the potential for a whole new class of drugs based on RNAi. |
Technology Research News
May 5, 2004
Kimberly Patch |
DNA Bot Targets Cancer Researchers from Israel have constructed a molecular-size computer that is programmed to find signs of cancer cells, and when they are present, dispense DNA molecules designed to eradicate those cells. |
