| Similar Articles |
|---|
 |
Chemistry World
August 17, 2011
Jon Cartwright |
Plasma Treatment to Use Patient's Proteins to Improve Medical Device Biocompatibility Researchers have developed a plasma treatment that can make any medical device biocompatible by sticking a patient's own proteins to it.   |
Reactive Reports
Issue 51
David Bradley |
Protein Crystals Trapped Researchers have developed a new technique for crystallizing proteins, which could open up a whole range of materials to this powerful analytical technique. |
Chemistry World
June 6, 2010
Philip Ball |
Blood-like liquid protein formed A liquid form of the oxygen-binding protein myoglobin retains its biological function even though it seems virtually water-free, researchers have found. |
Chemistry World
August 24, 2009
Phillip Broadwith |
'Chemical nose' sensor sniffs blood protein profile US scientists have developed a sensor system for profiling the protein content of human blood serum without needing individual receptors for each separate protein. |
Chemistry World
March 9, 2012
Fiona McKenzie |
Cleaning up antibodies for disease studies A polymer functionalized with boronic acid promises a cheap and quick way to purify antibodies for disease studies, according to scientists in China. |
Chemistry World
September 23, 2008
Simon Hadlington |
Nanoparticles Hide Behind Protein Cloak Polymer nanoparticles suspended in human blood become cloaked in plasma proteins, new research has shown. |
Chemistry World
June 14, 2011 |
A New Spin on Protein NMR A new technique will allow researchers to study protein structure in greater detail using NMR. |
Chemistry World
April 28, 2011
Laura Howes |
Polymer collapses in a flash Researchers in the Netherlands have created a polymer that folds up like a protein on exposure to light. |
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. |
Chemistry World
February 14, 2007
Lionel Milgrom |
Slim-Line Silicon Speeds up Protein Separation Tough, ultra-slim silicon membranes could drastically improve the performance of lab-on-a-chip micro-analytical systems, kidney dialysis machines and, in the future, even produce an artificial kidney, claim researchers. |
Chemistry World
July 15, 2015
Aurora Walshe |
Fog-free film doesn't dare to glare Scientists in China have built a thin film that retains its antifogging properties even under an antireflective coating. |
Chemistry World
May 5, 2009
Phillip Broadwith |
Don't FRET over broken polymers Fluorescent proteins could one day help identify microscopic cracks and damage in polymer materials, allowing them to be monitored to prevent failure in load-bearing applications such as in aerospace and biomedical devices. |
Chemistry World
May 16, 2007
Richard Van Noorden |
Nanopolymers Get Stuck In U.S. scientists have discovered how to glue two materials together with a one nanometer-high layer of polymer chains. |
Chemistry World
February 28, 2011
Hayley Birch |
Protein nanotubes trap viruses Japanese researchers have used nanotubes made from human blood proteins to trap hepatitis B virus. They say their work lays the foundations for a new chemistry of protein-based nanotubes with biomedical applications. |
Chemistry World
December 12, 2011
Simon Hadlington |
Zwitterion approach to stabilizing drug proteins Researchers in the US have discovered a new way to stabilize and protect protein molecules without affecting the protein's biological activity. |
Technology Research News
May 19, 2004 |
Junctions Expand Nano Railroads Researchers from the University of Washington and Sandia National Laboratories have co-opted cell proteins for use in track networks that can be integrated into nanotechnology devices to shuttle tiny amounts of materials around. |
Chemistry World
August 2, 2012
Philip Ball |
Polymer replacement for the hydration shell The sheath of water molecules, called a hydration shell, that gives protein molecules the flexibility to do their catalytic job can be replaced by polymers, according to Adam Perriman of the University of Bristol and his coworkers. |
Chemistry World
September 3, 2013
William Bergius |
Better separations with more permeable membranes There is usually a trade-off between selectivity and liquid permeability when making an ultrafiltration membrane but new research from scientists in the US suggests this doesn't have to be the case. |
Chemistry World
October 11, 2007
Jonathan Edwards |
'Tuneable' Polymer Can Separate Anything An international team of scientists have made a polymer with pores which can be fine-tuned to speedily separate different small molecules -- with applications ranging from carbon capture to fuel cells. |
Bio-IT World
September 11, 2003
Mark D. Uehling |
Fishing Chips The next generation of protein microarrays from the likes of Protometrix and Molecular Staging may threaten the early leads of Biacore and Ciphergen -- and work so well that drug companies won't want them. |
Chemistry World
July 20, 2009
Philip Ball |
Researchers form first liquid protein Chemists at the University of Bristol, UK and their colleagues, in collaboration with the Max Planck Institute for Colloid and Interface Research in Golm, Germany, have figured out how to convert pure proteins into a liquid state, without any solvent. |
Chemistry World
August 18, 2008 |
Patterning Promise for Next-Gen Computers Breakthroughs in controlling the way polymers self-assemble on surfaces could be key to making the next generation of computer components, say two teams in the US. |
Chemistry World
April 16, 2014
Elinor Hughes |
Starfish glue secrets under the microscope Scientists believe they have found the protein that lets starfish feet temporarily glue themselves to a surface. |
Chemistry World
January 9, 2013
Laura Howes |
Antifreeze protein's watery dance Most animals left in -30 C temperatures wouldn't last very long. Not only would they get hypothermia, but the water in their bodies would start to freeze. Some animals and plants, however, use antifreeze proteins to keep ice at bay. |
Chemistry World
August 26, 2008
Fred Campbell |
High-throughput protein microarrays on the way A new method to rapidly generate protein microarrays has been developed by UK researchers at the University of Manchester. |
Chemistry World
October 15, 2009
Simon Hadlington |
Optical conveyor belt gathers up molecules Researchers in Germany have developed a novel way to 'round up' biological molecules that are freely suspended in solution and trap them in a confined space using nothing more than light. |
Chemistry World
February 13, 2014
Philip Ball |
Ice core to antifreeze protein's inner workings The antifreeze protein that protects the winter flounder from sub-zero temperatures has been found to have an odd structure. |
Prepared Foods
February 2008
Sharon Book |
Article: Protein Ingredients for Health and Texture A variety of soy, dairy and egg proteins are available for the food formulator to obtain the desired texture in a food or beverage. |
Chemistry World
May 2, 2007
Michael Gross |
Protein Printboard Chemists in the Netherlands have created nanoscale structures that can immobilize proteins with exquisite control over specificity, strength and orientation. |
Chemistry World
June 1, 2010
Simon Hadlington |
Structural order gained over conducting polymer Scientists in Canada and the US have shown how it is possible to assemble ordered arrays of short chains of a commercially important conducting polymer on a metal surface. |
Technology Research News
January 14, 2004 |
Wet biochip preserves proteins Researchers from Kyushu University in Japan have produced a hydrogel material that makes it possible for proteins to survive aboard labs-on-a-chip. |
| Industrial Physicist |
Biomimetic Nanotechnology Although biomimetic nanotechnology is in its infancy, with no applications yet reaching commercialization, the barriers in some cases lie mainly in scaling up production processes to industrial levels. |
Technology Research News
June 18, 2003 |
Protein traps nanoparticles Researchers from the University of Tokyo in Japan have adapted a tubular bacterial protein for technological applications by coaxing it to combine with individual luminescent semiconductor nanoparticles. |
Chemistry World
September 17, 2012
Ian Le Guillou |
Raising the curtain on single-stranded DNA Scientists have created microfluidic devices containing single-stranded DNA 'curtains' for the first time, allowing scientists to study its interactions with proteins in real time. |
Industrial Physicist
Aug/Sep 2003
Ineke Malsch |
Protein research calls for advanced instruments The science of protein interactions is becoming a major tool in biomedical and drug development research. Carrying out and advancing such studies more efficiently and effectively, however, will require new, cutting-edge instrumentation. |
Scientific American
October 2008
Steven Ashley |
Cool Polymers: Toward the Microwave Oven Version of the Refrigerator Getting a bigger chill out of polymers that respond to electric fields. |
Chemistry World
March 20, 2009
Lewis Brindley |
Sensitive Polymers Show Drug Delivery Promise Chemists in the US have developed a three-component polymer that can respond to temperature, pH and the presence of a reducing agent. |
HHMI Bulletin
Feb 2011 |
DNA Curtains How proteins behave in such a crash test gives scientists data about their structural integrity, how they attach to DNA, and how they behave in a cell. |
Chemistry World
December 20, 2011
Simon Hadlington |
pH adjustable protein micro-lenses Scientists in China have used a common protein to create tiny optical lenses, a few tens of micrometres in diameter, whose focus can be adjusted simply by changing the pH of the surrounding medium. |
Chemistry World
April 27, 2006 |
`Sticky Trees' Glue Molecules to Proteins Researchers have developed a chemical glue that binds molecules to proteins without compromising protein function. The method could be used to modify a wide range of proteins for a variety of purposes, such as in the development of new protein-based therapies. |
Chemistry World
November 2006
Philip Ball |
Opinion: The Crucible Here are some of the latest instalments in the ongoing story of how protein misfolding causes neurodegenerative diseases -- a story that is not solely about developing clinical treatments or preventative medicines, but which goes to the heart of proteins' role as the stuff of life. |
Science News
October 14, 2006
Ivars Peterson |
Knots in Proteins Knotted proteins are rare, but more than just random occurrences. The secret of spontaneous knotting lies in the mathematics of self-avoiding random walks. |
Chemistry World
January 4, 2007
Henry Nicholls |
Microscopic Lab Investigates Contents of a Cell It's small-scale science that could have a massive impact on research into cell biology. Scientists have produced a microscopic laboratory where they can count individual proteins in a single cell. |
Bio-IT World
April 16, 2004
Robert Frederickson |
Trial Separations Protein separation through the digital ProteomeChip microchip takes merely minutes, resulting in significantly increased productivity. |
Chemistry World
March 6, 2011
Mike Brown |
Molecules that walk, hop and jump 'Two legged' molecules walk, hop and fly across a receptor surface, according to researchers in the Netherlands and Ireland. The findings could help us understand how viruses and bacteria interact with cell membranes, they say. |
Chemistry World
July 31, 2008 |
Nanostructures Made Easy Scotland-based chemists have invented a new way to build nanoscale arrays of molecules over a large surface area: a technique that may be key to making nanostructures in sophisticated sensors, catalysts, and tiny computer parts. |
Chemistry World
May 12, 2011
Jon Cartwright |
'Chemical soldering' heralds single molecule electronics Scientists in Japan and Switzerland have demonstrated how to wire up single molecules with conductive nanowires. |
Bio-IT World
February 10, 2003
Robert M. Frederickson |
Bringing Integrated Circuits to Life Cell-sized biochips mean that channels, pumps, and valves must become minuscule, too. |
Chemistry World
June 1, 2014
Tim Wogan |
Squid skin conductor for bioelectronics A protein from squid skin is a good conductor of protons, researchers in California have discovered. |
Technology Research News
February 23, 2005 |
Plastic changes color in heat Researchers have engineered a plastic that loses its color when heated. It could eventually be used to produce relatively inexpensive temperature-based paint. |
