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IEEE Spectrum
March 2011
Lucks & Arkin |
Synthetic Biology's Hunt for the Genetic Transistor How genetic circuits will unlock the true potential of bioengineering   |
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 2011
Michele Solis |
Right Before Your Eyes Coupling protein sequence to function, thousands of variants at a time. |
Bio-IT World
March 8, 2005
Kevin Davies |
Evolution of New Genes Studied EMBL researchers use comparative genomic analysis to identify new primate-specific gene family. |
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. |
Scientific American
July 2008
Christine Soares |
Looking at Yesterday's Genes for Tomorrow's Cures Resurrected "jumping gene" could deliver DNA. |
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
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
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. |
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. |
Chemistry World
February 2012 |
Column: The crucible To understand the chemical choreography of the cell, we must acknowledge the bustling biomolecular ballroom in which it takes place, says Philip Ball |
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. |
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. |
Chemistry World
February 18, 2008
John Bonner |
Flicking the Acetyl Switch A strain of Escherichia coli that can produce proteins containing an acetylated version of the amino acid lysine could help to reveal how acetylation changes the function of hundreds of proteins inside cells. |
HHMI Bulletin
May 2011
Sarah C.P. Williams |
The Pace of Evolution A close look at the human genome shows the slow and steady beat of adaptation. |
Wired
January 2005
Oliver Morton |
Life, Reinvented A group of MIT engineers wanted to model the biological world. But, damn, some of nature's designs were complicated! So they started rebuilding from the ground up - and gave birth to synthetic biology. |
Chemistry World
December 12, 2006
Michael Gross |
Ancient Protein Moonlights in the Eye A structural protein in the mouse eye lens is the evolutionary descendant of an ancient bacterial enzyme, researchers have found -- suggesting that moonlighting saved the protein from oblivion when its original role was taken over by a different family of enzymes. |
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
June 30, 2011
Laura Howes |
Chemically evolved bacteria European scientists have created an Escherichia coli strain with a separate genome using chlorinated DNA. |
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
October 1, 2008
Hayley Birch |
Chemical Knockout for Chlamydia US scientists have used chemical inhibitors to block proteins that Chlamydia produces as it invades cells. |
Bio-IT World
February 11, 2005
Kevin Davies |
Bioinformatics on the Brain Adaptive selection: accelerated mutation rate produced humans' large brain. |
Scientific American
March 2009
W. Wayt Gibbs |
Evolution in a Bottle: Synthetic Life Oozes Closer to Reality Self-replicating RNAs advance science another step toward artificial life |
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
August 8, 2012 |
Protein Coat for Gene Therapy Kenneth Woycechowsky's group at the University of Utah has modified a non-viral protein so that it will carry RNA. |
Salon.com
December 19, 2000
Carolyn McConnell |
"The Century of the Gene" by Evelyn Fox Keller A new book argues that there may be no such thing as a gene. At least, it has proved very difficult to isolate a discrete physical item that can do the work our notion of the gene does... |
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. |
Chemistry World
January 12, 2015
Emma Stoye |
Protein mutant libraries to probe diseases' genetic link quickly and cheaply Researchers in the US have developed a faster and less costly way to investigate the effects of genetic mutations on proteins, which should offer new insights into hereditary diseases. |
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
September 9, 2007
Simon Hadlington |
Sugaring the Pill Researchers in the US have made a key advance in efforts to bolt sugar molecules onto natural products in the search for new drugs. |
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. |
Technology Research News
January 1, 2003
Eric Smalley |
Altered protein orders metal bits Researchers from NASA, the SETI Institute and Argonne National Laboratory have genetically modified a bacteria that lives in geothermal hot springs in order to make a microscopic scaffolding that produces a high-tech material. |
HHMI Bulletin
May 2010
Robert Tjian |
Biomolecular Crowdsourcing A generation of web-savvy entrepreneurs has found a relatively cheap and effective approach to solving complex problems and soliciting ideas: toss out a challenge into a vibrant digital community and watch what happens. |
Chemistry World
June 21, 2007
Simon Hadlington |
Boron is Key to Antifungal Agent Researchers have shown that the presence of a boron atom is key to an antifungal agent being developed to treat infections of fingernails and toenails. |
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. |
HHMI Bulletin
February 2011 |
Crucibles of Dynamism Puzzling pockets of redundancy account for about 5 percent of the human genome. Investigator Evan Eichler found a way to interpret what is happening in these areas of genetic repetition. |
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. |
CIO
May 1, 2003
John Edwards |
Bubbling Up Nanostructures Nearly boiling, acidic hot springs could lead to the creation of electronic components that are 10 to 100 times smaller than today's smallest parts. |
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. |
HHMI Bulletin
Nov 2011
Nicole Kresge |
Bacterial -- Viral Warfare with CSF When bacteria survive a run-in with a virus or phage, they take some of the invader's DNA and integrate it into their own genome to help combat future attacks. |
Chemistry World
December 21, 2006
Henry Nicholls |
Silent SNPs Serve up a Structural Surprise The sequence of amino acids no longer dictates the structure and function of a protein according to a surprising new paper. |
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
March 24, 2004 |
DNA has nano building in hand Researchers from Ludwig Maximilians University in Germany have built a simple molecular machine from DNA that can bind to and release single molecules of a specific type of protein. |
Fast Company
November 2009
David H. Freedman |
The Gene Bubble: Why We Still Aren't Disease-Free When the human genome was first sequenced nearly a decade ago, the world lit up with talk about how new gene-specific drugs would help us cheat death. Well, the verdict is in: Keep eating those greens. |
Chemistry World
August 29, 2007
Ananyo Bhattacharya |
'Lost' Folate Enzyme Found After 30 Years US researchers have revealed the identity of an enzyme used by bacteria to make the essential B vitamin folate, 30 years after it was first isolated. |
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. |
Bio-IT World
April 15, 2003
Robert M. Frederickson |
Protein Chemistry Surfaces Protein chips seek to do for protein expression profiling what DNA chips did for RNA expression. |
Technology Research News
June 16, 2004 |
Genes Automate DNA Machines Researchers have taken a step toward automating nanomachines with a method that allows instructions for a DNA-based machine to be contained in a gene, or another stretch of DNA. |
Chemistry World
June 23, 2015
Derek Lowe |
Missing the target There are enzymes that no mustard has ever cut, to steal a phrase from science fiction author James Blish. Phosphatases, the flip side of kinase activity, are a perfect example. |
Chemistry World
November 27, 2013
Jennifer Newton |
A cytochrome from scratch Artificial proteins could be closer to participating in natural biochemical pathways after researchers show that bacteria will process amino acid sequences entirely unrelated to any natural protein to produce a fully functioning cytochrome. |
