Microbiologist Carl Woese is well known as an iconoclast. Indeed, few biologists have so thoroughly shaken the tree of life as he did when he proposed that there are not two major branches -- prokaryotes, whose cells lack nuclei, and eukaryotes who possess nuclei, including all animals, plants, fungi, and protists -- but rather three. "Prokaryotes", Woese argued, do not represent a cohesive category, and should be split into two deeply divergent lineages: the Bacteria, with which everyone is reasonably familiar, and the Archaea, superficially similar organisms that are less commonly encountered as many of them reside in extreme environments. What's more, studies of genetic data suggested that the Archaea are actually more closely related to eukaryotes -- including humans -- than they are to bacteria.

Woese's three-domain tree of life. From Wikimedia Commons.

At 79 years of age, Woese is still shaking things up. Most recently, he stated in an interview with Wired that,

My feeling is that evolution shouldn't be taught at the lower grades. You don't teach quantum mechanics in the grade schools. One has to be quite educated to work with these concepts; what they pass on as evolution in high schools is nothing but repetitious tripe that teachers don't understand.

A healthy individual loses around a hundred hairs a day. Nothing to worry about as long as they are constantly replaced and the losses occur evenly around the whole scalp. But when hair loss goes well beyond this level it can become quite a problem for those affected – not only superficially in terms of looks but also psychologically.

A breakthrough on the hair front has now been made by an international research team headed by scientists at the University of Bonn. After six years of research they have succeeded in identifying a gene that is responsible for a rare hereditary form of hair loss known as Hypotrichosis simplex.

The scientists are the first to identify a receptor that plays a role in hair growth. They now hope that their research findings will lead to new therapies that will work with various forms of hair loss.

Each year, technologies initially intended for space exploration come into our everyday lives - if you still haven't tried Tang or pens that write upside down, you are living in a cave.

One innovation, which physicians for astronauts have shared with their terrestrial brethren, is a special suit called “Penguin.” After minor modifications, the “Penguin” suit has become the “Regent” suit and turns out to be an efficient therapeutic agent for rehabilitation of patients after a stroke.

Hypokinetic motor syndrome developed with cosmonauts who stayed for long periods in the weightlessness of orbit.

Bacteria get bad press, with those found in water often linked to illness and disease. But researchers at The University of Nottingham are using these tiny organisms alongside the very latest membrane filtration techniques to improve and refine water cleaning technology.

These one-celled organisms eat the contaminants present in water — whether it is being treated prior to industrial use or even for drinking — in a process called bioremediation.

Ikerlan-IK4 (CIC microGUNE Microfluidics Unit - the Basque Micro and Nanotechnologies Research Centre) has patented a device that enables the verification of the optimum conditions for a human organ prior to its transplant.

By means of a microelectrode that measures the impedance and temperature of the tissues, the system enables the state of any organ to be monitored from the moment of its extraction, during its transport, to the moment of the surgical operation to transplant it into a patient.

Scientists of the Physikalisch-Technische Bundesanstalt (PTB) achieved to transfer very small charge "packets", comprising a well-defined number of few electrons, between metallic electrons precisely by using a single-electron pump.

A single-electron transistor, being able to resolve charge variations of a single electron or less, served as a charge detector to monitor the charge movement. The successful experiment is an important milestone on the way to the setup of a new standard for capacitance, where a capacitor is charged by a well-known number of electrons.

When chemists want to measure the bonding forces in molecules or other most minuscule forces very accurately, they have to calibrate their measuring instruments (for example the cantilevers, i.e. the measuring tips, of scanning force microscopes). And if it is a matter of comparing the attained results with other results, one must refer to a common basis.

In the case of scanning force microscopes, the nominal values for bending stiffnesses deviate distinctly from the actual values. With the current devices, calibrations of cantilevers are accurate to > 5%. For forces in the nano- and piconewton range one therefore requires more accurate realisations and stable transfer standards.

Researchers from St. Petersburg State University have designed a brandy analyzing device which can distinguish the ‘young’ drink from the seasoned one and even to distinguish among variants of brandy. This is of great help both to manufacturers and analysts on the hunt for counterfeits.

This ‘electronic tongue’ won't replace the cooper just yet but it is suited for routine work. The fun part - drinking - is still up to people.

From an article in Rolling Stone about mercury and autism:

The CDC “wants us to declare, well, that these things are pretty safe,” Dr. Marie McCormick, who chaired the [Institute of Medicine’s] Immunization Safety Review Committee, told her fellow researchers when they first met in January 2001. “We are not ever going to come down that [autism] is a true side effect” of thimerosal exposure. According to transcripts of the meeting, the committee’s chief staffer, Kathleen Stratton, predicted that the IOM would conclude that the evidence was “inadequate to accept or reject a causal relation” between thimerosal and autism. That, she added, was the result “Walt wants” — a reference to Dr. Walter Orenstein, director of the National Immunization Program for the CDC.

Over the last decade, genetically modified crops have become widespread in agriculture. One of the more successful of these are Bt crops - transgenic plants that express genes derived from Bacillus thuringensis. These genes allow the plants to produce toxins which specifically affect certain groups of insects. Since these plants do not need to be sprayed, and since the toxins are relatively specific, the environmental effects appear to be lower than conventional agriculture.