machinery
College Park, MD (July 27, 2009) -- In the race for faster, cheaper ways to read human genomes, Pacific Biosciences is hoping to set a new benchmark with technology that watches DNA being copied in real time.
Los Angeles, London, New Delhi, Singapore and Washington DC (July 27, 2009) According to a study in a special issue of Medical Decision Making, a large-scale, covert anthrax attack on a large city would overwhelm hospital resources even with an extremely effective public health response, primarily because of expected delays in detecting the attack and initiating a response to it.
BOSTON, Mass. (July 26, 2009) -- High-throughput sequencing has turned biologists into voracious genome readers, enabling them to scan millions of DNA letters, or bases, per hour. When revising a genome, however, they struggle, suffering from serious writer's block, exacerbated by outdated cell programming technology.
LA JOLLA, CA -- Of all the qualities that distinguish humans from other species, how we learn is one of the most significant.
Selenium is a trace element crucial to life - too little or too much of it is fatal. In the July 17 issue of the journal Science, researchers at Yale University and University of Illinois at Chicago detail the molecular mechanisms that govern its metabolism in the human body.
The molecular machinery that helps brain cells migrate to their correct place in the developing brain has been identified by scientists at St. Jude Children's Research Hospital. The finding offers new insight into the forces that drive brain organization in developing fetuses and children during their first years.
A study by Nanyang Technological University (NTU)'s Assistant Professor Li Hoi Yeung, Assistant Professor Koh Cheng Gee and their team have made an important contribution to the understanding of the process that cells go through when they die. This process known as 'apoptosis' or programmed cell death, is a normal process in the human body which removes perhaps a million cells a second.
Researchers in the Heart Institute at Cincinnati Children's Hospital Medical Center have discovered a novel gene responsible for heart muscle disease and chronic heart failure in some children and adults with dilated cardiomyopathy (DCM).
Mycobacterium tuberculosis is arguably the world's most successful infectious agent because it knows how to avoid elimination by slowing its own growth to a crawl. Now, a report in the July 10 issue of the journal Cell, a Cell Press publication, offers new insight into the bugs' talent for meager living.
MEDFORD/SOMERVILLE, Mass. -- Researchers in human genetics have long known that expansions of GAA repeats -- resulting in this nucleotide triplet repeating hundreds or thousands of times -- cause the most common hereditary neurological disorder known as Friedreich's ataxia. There is no cure for this condition, which damages the nervous system and can result in heart disease.
A team of researchers from the University of Huelva has developed an environmentally-friendly lubricating grease based on ricin oil and cellulose derivatives, according to the journal Green Chemistry. The new formula does not include any of the contaminating components used to manufacture traditional industrial lubricants.
The Stowers Institute's Xie Lab has revealed how the BAM protein affects germline stem cell differentiation and how it is involved in regulating the quality of stem cells through intercellular competition. The work was published today by PNAS Early Edition.
In the bustling economy of the cell, little bubbles called vesicles serve as container ships, ferrying cargo to and from the port - the cell membrane. Some of these vesicles, called post-Golgi vesicles, export cargo made by the cell's protein factory.
AUGUSTA, Ga. -- Dissecting how heat shock protein 90 gets steroid receptors into shape to use hormones like estrogen and testosterone could lead to targeted therapies for hormone-driven cancers, such as breast and prostate, that need them as well, Medical College of Georgia researchers say.
Scientists have identified a protein in the brain that plays a key role in the function of mitochondria -- the part of the cell that supplies energy, supports cellular activity, and potentially wards off threats from disease. The discovery, which was reported today in the Journal of Cell Biology, may shed new light on how the brain recovers from stroke.
