Scientific Frontline® On-Site Search Engine by Google Co-op
Current UTC Time
 
News Home, where you will find the "Current Top Stories"The Communication Center contains current news briefs from major Universities, NASA, ESA, and the top three Aviation Mfg.Science section contains all the latest knowledge in Medical Research, Archeology, Biology, and other General Science NewsCurrent Earth Science and Environmental discoveries.The E.A.R., Environmental Awareness Report. E.A.R. will keep you advised of Environmental Alerts, Government, University, and public projects. All the current space discoveries from Hubble, Spitzer, Chandra X-Ray, ESO, Gemini, Subaru, ESA, NASA, and many more. The latest in space theories from leading astronomers and scientist from around the world.The Space Weather Forecast Center by Scientific Frontline, Current up-to-date space weather, forecasts, alerts and warnings. Images from SOHO, GOES, and STEREO. Plus solar observations from Erika RixCurrent space missions newsThe Cassini Main Page. Containing all the latest news from the Cassini Spacecraft around Saturn. Leading into Cassini status reports, The Cassini Gallery of all the latest images from Cassini. Seeing Saturn and all her moons like never before.Daily Sky maps, Celestial Events Calendar.Manned Space Exploration Gallery, covering images and news briefs from current, past, and future space exploration missions including the ISS and Space Shuttle missions Stellar Nights, A Journey Into The Stars from Scientific Frontline. A collection of informative facts about stellar objects in our universe.Cloudy Nights Telescope Reviews / An Atronomical Community.The latest in Computer, Nanotechnology, and General Technological advancements.The latest in Aviation achievements in civil, military, and space aviationThe World News Report, news from the Voxant Viral Syndication, known as the Newsroom. Contains the latest videos from major news sources.The news archive from Scientific Frontline's past articles. A world of knowledge at your fingertips.Abstracts, Journals, and Technical papers maintained by Scientific Frontline. The Scientific Frontline Gallery, containing photographs, sketches, and video's of Space, Science, Aviation, and Environment. Open to the public to comment and contribute.The Scientific Frontline Discussion Rooms. Open to the public.upcoming events, seminars, and lectures from major universities, government, and privately sponsored programsSite Related links from major universities, government and private research labs.Assorted Downloads related to space, science, aviation, including screensavers and ASTROMONY SOFTWARE, and other endorsed programs.Words from Heidi-Ann Kennedy, Director Scientific FrontlineThe foundation of an online publication by SFL ORG. News Network called Scientific FrontlineContact page to Scientific Frontline / SFL ORG. News NetworkDisclaimer / Legal Notice for use of the SFL ORG. News Network's publication Scientific Frontline>
 
 an online publication of the SFL ORG. Educational News Network

Identifying the Genes that Put the "Stem" in Cell

Tuesday, March 25, 2008

A team led by Howard Hughes Medical Institute (HHMI) researchers has identified a network of hundreds of genes that keep embryonic stem cells in their characteristic malleable state, able to develop into any cell type when the time comes. The finding, based on studies of mouse cells, provides valuable insight into the way stem cells function, and could help researchers find ways to reprogram adult cells for therapeutic use.

Led by Stuart Orkin, an HHMI investigator at Children's Hospital Boston, the team published its findings in the in the journal Cell.

Stuart H. Orkin, M.D.
More Information ROLLOVER

Credit: Sam Ogden
We’re asking: ‘Well, we’ve got all these proteins—what are the genes they likely regulate?'”
Stuart H. Orkin

Embryonic stem cells are the ultimate in indecision. Precursors of all the specialized cells of the body, embryonic stem cells exist in an undefined form until the time comes to head down the path toward nerve, organ, or muscle. Embryonic stem cells are distinct from other cells in two ways. First, they are pluripotent—they have the ability to develop into any cell type. Second, they are perpetually self-renewing, meaning that unlike other cells they do not die after a set number of divisions.

For years, researchers have sought to decipher the genetics behind these unique characteristics. In 2006, Orkin's team reported in the journal Nature that a set proteins that physically associate with one another regulates gene activity critical for maintaining cells in the embryonic stem-like state. These proteins, called transcription factors, bind to regulatory regions of DNA associated with specific genes and influence the genes' activity by encouraging or restricting their transcription (the first step in making a protein).

According to Orkin, the new study is a sequel to that Nature paper. “We're asking: `Well, we've got all these proteins—what are the genes they likely regulate?”

To find out, the team tagged a set of nine critical proteins with "molecular hooks" that made it possible to fish out the proteins attached to their target genes. Together, the proteins bound to roughly 6,500 genes that fell into two groups: those that the proteins kept switched off in the stem cells, and those that they switched on. However, it wasn't a simple matter of each gene being turned on or off by one transcription factor.

Instead, Orkin explained, “one class is genes that are targeted by many of the nine proteins we tested—even as many as six, seven, or eight. These cells tend to be on in embryonic stem cells, and off when the cells differentiate.” Genes that were turned off in the embryonic stem cells, on the other hand, were bound by only one or two of the transcription factors.

According to Orkin, “This is the first time we've had a sense that one could distinguish these classes.” And, he said, the identity of the genes fit with the scientists' expectations of functions that need to be regulated to maintain the stem cell state. “They have to promote self renewal,” he said, “but at the same time they have to block differentiation. The two classes we see seem to more or less fit into those functions.”

Orkin said that the findings represent a “catalog of the genes bound by these factors,” which he hopes will be useful in future studies. According to Orkin, there has been a recent explosion of interest in reprogramming skin or other developed cells to act like stem cells, with the ultimate goal of treating disease. But currently, he said, the process is still essentially a “black box.” “You add genes, and the cells reprogram,” he said. “What happens in between?

This kind of work provides the materials to get a better understanding of that process,” said Orkin. “The goal is to be able to manipulate cells in a very directed way.”

Source: HHMI

AddThis Social Bookmark Button

Scientific Frontline®
RSS Feeds

Scientific Frontline®
The Comm Center
The E.A.R.®
World News Report
SFL Gallery
Cassini Gallery
Mars Gallery
Missions Gallery
ISS Gallery
Shuttle Gallery
Space Weather Alerts
Stellar Nights®
Directors Chair
Scientific Frontline®
Is supported in part by “Readers Like You”
A Fly's Tiny Brain May Hold Huge Human Benefits Back Science News Center Study shows blood stem cells originate, are nurtured in the placenta Navigate Back or Forward Through Science News, Related Page or Pick an Article From The News Ticker.


Scientific Frontline®, Stellar Nights®, E.A.R.®, and Environmental Awareness Report®”
Are Registered Trademarks of the
Online Publication of the SFL ORG. Educational News Network
Oklahoma City, Oklahoma USA
A Not-for-Profit Educational News Service
© 2005 - 2008 All Rights Reserved