Trash to treasure: junk DNA influences eggs, early embryos.The mammalian genome might have a good mason to hold on to its vast collection of what scientists call junk DNA junk DNA n. DNA that does not code for proteins or their regulation but is thought to be involved in the evolution of new genes and in gene repair, and constitutes approximately 95 percent of the human genome. . Some of this genetic clutter may control gene expression in eggs and the earliest embryos, according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. a report in the October Developmental Cell. About one-third of the total mammalian genome is made of king, repeated stretches of DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. known as retrotransposons. Researchers hypothesize hy·poth·e·size v. hy·poth·e·sized, hy·poth·e·siz·ing, hy·poth·e·siz·es v.tr. To assert as a hypothesis. v.intr. To form a hypothesis. that retrotransposons derived from viruses that infected cells early in animal evolution. Retrotransposons, also called jumping genes, duplicate themselves and insert the copies into random places in DNA. After many generations, thousands of copies of each retrotransposon retrotransposon, retroposon a mobile sequence of DNA that transposes via a RNA intermediate. now reside in the mammalian genome. These repetitive sequences, studied primarily in adults, had seemed to have little or no functional role in mammals. Recently, however, Barbara Knowles, a developmental biologist at the Jackson Laboratory The Jackson Laboratory was founded in Bar Harbor, Maine in 1929 by former University of Maine and University of Michigan president C. C. Little under the name Roscoe B. Jackson Memorial Laboratory. in Bar Harbor, Maine Bar Harbor, Maine, may refer to:
Knowles' team recorded which genes were turned on in mouse eggs and early embryos. Unexpectedly, the researchers found that about 10 percent of the active genes belong to a group of retrotransposons known as long terminal repeat class III. "It was very surprising to us," Knowles says. The retrotransposons "were very abundant, so we thought, 'I wonder what they're doing?'" she recalls. Taking their study in a new direction, the researchers discovered that some retrotransposons sit right in front of genes. That position is typically occupied by a gene's promoter, a segment of DNA that initiates the process of making a protein. The team observed that some retrotransposons act as promoters, and, because they're copies, they control simultaneous expression of multiple genes. The researchers also found that the retrotransposons became permanently inactive before embryos reached the four-cell stage. Knowles suggests that over the course of evolution, retrotransposons that had randomly inserted themselves into promoter sites turned on genes that otherwise might have stayed off. Other retrotransposons, which landed in the middle of genes, might have changed those genes' functions. John Moran, a retrotransposon researcher at the University of Michigan (body, education) University of Michigan - A large cosmopolitan university in the Midwest USA. Over 50000 students are enrolled at the University of Michigan's three campuses. The students come from 50 states and over 100 foreign countries. in Ann Arbor, calls the finding "an awesome observation." However, he says the study doesn't answer the question of whether the genes turned on by retrotransposons are important for development. "What are [the retrotransposons] doing there?" Moran asks. "It will be interesting to see the follow-up studies." Knowles says that if retrotransposons of this type do indeed play a significant developmental role, they might lead to new theories about why so maw embryos die soon alter conception. The findings might also provide insight into prerequisites for normal development that often go awry in cloning experiments. |
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