3-D rendering of DNA structure. Various kinds of damage can happen to DNA, making it unstable, which is a hallmark of cancer.
Credit: © DigitalGenetics / Fotolia
Carrying around a spare tire is a good thing
-- you never know when you'll get a flat. Turns out we're all carrying
around "spare tires" in our genomes, too. Today, in ACS Central Science,
researchers report that an extra set of guanines (or "G"s) in our DNA
may function just like a "spare" to help prevent many cancers from
developing.
Various kinds of damage can happen to DNA, making it unstable, which
is a hallmark of cancer. One common way that our genetic material can be
harmed is from a phenomenon called oxidative stress. When our bodies
process certain chemicals or even by simply breathing, one of the
products is a form of oxygen that can acutely damage DNA bases,
predominantly the Gs. In order to stay cancer-free, our bodies must
repair this DNA. Interestingly, where it counts -- in a regulatory DNA
structure called a G-quadruplex -- the damaged G is not repaired via the
typical repair mechanisms. However, people somehow do not develop
cancers at the high rate that these insults occur. Cynthia Burrows,
Susan Wallace and colleagues sought to unravel this conundrum.
The researchers scanned the sequences of known human oncogenes
associated with cancer, and found that many contain the four G-stretches
necessary for quadruplex formation and a fifth G-stretch one or more
bases downstream. The team showed that these extra Gs could act like a
"spare tire," getting swapped in as needed to allow damage removal by
the typical repair machinery. When they exposed these quadruplex-forming
sequences to oxidative stress in vitro, a series of different
tests indicated that the extra Gs allowed the damages to fold out from
the quadruplex structure, and become accessible to the repair enzymes.
They further point out that G-quadruplexes are highly conserved in many
genomes, indicating that this could be a factory-installed safety
feature across many forms of life.
Story Source:
The above post is reprinted from
materials provided by
American Chemical Society.
Note: Materials may be edited for content and length.
Ditulis Oleh : Unknown
Terimakasih atas kunjungan Kamu Karena telah Mau membaca artikel
Extra DNA acts as a 'spare tire' for our genomes. Tapi Kurang Lengkap Rasanya Jika Kunjunganmu di Blog ini Tanpa Meninggalkan Komentar, untuk Itu Silahkan Berikan Kritik dan saran Pada Kotak Komentar di bawah. Kamu boleh menyebarluaskan atau mengcopy artikel
Extra DNA acts as a 'spare tire' for our genomes ini jika memang bermanfaat bagi kamu, tapi jangan lupa untuk mencantumkan link sumbernya. Pengunjung yang baik akan memberikan komentarnya di sini :p. Terima Kasih :)
