The moon was formed by a violent, head-on collision between the early Earth and a "planetary embryo" called Theia approximately 100 million years after the Earth formed, UCLA geochemists and colleagues report.

Scientists had already known about this high-speed crash, which occurred almost 4.5 billion years ago, but many thought the Earth collided with Theia (pronounced THAY-eh) at an angle of 45 degrees or more -- a powerful side-swipe (simulated in this 2012 YouTube video). New evidence reported Jan. 29 in the journal Science substantially strengthens the case for a head-on assault.

Folic acid has long been touted as an important supplement for expectant mothers, to prevent defects in the baby’s developing brain and spinal cord. It is added as a supplement to breads, pastas, rice and cereals to help ensure that women are exposed to sufficient amounts of this nutrient even before they know they’re pregnant.

Imagine communicating with your bank, the IRS or your doctor by way of an Internet that was actually secure, where if any bad actor were to try to eavesdrop you would know immediately. Such is the promise of secure quantum communication, and has been since it was 'almost ready' starting in the 1990s.

For quantum communication to become the standard, technical challenges still lie ahead. To make progress toward devices that can send and receive quantum data, researchers at Stanford University have created a novel quantum light source. 

THE languages known as Austronesian are spoken by more than 380 million people in territories that include Taiwan, Malaysia, Indonesia, the Philippines, Madagascar and the islands of the Pacific. How did the population¬s of such a large and diverse area come to share a similar tongue? It is one of the most controversial questions in genetics, archaeology and anthropology. The University of Huddersfield's Professor Martin Richards belongs to a team of archaeogenetic researchers working on the topic and its latest article proposes a solution based on what has been the most comprehensive analysis so far of DNA from the region.

Local modifications in histone proteins alter DNA packing density in the cell nucleus to regulate gene activity. They also form the basis of a code in which the significance of a given pattern or motif depends on its broader context.

What bones are to bodies, the cytoskeleton is to cells. The cytoskeleton maintains cellular structure, builds appendages like flagella and, together with motor proteins, powers cellular movement, transport, and division. Microtubules are a critical component of the cytoskeleton, vital for cell division and, because of that, an excellent target for chemotherapy drugs.

Microtubules can spontaneously self-organize, transforming from many singular components into one large cellular structure capable of performing specific tasks. Think Transformers. How they do that, however, has remained unclear.

Some scientists have been so convinced that iron fertilization will help mitigate carbon increases in the atmosphere that, as in Germany and other countries, they have violated international law with illegal experiments.

Another study has found that fertilizing the oceans with iron to produce more carbon-eating algae will not work as those ecological activists have envisioned. 

Scarring is a natural part of any healing process but scar formation within blood vessels can be deadly.

To prevent scarring and the dangerous damage that follows, researchers writing in ACS Biomaterials Science and Engineering discuss development of a new biodegradable material with built-in vitamin A, which has been shown to reduce scarring in blood vessels. This soft elastic material can be used to treat injured vessels or be used to make medical devices, such as stents and prosthetic vascular grafts, to give them intrinsic healing properties. Early tests have shown that the material can reduce cell migration -- a major contributor to the scarring process -- by 57 percent.

Some patients are in desperate need of a liver transplant, so why do many livers go unused by centers across the nation?

Patients on the liver transplant wait list are ranked according to their Model for End-Stage Liver Disease (MELD) score, an objective measure used to predict the risk of death on the wait list and used to prioritize patients and allocate organs. Even with the MELD system in place, there remains geographic differences in the number of patients who die waiting for a transplant, thought to be associated with variations in organ supply by region. 

Here is a problem with truly huge numbers, thought to be unsolvable. 

Imagine that you have 128 tennis balls, and can arrange them in any way you like. How many arrangements are possible? According to a new paper, the answer is about 10^250, also known as ten unquadragintilliard: that's a number so big that it exceeds the total number of particles in the universe.

Such “configurational entropy” - a term used to describe how structurally disordered the particles in a physical system are - could lead to a model for the sort of maths that would be needed to solve bigger problems still, ranging from predicting avalanches, or artificial intelligence systems.