Japanese scientists explore pluripotency

May 23, 2007

Japanese scientists have discovered how pluripotency -- the ability of stem cells to differentiate into other cell types -- is regulated.

Understanding how stem cells maintain pluripotent has involved the characterization of a multitude of transcription factors -- the proteins that determine whether a specific gene is expressed or not.

Pluripotency in embryonic stem cells was thought to be controlled primarily by the transcription factors Oct3/4 and Sox2, as these proteins were believed to activate Oct-Sox enhancers, which are regulatory regions that determine expression of pluripotent stem cell-specific genes.

Shinji Masui and colleagues at the International Medical Center of Japan used mutant mice lacking the Sox2 gene to show although Sox2 is needed for stem cell pluripotency, it is not required for the enhancers to function and, in fact, governs the expression of Oct3/4.

They also demonstrated the regulation is indirect, as Sox2 controls the expression of a number of transcription factors that in turn regulate Oct3/4 expression.

The researchers said their findings represent another small step toward a complete understanding of stem cell biology.

The research appears in the June issue of Nature Cell Biology.

Rate this story - 4 /5 (2 votes)

rank
1
2
3
4
5

view popular

Other News

Variable Temperatures Leave Insects wtih a Frosty Reception

Biology / Plants & Animals

7 hours ago | not rated yet | 0

(PhysOrg.com) -- For the first time, scientists at The University of Western Ontario have shown that insects exposed to repeated periods of cold will trade reproduction for immediate survival.

When camouflage is a plant's best protection

Rare woodland plant uses 'cryptic coloration' to hide from predators

Biology / Plants & Animals

9 hours ago | 4.3 / 5 (3) | 0

It is well known that some animal species use camouflage to hide from predators. Individuals that are able to blend in to their surroundings and avoid being eaten are able to survive longer, reproduce, and ...

Cells defend themselves from viruses, bacteria with armor of protein errors

Biology / Cell & Microbiology

11 hours ago | 5 / 5 (7) | 0

When cells are confronted with an invading virus or bacteria or exposed to an irritating chemical, they protect themselves by going off their DNA recipe and inserting the wrong amino acid into new proteins to defend them ...

'Safety valve' protects photosynthesis from too much light

Biology / Cell & Microbiology

11 hours ago | 5 / 5 (2) | 0

Photosynthetic organisms need to cope with a wide range of light intensities, which can change over timescales of seconds to minutes. Too much light can damage the photosynthetic machinery and cause cell death. Scientists ...

Researchers discover biological basis of 'bacterial immune system'

Biology / Cell & Microbiology

12 hours ago | 4.7 / 5 (3) | 0

Bacteria don't have easy lives. In addition to mammalian immune systems that besiege the bugs, they have natural enemies called bacteriophages, viruses that kill half the bacteria on Earth every two days.