Most current methods of identifying intracellular information result in the death of the individual cells, making it impossible to continue to gain information and assess change over time. Using magnetized carbon nanotubes, scientists in Texas have devised a new method for extracting molecules from live cells without disrupting cell development.
Barnacle glue, or cement, sticks to any surface, under any conditions. And it’s still far better than anything we have been able to develop synthetically. Now, over 150 years since it was first described by Charles Darwin, scientists are finally uncovering the secrets behind the super strength of barnacle glue.
Yale School of Medicine and Yale Cancer Center researchers have uncovered a genetic vulnerability of cancer cells that express telomerase and showed that telomerase-expressing cells depend upon a gene named p21 for their survival. Authors found that simultaneous inhibition of both telomerase and p21 inhibited tumor growth in mice.
Researchers have discovered a possible explanation for the surprisingly large range of biological effects that are linked to a micronutrient called lipoic acid: It appears to reset and synchronize circadian rhythms, or the “biological clock” found in most life forms. The ability of lipoic acid to help restore a more normal circadian rhythm to aging animals could explain its apparent value in so many important biological functions.
Many organisms that hold potential for proteomic analysis do not yet have a completely sequenced genome because the costs are prohibitive. Xenopus laevis, the African clawed frog, is one such species. Researchers at the Marine Biological Laboratory have found a work-around. Instead of relying on DNA, they used mRNA sequences to more efficiently create a reference database that can be used for proteomic analysis of Xenopus.
Lawrence Livermore National Laboratory scientists are developing electrode array technology for monitoring brain activity as part of a collaborative research project with the Univ. of California San Francisco (UC San Francisco) to better understand how the neural circuitry of the brain works during memory retrieval.
Biological physicists at Rice Univ. have succeeded in analyzing transmembrane protein folding in the same way they study the proteins’ free-floating, globular cousins. They have applied energy landscape theory to proteins that are hard to view because they are inside cell membranes. The method should increase the technique’s value to researchers who study proteins implicated in diseases and possibly in the creation of drugs to treat them.
Recent research shows that, in the presence of charged substances, water molecules favor associating with elements with a negative electrical charge rather than a positive electric charge. A study on the subject that employed advanced optical spectroscopy techniques could provide new insights on the processes of cell formation.
A 25-year-long study published in Geology provides the first quantitative measurement of in situ calcium-magnesium silicate mineral dissolution by ants, termites, tree roots, and bare ground. This study reveals that ants are one of the most powerful biological agents of mineral decay yet observed. This discovery might offer a line of research on how to "geoengineer" accelerated carbon dioxide consumption by Ca-Mg silicates.
Researchers in Kentucky have developed a technology that uses male mosquitoes to effectively sterilize females through a naturally occurring bacterium. Called MosquitoMate, the new technology has been issued an experimental use permit for open field releases targeting the invasive Asian tiger mosquito, which is a vector for newly introduced pathogens like the Chikungunya virus.
Prothrombin is an inactive precursor for thrombin, a key blood-clotting protein, and is essential for life because of its ability to coagulate blood. Using x-ray crystallography, researchers have published the first image of this important protein. By removing disordered sections of the protein’s structure, scientists have revealed its underlying molecular mechanism for the first time.
Tamoxifen is an oral drug that is used for breast cancer prevention and as therapy for non-invasive breast cancer and invasive cancer. Seema Khan, a professor of surgery at Northwestern Univ., has found that is tamoxifen is used in gel form, it reduces the growth of cancer cells while minimizing dangerous side effects such as blood clots and uterine cancer.
You may be more similar to your friends than you think. A new study suggests that the DNA code tends to be more alike between friends than between strangers, and the similarity goes beyond the effect of shared ethnicity. The difference is slight but detectable and consistent, and the finding could be important for theories about human evolution.
The rate of Alzheimer's disease and other dementias is falling in the U.S. and some other rich countries—good news about an epidemic that is still growing simply because more people are living to an old age, new studies show. An American over age 60 today has a 44% lower chance of developing dementia than a similar-aged person did roughly 30 years ago, the longest study of these trends in the U.S. concluded.
Developmental processes in all living organisms are controlled by genes. At the same time there is a continuous metabolism taking place. Recent research in Austria has analyzed this interaction in flowering plants. For the first time, changes in metabolism were linked to 3-D morphometric data using micro-computed tomography (micro-CT) for the first time.
The creators of a unique kit containing 3-D printed anatomical body parts say it will revolutionize medical education and training, especially in countries where cadaver use is problematic. The “3D Printed Anatomy Series”, developed by experts in Australia, is thought to be the first commercially available resource of its kind. The kit contains no human tissue, yet it provides all the major parts of the body required to teach anatomy.
Biophysics researchers have used short pulses of light to peer into the mechanics of photosynthesis and illuminate the role that molecule vibrations play in the energy conversion process that powers life on our planet. The findings could potentially help engineers make more efficient solar cells and energy storage systems.
Citing an anthrax scare and other safety problems, the Centers for Disease Control and Prevention on Friday said it shut down two research labs and stopped shipping highly dangerous germs to other labs. An incident at one of the closed Atlanta laboratories could have accidentally exposed workers in three labs to anthrax last month. A second, previously undisclosed problem earlier this year involved deadly bird flu.
We are all creatures of habit, and a new study finds ocean bacteria are no exception. In a paper published in Science, researchers report that microbes in the open ocean follow predictable patterns of biological activity, such as eating, breathing and growing. Certain species are early risers, exhibiting genetic signs of respiration, metabolism and protein synthesis in the morning hours, while others rouse to action later in the day.
A crucial piece of the puzzle behind nature’s ability to split the water molecule during photosynthesis that could help advance the development of artificial photosynthesis for clean, green and renewable energy has been provided by an international collaboration of scientists led by researchers with the Lawrence Berkeley National Laboratory and the SLAC National Accelerator Laboratory.
Although feelings are personal and subjective, the human brain turns them into a standard code that objectively represents emotions across different senses, situations and even people. A Cornell Univ. team's findings provide insight into how the brain represents our innermost feelings and upend the long-held view that emotion is represented in the brain simply by activation in specialized regions for positive or negative feelings.
Geckos and spiders seem to be able to sit still forever upside down. But sooner or later the grip is lost, no matter how little force is acting on it. Engineers, using scanning electron microscopy, have recently demonstrated why this is so by showing how heat, and the subsequent movement of molecules at the nanoscale, eventually force loss of adhesion.
Scientists succeeded in obtaining an unprecedented view of a type of brain cell receptor that is implicated in a range of neurological illnesses. The team of biologists at Cold Spring Harbor Laboratory used the Advanced Photon Source at Argonne National Laboratory to get an atomic-level picture of the intact NMDA (N-methyl, D-aspartate) receptor should serve as template and guide for the design of therapeutic compounds.
Scientists from The Scripps Research Institute have discovered a surprising new role for a pair of compounds—which have the potential to alter circadian rhythm, the complex physiological process that responds to a cycle of light and dark and is present in most living things. At least one of these compounds could be developed as a chemical probe to uncover new therapeutic approaches to a range of disorders, including diabetes and obesity.
Scientists in Switzerland have developed a fast and accurate method for determining exactly which proteins cause allergies to milk. The novel approach, which is based on a specialized form of laser desorption-ionization mass spectrometry, is highly personalized and can extend to other foods as well.