 |
|
Therapeutic cloning gets a boost with new research findings
March 25, 2009San Antonio and Honolulu researchers make important discoveries about point mutation rates in cloned mouse fetuses
San Antonio - Germ cells, the cells which give rise to a mammal's sperm or eggs, exhibit a five to ten-fold lower rate of spontaneous point mutations than adult somatic cells, which give rise to the body's remaining cell types, tissues and organs. Despite their comparatively higher mutation rates, however, adult somatic cells are used as the donor cells in a cloning process called somatic cell nuclear transfer (SCNT). This made researchers wonder if cloning by SCNT leads to progeny with more mutations than their naturally conceived counterparts. Also, would cloned fetuses receive DNA programming predisposing them to develop mutations faster than natural fetuses of the same age?
Those scenarios are simply not likely, say researchers at The University of Texas at San Antonio, The University of Texas Health Science Center at San Antonio and The University of Hawaii at Honolulu's John A. Burns School of Medicine. The team, which spent more than five years analyzing mutation rates and types in cloned Big Blue® mouse fetuses recently published its findings in the online Early Edition of the Proceedings of the National Academy of Sciences in a paper titled "Epigenetic regulation of genetic integrity is reprogrammed during cloning."
The paper offers the first direct demonstration that cloning does not lead to an increase in the frequency of point mutations.
John McCarrey, professor of cellular and molecular biology at UTSA and the study's principal investigator, suggests a "bottleneck effect" is partially responsible for the observations his team recorded. "To create a cloned fetus by somatic cell nuclear transfer, only one adult somatic cell -- one donor cell -- is needed," he explains. "Because a random cell population exhibits a low mutation rate overall and only one cell from that population is used for cloning, the likelihood is remote that the cell chosen to be cloned will transfer a genetic mutation to its cloned offspring. Therefore, the bottleneck effect limits the transfer of mutations from donor cells to cloned offspring."
Not only did the researchers find that SCNT does not lead to an increase in the frequency of point mutations in cloned mice, the team also found that naturally conceived fetuses and cloned fetuses that are the same age have similar rates of spontaneous mutation development. They attribute this finding to epigenetic reprogramming.
It is known in the scientific community that germ cells contain an epigenome, a programmed state of the genome, that keeps mutation rates low. They suggest this type of epigenome is found in germ cells because those cells are responsible for contributing genetic information to subsequent generations. Adult somatic cells (the donor cells in SCNT) have higher mutation rates and less stringent epigenetic programming to avoid mutations than germ cells, but offspring produced from somatic cells by cloning have mutation rates similar to those in offspring produced by natural reproduction, suggesting that the epigenome of an adult somatic cell is reprogrammed during cloning to maintain the genetic integrity of that cell's progeny.
University of Texas at San Antonio
The paper offers the first direct demonstration that cloning does not lead to an increase in the frequency of point mutations.
John McCarrey, professor of cellular and molecular biology at UTSA and the study's principal investigator, suggests a "bottleneck effect" is partially responsible for the observations his team recorded. "To create a cloned fetus by somatic cell nuclear transfer, only one adult somatic cell -- one donor cell -- is needed," he explains. "Because a random cell population exhibits a low mutation rate overall and only one cell from that population is used for cloning, the likelihood is remote that the cell chosen to be cloned will transfer a genetic mutation to its cloned offspring. Therefore, the bottleneck effect limits the transfer of mutations from donor cells to cloned offspring."
Not only did the researchers find that SCNT does not lead to an increase in the frequency of point mutations in cloned mice, the team also found that naturally conceived fetuses and cloned fetuses that are the same age have similar rates of spontaneous mutation development. They attribute this finding to epigenetic reprogramming.
It is known in the scientific community that germ cells contain an epigenome, a programmed state of the genome, that keeps mutation rates low. They suggest this type of epigenome is found in germ cells because those cells are responsible for contributing genetic information to subsequent generations. Adult somatic cells (the donor cells in SCNT) have higher mutation rates and less stringent epigenetic programming to avoid mutations than germ cells, but offspring produced from somatic cells by cloning have mutation rates similar to those in offspring produced by natural reproduction, suggesting that the epigenome of an adult somatic cell is reprogrammed during cloning to maintain the genetic integrity of that cell's progeny.
University of Texas at San Antonio
Cloning Current Events and Cloning News RSSDNA molecules in moss open door to new biotechnology
Plasmids, which are DNA molecules capable of independent replication in cells, have played an important role in gene technology.
Small mechanical forces have big impact on embryonic stem cells
Applying a small mechanical force to embryonic stem cells could be a new way of coaxing them into a specific direction of differentiation, researchers at the University of Illinois report. Applications for force-directed cell differentiation include therapeutic cloning and regenerative medicine.
Genetic discovery could break wine industry bottleneck, accelerate grapevine breeding
One of the best known episodes in the 8000-year history of grapevine cultivation led to biological changes that have not been well understood - until now.
Scripps research scientists identify genetic cause for type of deafness
A team led by scientists from The Scripps Research Institute has discovered a genetic cause of progressive hearing loss.
Predicting cancer prognosis
Researchers led by Dr. Soheil Dadras at the Stanford University Medical Center have developed a novel methodology to extract microRNAs from cancer tissues.
Reprogramming Human Cells Without Inserting Genes
A research team comprised of faculty at Worcester Polytechnic Institute's (WPI) Life Sciences and Bioengineering Center (LSBC) and investigators at CellThera, a private company also located at the LSBC, has discovered a novel way to turn on stem cell genes in human fibroblasts (skin cells) without the risks associated with inserting extra genes or using viruses.
Stem cell research: From molecular physiology to therapeutic applications
Stem cell research promises remedies to many devastating diseases that are currently incurable, ranging from diabetes and Parkinson's disease to paralysis.
Researchers rapidly turn bacteria into biotech factories
High-throughput sequencing has turned biologists into voracious genome readers, enabling them to scan millions of DNA letters, or bases, per hour.
Researchers Look to Imprinted Genes for Clues to Fetal Growth Restriction in Cloned Swine
Researchers at North Carolina State University have found that intrauterine growth restriction (IUGR), which results in low birth weight and long-term deleterious health effects in cloned swine, is linked to a type of gene - known as an imprinted gene - found only in placental mammals.
MU scientists convert pigs' connective tissue cells into stem cells
For years, proponents have touted the benefits of embryonic stem cell research, but the potential therapies still face hurdles.
More Cloning Current Events and Cloning News Articles
 |
Olivia's Cloning Gel 2 oz. by Olivia's Easy to use, this rooting and propagation gel stimulates root development for all cuttings. Gel formula seals cuttings and reduces transplant shock. All natural ingredients, ideal for food crops. |
 |
Cloning: A Beginner's Guide (Beginner's Guides (Oneworld)) by Aaron D. Levine (Author) Should we clone extinct or endangered species? Are we justified in using stem cells to develop cures? When will we clone the first human? Ever since Dolly the sheep, questions like these have rarely been far from the public consciousness, and cloning is now poised to revolutionize medicine, healthcare, and even the food we eat. In this masterful introduction, Aaron Levine explains the science and development of cloning, right up to the present-day scandals surrounding attempts to clone humans. Guiding readers around the thorny political and ethical issues raised by such progress, Levine dispels the myths perpetuated by the media and sheds new light on the pros and cons of this fascinating and controversial topic. |
 |
Rootech Cloning Gel 2-Ounce by Technaflora Rootech Cloning Gel is an exceptional recipe containing a powerful hormone especially formulated to promote rapid, healthy root development during vegetative propagation. At application, Rootechs unique formulation surrounds the stem so it can be used immediately. Technafloras original formulation is among the strongest cloning gels on the market, with a concentration of 0.55% (5.5 g/L) IBA |
 |
After Dolly: The Promise and Perils of Cloning by Roger Highfield (Author), Ian Wilmut (Author) A brave, moral argument for cloning and its power to fight disease. A timely investigation into the ethics, history, and potential of human cloning from Professor Ian Wilmut, who shocked scientists, ethicists, and the public in 1997 when his team unveiled Dolly—that very special sheep who was cloned from a mammary cell. With award-winning science journalist Roger Highfield, Wilmut explains how Dolly launched a medical revolution in which cloning is now used to make stem cells that promise effective treatments for many major illnesses. Dolly's birth also unleashed an avalanche of speculation about the eventuality of cloning babies, which Wilmut strongly opposes. However, he does believe that scientists should one day be allowed to combine the cloning of... |
 |
ABC News Specials Brave New World: Cloning - Why Not? Ever since Dolly the sheep first bleated her way into the collective consciousness, nearly everyone who voices an opinion on cloning draws the line at creating a human clone. But why? ABC News weighs the pros and cons of making copies of ourselves. |
 |
Gene Cloning and DNA Analysis: An Introduction (Brown,Gene Cloning and DNA Analysis) by Terry A. Brown (Author) Known world-wide as the standard introductory text to this important and exciting area, the fifth edition of Gene Cloning and DNA Analysis addresses new and growing areas of research whilst retaining the philosophy of the previous editions. Assuming the reader has little prior knowledge of the subject its importance, the principles of the techniques used and their applications are all carefully laid out, with over 250 clearly presented two-colour illustrations. In addition to a number of informative changes to the text throughout the book, the final four chapters have been significantly updated and extended to reflect the striking advances made in recent years in the applications of gene cloning and DNA analysis in biotechnology:
|
 |
Complete Propagation Kit by ViaGrow |
 |
The Complete Idiot's Guide to Understanding Cloning by Jay D. Gralla (Author), Preston Gralla (Author) The most important technology of the 21st century. Do a double-take with this one-of-a-kind guide. One of technology's most awe-inspiring and hotly-debated topics-cloning-is made clearer here than anywhere else. It runs the gamut from genetic- and bioengineering, to an even handed analysis of the moral, political, and ethical issues surrounding these technologies. € Claims of cloned babies, the Human Genome Project, and cryogenics continue to create headlines and spur debate € Congress will soon decide whether the federal government should have a say about cloning human cells for medical research |
 |
Cloning Kit by BGH (BetterGrow Hydro) Our Cloning Kits include: Propagation Tray, Tall Humidity Dome, 45 - Wrapped Rockwool Clone Cubes, razor blades and Rootech Cloning Gel. |
 |
The Ethics of Human Cloning by Leon Kass (Author) Today, biological science is rising on a wall of worry. No other science has advanced more dramatically during the past several decades nor yielded so many palpable improvements in human welfare. Yet none, except nuclear physics, have aroused greater apprehensions among the general public and leaders in such diverse fields as religion, the humanities and government than the cloning issue. In this engaging book, Leon R. Kass, the noted teacher, scientist and humanist, and James Q. Wilson, the preeminent political scientist to whom four U.S. presidents have turned for advice, explore the ethics of human cloning, reproductive technology and the teleology of human sexuality. Although the authors share a fundamental distrust of the notion of human cloning, they base their reticence on... |
| © 2009 BrightSurf.com |