This item is yet another reminder
of just how deep we are now able to get in understanding the complex behavior
of molecules and that we are no longer bystanders. All good stuff.
This particular life stream is plausibly
the first pioneers on any cooling planet as they mange heat.
It has become pretty clear that
the cosmic transmission of life is both practical and likely and likely arrives
with the cosmic delivery of water. Thus
life may have needed to be invented once and all lifeforms are somewhere sharing
significant commonality. That is also
the obvious conclusion to draw from the work on the Starchild skull unless it
becomes possible to prove DNA is naturally an inevitability.
We are way more connected to life
in the cosmos than we had any reason to suspect.
by Staff Writers
Polimerization of Alba2-DNA complex structure.
Researchers at the RIKEN SPring-8 Center in Harima , Japan
Three distinct evolutionary branches of organisms make up all natural
forms of life on the planet: bacteria, archaea and eukaryotes. Among these
three, the domain known
as archaea includes a variety of organisms that live in harsh environments
similar to those of an early Earth, thus offering arguably the greatest glimpse
of what life may have looked like 4 billion years ago.
One area of great interest is the process by which DNA bind to proteins
to compact and regulate the availability of genetic material,
a process which is essential in all cellular organisms. In eukaryotes,
proteins known as "histones" package and order DNA into a compact
protein-DNA structure called chromatin. Archaea, in contrast, have no such
universal chromatin proteins, instead using two or more DNA-binding proteins to
package DNA.
Alba is the most widespread and abundant such archaeal chromatin
protein, present in the genome sequence of every archaeal species that lives in
high-temperature environments (thermophilic or hyperthermophilic).
While researchers know about the existence of Alba in archaea, the
question of how these proteins bind to and compact DNA has remained a mystery.
To answer this question, the researchers analyzed the crystal structure
of the Alba2-DNA complex from the archaea A. pernix K1 at atomic-level
resolution using synchrotron radiation from the RIKEN SPring-8 facility in Harima , Japan
Published in the February 10th issue of the Journal of Biological Chemistry,
this newly-discovered mechanism for compacting DNA marks a major step forward
in our understanding of the evolution of chromatin structure.
The results promise to clarify how abnormalities in chromatin structure
can contribute to cancers and gene disorders, while also providing inspiration
for the development of new types of biodevices.
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