Microscopy technique "paves way" for improving understanding of cellular functions
Scientists have developed a new way of counting labeled proteins in living cells that could become a standard and valuable tool in the field of biomedical research......»»
Researchers improve tunability in optical differentiation
A new technique may make it easier for researchers to create real-time images of microscopic samples by considering the waves that propagate through sample surfaces as light interacts with them......»»
New technique zeros in on the genes that snakes use to produce venom
Only about 10% of the world's roughly 4,000 snake species have venom strong enough to seriously hurt a human, but that's enough for snake bites to be an important public health concern. To help better understand how snakes make their venom and how ve.....»»
Study explores metabolic disruptions in Artemisia annua mutant strain
Artemisia annua is celebrated for its production of artemisinin, a powerful antimalarial agent. Although its glandular secretory trichomes have been the focus of extensive research, a complete understanding of their metabolic processes remains elusiv.....»»
Silencing in action: How cells "repress" genomic remnants of ancient viruses
Researchers have identified key cellular control sites that regulate gene expression and prevent the activation of "cryptic" genomic regions, including ancient viral sequences......»»
DNA origami and fluorescent probes can precisely release molecular cargo
In the world of nanotechnology, the development of dynamic systems that respond to molecular signals is becoming increasingly important. The DNA origami technique, whereby DNA is programmed so as to produce functional nanostructures, plays a key role.....»»
Reinventing the clock: NASA"s new tech for space timekeeping
Here on Earth, it might not matter if your wristwatch runs a few seconds slow. But crucial spacecraft functions need accuracy down to one billionth of a second or less. Navigating with GPS, for example, relies on precise timing signals from satellite.....»»
Scientists find new epigenetic switch, revealing how genes are regulated in early development
The team of Professor Christof Niehrs at the Institute of Molecular Biology (IMB) in Mainz, Germany, has discovered that a DNA modification called 5-formylcytosine (5fC) functions as an activating epigenetic switch that kick-starts genes in early emb.....»»
Google Chrome may start resurfacing tabs from your other devices
Google is improving the way its cross-platform tab syncing works to make the handoff between devices even more seamless......»»
Scientists Will Engineer the Ocean to Absorb More Carbon Dioxide
A research consortium plans to revive geoengineering trials of the controversial iron fertilization technique to pull carbon dioxide from the air, despite public backlash.....»»
Understanding the Origins of Life on Earth Could Help Find Life beyond It
We can’t yet tell how life got its start on Earth. That’s one great reason to keep looking for life elsewhere.....»»
New Hope for Treating People with Sickle Cell Disease
Improving sickle cell care by expanding treatment options, advancing new therapies and amplifying the voices of people with the disease.....»»
Going Back to the Moon, Researching Chickadee Hybrids and Understanding Addiction
This month’s issue covers the reasons it’s so hard to go back to the moon, the science of empathy and new advances in treating sickle cell disease.....»»
New standards and better technology are improving wireless EV charging
The speed, power density and efficiency of wireless charging are increasing at the same time engineers are finding ways to reduce weight. New standards aim to ensure charging works regardless of vehicle brand or equipment manufacturer......»»
A 30-year-old man built muscle and burned fat in 4 months with a time-saving workout technique
A 30-year-old man built muscle and burned fat in 4 months with a time-saving workout technique.....»»
Zirconium metals under extreme conditions found to deform in surprisingly complex ways
Materials are crucial to modern technology, especially those used in extreme environments like nuclear energy systems and military applications. These materials need to withstand intense pressure, temperature and corrosion. Understanding their lattic.....»»
New method improves understanding of light-wave propagation in anisotropic materials
Understanding how light travels through various materials is essential for many fields, from medical imaging to manufacturing. However, due to their structure, materials often show directional differences in how they scatter light, known as anisotrop.....»»
Scientists decipher the energy patterns in our cells
Our cells harness energy for essential functions such as division, wound healing, and our immune response to diseases including cancer. But until now, the mechanics of how that energy affects cell behavior—and how this relates to health outcomes—.....»»
Atmospheric lidar instrument on climate satellite enhances understanding of aerosols and clouds
The atmospheric lidar ATLID, the last of four instruments on board the EarthCARE satellite launched in May, has now been successfully put into operation. The joint mission of the European Space Agency (ESA) and the Japanese Space Agency (JAXA) is des.....»»
Scientists discover how TGF-Beta sends its message even while tethered to the cell membrane
For years, scientists have thought that TGF-Beta, a signaling protein that holds sway over an astonishing array of cellular processes from embryonic development to cancer, could only do its work once it escaped a lasso-like "straitjacket.".....»»
Symmetry model sheds light on the chemistry surrounding peptide helices
Helices are structures found naturally in many important molecules, such as proteins. These helices possess a twist that depends on the arrangement of their basic components. By understanding how a helix is formed, we can gain deeper insights into ho.....»»