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In terms of developing replacement cell therapies from iPS cells, the finding may be a boon. "It's a double-edged sword," says Daley. "It's been very challenging to make and direct differentiation of iPS cells into specific tissues." Starting off with the tissue of interest may make that easier, he says. To grow new bone cells, for example, scientists would be better off taking a bone biopsy from the patient as starting material, rather than beginning with blood or skin cells.
A second study released online today in Nature Biotechnology shows that these cellular memories fade after the cells have been grown for successive generations. "When the cells undergo hundreds of thousands of cell divisions, this memory seems to disappear," says Harvard stem cell biologist Konrad Hochedlinger, who led the second study. "The cells become indistinguishable from each other, and the differences we observe early on seem to vanish." But because extensive culturing can also introduce genetic mutations in the cells, this may not be a viable solution to wiping cellular memory.
Collectively, the studies make clear that researchers still have a lot to understand about iPS cells. "If for no other reason, we should still be studying nuclear transfer in order to study how nature does its own programming," says Evan Snyder, who directs the stem cell and regenerative biology program at the Sanford-Burnham Medical Research Institute in La Jolla, CA. Snyder was not involved with the research. Nuclear transfer is a tricky process, never successfully performed in human cells and not a likely candidate for therapeutic use. But even as a research tool, it's largely disappeared, and few labs continue to study it now that they can create their own iPS cells.
The study could offer hope for brain cancer patients, who often suffer dire cognitive problems as a result of radiation treatment.
The findings cast doubt on a promising alternative to the use of embryonic stem cells in medicine.
Some scientists are reluctant to enter the field, and some consider leaving it altogether, because of the uncertainty of government regulations.
knowing from the get-go that a ban of cloning heralded the return of the inquisition, let me assure you, as a rational, law abiding individual I am also 100% against cloning, but only after we understand and learn to replicate the cloning mechanism(s.) Shutting the door on scientific truth seekers, working to better the lot of mankind is a moral, ethical abomination. Let me tell you why using this article as a reference point.
embryonic stem cells are imbued with an abundance of copiousness, they have a lot of growing to do, evolving from one cell into a multimillion cellular adult organism....reprogramming an adult cell into a look alike phenotype induced pluripotent stem cell is doable either through chemical or atomic baths, but "Houston we have a problem here" these iPS cells and their enviable ability to reprogram and reproduce themselves into any kind of tissue, have a tendency to revert to their previous state of being thus researchers as the article points out, find iPS cells not as helpful as they could be in laboratory understanding disease states being examined. What's happening?
Researchers doing a little bit of backtracking, confirming, replicating the 3 billion DNA letters encoding the human genome blueprint are finding transposable elements of genetic resource material, handed down to us through highways and byways of heritage and heraldry, previously thought to be inert starstuff, just hanging around our genome. These elements start acting like wild cards, making copies, snippets of themselves and showing up unannounced hither, dither and yonder different places in our genome.
When genetic variants show up in laboratory petrie dishes, genetic essays unexpectedly, they blow researchers minds, frustrating efforts to induce adaptive compliance on lines of reconstructed stem cells in new tissue neighborhoods; instead of helping find out what's wrong, the stem cells nostalgically revert back to their previous self, spiting our best intentions.
As JV Moran and collegues at the U of Penna point out "there is a strong possibility that retrotransposition occurs more frequently than previously thought". The presence of wild card elements copying their RNA and inserting it in other chromosome locations, altering our genomic DNA structure for good, bad or other unknown variables; may be a factor in stem cell genotype reversion.
There is also a curiosity as to whether a scaffolding structure, elusive deluxe, exists in our DNA helix. The question we have been asking ourselves: whether a cell splits right down the middle at mytosis, or does it form a mirror template of itself in which cellular components split filling the new template into two mirror enveloped halves of the cell, same split of genetic material engulfed in nucleic membranes and distributed.
Have we been here before?
Being mindful that the map of the human genome is a fairly recent phenomenon, imagine if you will the accuracy of Lewis and Clarke's maps. Fifty years later mountain men decimated beaver populations, waterways would have changed course, a century later,telegraphs, railroads a vast improvement with noticeable significant accuracy; today with GPS cartography use of maps a user friendlier, practical more convenient experience.
The human genome just got here, understanding cloning would help get by logjams as outlined in the article above.
Our ingenuity to surpass obstacles is being challenged, the ban on the study of cloning almost seems like someone is tying one of our hands behind our back. The lawfully mandated inaccessibility to growth factor laden stores of genetic reserves in embryonic stem cells may cause us to skip a step now and then, maybe even stumble once in a while, but we're on the way.
Dear My that was very long,
Let's be brave
Let's be true
To the red, white and blue
Let's experiment on mice and people
Let's be weird
Let's be gay
Let's be any old way
And ignore that blood-coated church steeple.
Yrs,
Karen
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rhansing
74 Comments
stem cells
That's the problem, what looks like a bona fide stem cell, is still not a bona fide stem cell, there needs to be a second step, perhaps more, to create one.
Alas, In time, I do expect the problem will be solved. It's just going back further, perhaps only one more step.
This is still one reason why we still need embryonic stem cells, to solve this problem. Alas, this creates the religious debate…
Ethically, I personally feel that unused donated embryos with proper consent, is the way to go. What else will one do with unused embryos… keep them in liquid nitrogen, forever? Regardless, full disclosure policy should be followed.
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karencole37
2 Comments
Re: stem cells
You know what you are talking about. Me, I have a blog on Google Blogger and am trying to feature the top stem cell news there: http://stemcellresearchissues.blogspot.com/
I used to hands on work with the disAbled. Anyway, I know now that fetal stem cells are needed for people with genetic disabilities and illnesses, and we need adult stem cells for those who are not genetically afflicted, including those with cancer-prone tendencies, such as myself and my family. So I favor adult stem cell research, as it's better for those with cancer, I think, and also favor fetal stem cell research, as well as umbilical cord stem cell research, as it involves people with needs other than mine. So far as I am aware at this point anyway.
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