The real question is to answer
the question of life’s inevitability.
Are there choices at all?
The reason this is rather important
is that it may make all emergent life throughout the universe to be congruent
to at least the cellular level.
We have already evidence from a
clearly alien sample of DNA that this may be possible. At least we know that this alien DNA is an
extension of our human DNA with a significant series of add-ons but few obvious
omissions at least so far.
The better answer there is that
the DNA is an extension of human DNA engineered over the past thirty thousand years
by our living cousins in space habitats.
That way we completely avoid the question of an independent evolution.
Do You Want Amino Acid In Your Alphabet Soup
The amino acid sequence of a protein determines the higher levels of
structure of the molecule. A single change in the amino acid sequence can have
profound biological effects on the overall structure and function of the
protein. Image Credit: IACR.
All life on Earth relies on a standard set of 20 molecules called amino
acids to build the proteins that carry out life's essential actions. But did it
have to be this way?
All living creatures on this planet use the same 20 amino acids, even
though there are hundreds available in nature. Scientists therefore have
wondered if life could have arisen based on a different set of amino acids. And
what's more, could life exist elsewhere that utilizes an alternate collection
of building blocks?
"Life has been using a standard set of 20 amino acids to build
proteins for more than 3 billion years," said Stephen J. Freeland of the
NASA Astrobiology Institute at the University of Hawaii.
"It's becoming increasingly clear that many other amino acids were
plausible candidates, and although there's been speculation and even
assumptions about what life was doing, there's been very little in the way of
testable hypotheses."
So Freeland and his University
of Hawaii
Amino acids are molecules built primarily from carbon, hydrogen,
oxygen, and nitrogen. They assemble in particular shapes and patterns to form
larger molecules called proteins that carry out biological functions.
"Technically there is an infinite variety of amino acids,"
Freeland told Astrobiology Magazine. "Within that infinity there are lots
more than the 20 that were available [when life originated on Earth] as far as
we can tell."
Testing the possibilities
The researchers defined a likely pool of candidate amino acids from which life drew its 20. They started with the amino acids that have been discovered within the so-called Murchison meteorite, a space rock that fell in Murchison, Victoria in Australia in September 1969.
The rock is thought to date from the early solar system, and to
represent a sample of which compounds existed in the solar system and on Earth
before life began.
The scientists then used computers to estimate the fundamental
properties of the 20 amino acids life uses, such as size, charge and
hydrophilicity, or the extent to which the molecules are attracted to water.
"We know that these three are important to the ways they build
proteins," Freeland said.
Freeland and Philip analyzed whether these properties could have been
achieved with as much coverage and efficiency with other combinations of 20
amino acids.
The researchers discovered that life seemingly did not choose its 20
building blocks randomly. "We found that chance alone would be extremely
unlikely to pick a set of amino acids that outperforms life's choice,"
Freeland said.
Natural selection
In fact, the researchers think early life on Earth probably used a version of natural selection to choose these amino acids. Some combinations of other amino acids were likely tried, but none proved quite as fit, so no other combinations ended up producing the numbers of successful offspring that the existing set achieved.
"Here we found a very simple test that begins to show us that life
knew exactly what it was doing," Freeland said. "This is consistent
with the idea that there was natural selection going on."
Getting at the question of why nature chose the 20 amino acids it did
is experimentally difficult, said Aaron Burton, a NASA Postdoctoral Program
Fellow who works as an astrochemist at NASA's Goddard Space Flight Center in
Greenbelt, Md.
"Although a number of experiments have shown that unnatural amino
acids can be incorporated into the genetic alphabet of organisms, it may never
be possible to experimentally simulate sufficient evolutionary time periods to truly
compare alternate amino acid alphabets," said Burton, who was not involved
in the new study.
"As a result, studies such as those presented by Philip and
Freeland offer interesting insights and provide a framework for formulating
hypotheses that can actually be tested in the lab."
Amino acids in meteorites
Right now the race is on to directly find amino acids elsewhere in the solar system. Some hints that they abound have been found on meteorites that have landed on Earth from outer space, as well as from missions such as NASA's Stardust probe, which sampled the coma of comet Wild 2 in 2004. "All signs are that amino acids are going to be found throughout the galaxy," Freeland said. "They are apparently obvious building blocks with which to construct life. What we're finding hints at a certain level of predictability in the way things turned out."
The question of life's amino acid toolbox is interesting not just in
trying to trace the origin of the life on Earth, but in wondering whether life
exists on other planets, and if so, what form it takes. Scientists are
particularly curious about how a different set of amino acid building blocks
would result in different characteristics in the life it creates.
"That is the biggest question of all," Freeland said.
"We're trying to find a way to ask, if you change the set of amino acids
with which we're building, what effect does that have on the proteins you can
build. The most interesting thing is, nobody knows."
Philip and Freeland reported their findings in a paper published in the
April 19 issue of the journal Astrobiology.
No comments:
Post a Comment