Although separated by hundreds of millions of years of evolution, flies, worms and humans share ancient patterns of gene expression, according to a massive Yale Univ.-led analysis of genomic data. Two related studies led by scientists at Harvard and Stanford,tell a similar story: Even though humans, worms and flies bear little obvious similarity to each other, evolution used remarkably similar molecular toolkits to shape them.
Cartilage lesions in joints often appear in older...
A fortuitous collaboration at Rice Univ. has led to the total synthesis of a recently discovered...
DARPA’s new Electrical Prescriptions (ElectRx)...
Duke Univ. researchers have identified a gene that could help scientists engineer drought-resistant crops. The gene, called OSCA1, encodes a protein in the cell membrane of plants that senses changes in water availability and adjusts the plant’s water conservation machinery accordingly. The effect is similar to a thermostat.
Most memories have some kind of emotion associated with them. A new study from Massachusetts Institute of Technology neuroscientists reveals the brain circuit that controls how memories become linked with positive or negative emotions. Furthermore, the researchers found that they could reverse the emotional association of specific memories by manipulating brain cells with optogenetics.
The harmful and potentially deadly bacterium Listeria is extremely good at adapting to changes. Research from Denmark uncovers exactly how cunning Listeria is and why it is so hard to fight. The discovery could help develop more efficient ways to combat the bacteria.
A new analysis suggests the planet can produce much more land-plant biomass than previously thought. The study, reported in Environmental Science and Technology, recalculates the theoretical limit of terrestrial plant productivity, and finds that it is much higher than many current estimates allow.
The Japanese laboratory that retracted a paper reporting a potentially major breakthrough in stem cell research said Wednesday its researchers have not managed to replicate the results. Scientists at the government-affiliated RIKEN Center for Developmental Biology said they are still trying to match results reported in two papers published by Nature in January and then retracted in July.
Scientists in Germany have managed to take a unique look at the membranes of human cells using a new technique called dSTORM: direct stochastic optical reconstruction microscopy. This is a specific form of high-resolution fluorescence microscopy, and it makes individual saccharified proteins and lipids visible at the molecular level.
Older adults losing vision as they age are more likely to face an increased mortality risk, according to new research from Purdue Univ. The researchers analyzed data from the Salisbury Eye Evaluation study that tracked the vision health of 2,520 older adults, ages 65 to 84. The research was funded by the National Eye Institute.
By striking up the right rhythm in the right brain region at the right time, Brown Univ. neuroscientists report in Nature Neuroscience that they managed to endow mice with greater touch sensitivity than other mice, making hard-to-perceive vibrations suddenly more vivid to them. The findings offer the first direct evidence that “gamma” brainwaves in the cortex affect perception and attention.
For the 2.2 million Americans battling glaucoma, the main course of action for staving off blindness involves weekly visits to eye specialists who monitor increasing pressure within the eye. Now researchers have developed an eye implant that could help stave off blindness caused by glaucoma. The tiny eye implant developed at Stanford Univ. could enable patients to take more frequent readings from the comfort of home.
Univ. of Illinois engineers are bringing a touch of color to glucose monitoring. The researchers developed a new continuous glucose monitoring material that changes color as glucose levels fluctuate, and the wavelength shift is so precise that doctors and patients may be able to use it for automatic insulin dosing—something now possible using current point measurements like test strips.
Laboratory-grown replacement organs have moved a step closer with the completion of a new study. Scientists have grown a fully functional organ from transplanted laboratory-created cells in a living animal for the first time. They have created a thymus, an organ next to the heart that produces immune cells known as T cells that are vital for guarding against disease.
Specialized cells can break through normal tissue boundaries and burrow into other tissues and organs. This crucial step in many normal developmental processes is guided by an extracellular cue called netrin, which orients the anchor cell so that it invades in the right direction. In a new study, researchers have shown how receptors on the invasive cells rove around the cell membrane ”hunting” for a missing netrin signal.
In the past, immune cells were clearly divided into innate cells, which respond to attacks in a non-specific way, and adaptive cells, which learn to recognize new antigens and gain the ability to rapidly react to later attacks. Researchers at RIKEN in Japan have discovered that is not always the case, having found that killer T cells previously thought to be innate, and thus short-lived, can remain in the lung for up to nine months.
There’s a certain type of biomolecule built like a nano-Christmas tree. Called a glycoconjugate, it’s many branches are bedecked with sugary ornaments. It’s those ornaments that get all the glory. That’s because, according to conventional wisdom, the glycoconjugate’s lowly “tree” basically holds the sugars in place as they do the important work of reacting with other molecules.
Princeton Univ. researchers have developed a way to use a laser to measure people's blood sugar, and, with more work to shrink the laser system to a portable size, the technique could allow diabetics to check their condition without pricking themselves to draw blood.
A team of researchers at Louisiana Tech Univ. has developed an innovative method for using affordable, consumer-grade 3-D printers and materials to fabricate custom medical implants that can contain antibacterial and chemotherapeutic compounds for targeted drug delivery.
Printing whole new organs for transplants sounds like something out of a sci-fi movie, but the real-life budding technology could one day make actual kidneys, livers, hearts and other organs for patients who desperately need them. In Langmuir, scientists are reporting new understanding about the dynamics of 3-D bioprinting that takes them a step closer to realizing their goal of making working tissues and organs on-demand.
Researchers from North Carolina State Univ. have developed a novel and versatile modeling strategy to simulate polyelectrolyte systems. The model has applications for creating new materials as well as for studying polyelectrolytes, including DNA and RNA. Polyelectrolytes are chains of molecules that are positively or negatively charged when placed in water.
Researchers from Aarhus Univ. and Caltech have developed a new method for organizing molecules on the nanoscale. Inspired by techniques used for folding DNA origami, the team fabricated complicated shapes from DNA's close chemical cousin, RNA. Unlike DNA origami, whose components are chemically synthesized and then folded in an artificial heating and cooling process, RNA origami are enzymatically synthesized.
As anyone who has bitten into a chili pepper knows, its burning spiciness—though irresistible to some—is intolerable to others. Scientists exploring the chili pepper’s effect are using their findings to develop a new drug candidate for many kinds of pain, which can be caused by inflammation or other problems. They reported their progress on the compound, which is being tested in clinical trials, in the Journal of Medicinal Chemistry.
While it's becoming commonplace for patients to see the results of laboratory work electronically, a new Univ. of Michigan study suggests that many people may not be able to understand what those numbers mean. The research found that people with low comprehension of numerical concepts—or numeracy—and low literacy skills were less than half as likely to understand whether a result was inside or outside the reference ranges.
North Carolina State Univ. researchers have developed methods for electronically manipulating the flight muscles of moths and for monitoring the electrical signals moths use to control those muscles. The work opens the door to the development of remotely-controlled moths, or “biobots,” for use in emergency response.
Two Northwestern Univ. scientists have identified a biomarker strongly associated with basal-like breast cancer, a highly aggressive carcinoma that is resistant to many types of chemotherapy. The biomarker, a protein called STAT3, provides a smart target for new therapeutics designed to treat this often deadly cancer.
Scientists at the Max Planck Institute of Immunobiology and Epigenetics re-activated expression of an ancient gene, which is not normally expressed in the mammalian immune system, and found that the animals developed a fish-like thymus. To the researchers' surprise, while the mammalian thymus is utilized exclusively for T cell maturation, the reset thymus produced not only T cells, but also served as a maturation site for B cells.
It’s often said that humans are wired to connect: The neural wiring that helps us read the emotions and actions of other people may be a foundation for human empathy. But for the past eight years, MIT Media Lab spinout Innerscope Research has been using neuroscience technologies that gauge subconscious emotions by monitoring brain and body activity to show just how powerfully we also connect to media and marketing communications.
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