Space rock yields important “ingredient in kitchen” on Earth before life beganMay 27th, 2009 - 2:59 pm ICT by ANI
London, May 27 (ANI): Scientists have found formic acid, a molecule implicated in the origins of life, has been found at record levels on a meteorite that fell into the Tagish Lake in Canada in the year 2000.
According to a report by BBC News, cold temperatures on the lake prevented the volatile chemical from dissipating quickly.
The researchers told a meeting of the American Geophysical Union that the formic acid was extraterrestrial.
Formic acid is one of a group of compounds dubbed “organics”, because they are rich in carbon.
“We are lucky that the meteorite was untouched by humans hands, avoiding contamination by organic compounds that we have on our fingers,” said Dr Christopher Herd, the curator of the University of Alberta’s meteorite collection.
Samples of the meteorite, totalling 850 grams, were collected from Tagish Lake in Canada.
The scientists found levels of formic acid four times higher than had previously been recorded on a meteorite.
“This has for a while been overlooked as we concentrated predominantly on the Murchison meteorite, but now we’ve got another fresh sample and we can start to analyze a different portion of the asteroid belt and therefore a different portion of the Solar System,” said Mark Sephton, a meteorite and geochemistry professor at Imperial College London.
The particular types, or isotopes, of hydrogen that are found in the formic acid show that it most likely formed in the cold regions of space before our Solar System existed.
On Earth, formic acid is commonly found in the stings of insects such as ants, but Professor Sephton said that it is likely to have been an important “ingredient in the kitchen” on Earth before life began.
The acid is known to act as a “reducing agent” - acting as a magnet for oxygen atoms during chemical reactions - and facilitate the conversion of some amino acids into others.
It may also be implicated in the transformation of the more primitive RNA into DNA.
Only one of the four “nucleobases” that make up RNA and DNA is different between the two: uracil is present in RNA while thymine takes its place in DNA.
Professor Sephton’s team found uracil in the Murchison meteorite, but no measurable amount of thymine.
However, formic acid is known to help along the reaction that converts the uracil into thymine.
“The reaction is one of the ways in which you can take some simple molecules and increase the chemical diversity of the pool of pre-biotic molecules,” said Professor Sephton. (ANI)
Tags: american geophysical union, amino acids, asteroid belt, chemical reactions, cold regions, cold temperatures, collection samples, dr christopher, geochemistry, imperial college london, isotopes of hydrogen, meteorite collection, murchison meteorite, organic compounds, origins of life, oxygen atoms, reducing agent, space rock, tagish lake, university of alberta