Drug resistance
milhayser | February 16, 2012
On The Pump Handle, Liz Borkowski surveys a new report on chronic illness released by the Institute of Medicine. Borkowski writes, "diabetes and heart disease are what leap to my mind—in part because they're so tied to the lifestyle factors of smoking, inadequate exercise, and poor nutrition, and in part because they cost our health system so much money." But other physical (and mental) afflictions beleaguer tens of millions of Americans (116 million of which, for example, suffer from chronic pain). In total, the IoM report "highlights nine 'clinical clusters' that together 'encompass and…
sporte | May 2, 2009Nick's post on Amantadine resistance in swine flu was so interesting, I had to look at the protein structures myself.
I couldn't find any structures with the S31N mutation that Nick discussed, but I did find some structures with the M2 protein and Amantadine. Not only are these structures beautiful, but you can look at them and see how the protein works and how the drug prevents the protein from functioning.
As Nick mentions, the M2 protein from influenza makes a channel for hydrogen ions within the viral membrane. The channel controls the pH inside the virus by opening and closing.…
edyong | January 23, 2009Methicillin-resistant Staphylococcus aureus (MRSA) is very difficult to kill. This notorious "superbug" can withstand a broad and growing range of antibiotics, and is the leading cause of hospital infections in many countries. But it's not restricted to hospitals. According to studies coming in from all over the world, MRSA has found a new route into our bodies -piggyback.
Pig farms throughout the world have become breeding grounds for strains of MRSA that can jump from swine to humans. These strains have already been isolated in the Netherlands, Denmark and Canada, and now, the latest study…
edyong | December 13, 2008When normal bacteria are exposed to a drug, those that become resistant gain a huge and obvious advantage. Bacteria are notoriously quick to seize upon such evolutionary advantages and resistant strains rapidly outgrow the normal ones. Drug-resistant bacteria pose an enormous potential threat to public health and their numbers are increasing. MRSA for example, has become a bit of a media darling in Britain's scare-mongering tabloids. More worryingly, researchers have recently discovered a strain of tuberculosis resistant to all the drugs used to treat the disease.
New antibiotics are…
edyong | October 23, 2008
The plague, or the Black Death, is caused by a microbe called Yersinia pestis. In the 14th century, this microscopic enemy killed off a third of Europe's population. While many people consign the plague to centuries past, this attitude is a complacent one. Outbreaks have happened in Asia and Africa over the last decade and the plague is now recognised as a re-emerging disease. In 1996, two drug-resistant strains of plague were isolated from Madagascar. One of these, was completely resistant to all the drugs that are used to control outbreaks.
Anyone interested in bacteria can attest to…
edyong | April 3, 2008Antibiotics are meant to kill bacteria, so it might be disheartening to learn that some bacteria can literally eat antibiotics for breakfast. In fact, some species can thrive quite happily on nothing but antibiotics, even at high concentrations.
The rise of drug-resistant bacteria poses a significant threat to public health and many dangerous bugs seem to be developing resistance at an alarming rate. The headline-grabbing MRSA may be getting piggybacks from livestock to humans, while several strains of tuberculosis are virtually untreatable by standard drugs.
But a startling new study…
sporte | September 11, 2007Two protein structures from an avian influenza virus are shown below. One form of the protein makes influenza virus resistant to Oseltamivir (Tamiflu®)
Don't worry, these proteins aren't from H5N1, but they do come from a related influenza virus that also infects birds.
technorati tags: molecular models, protein structures, influenza, bioinformatics, Cn3D
One protein structure is from a strain that is sensitive to an anti-viral drug called "Tamiflu®". The other structure is from the same virus, except there's a slight difference. A single base change in the viral RNA changed the codon that…