|
| Andhra Pradesh ~ India ~ International ~ City ~ Entertainment ~ Business ~ Bullion ~ Forex ~ Sports ~ Technology ~ Health ~ Features |
| Lung Cancer ~ Lung Cancer ~ Breast Cancer ~ Heart attack ~ All Health Topics |
|
Home
/ Health News / 2007 / October 2007 / October 18, 2007 Enzyme that makes humans unique discovered |
How cancer prevention drives aging
For the first time, researchers have found how cellular senescence, the well-known mechanism for preventing cancer, can trigger aging and age-related disease by changing the local tissue environment. ANI
Scientists unveil genes vital to vital to adult heart function
In a study on fruit fly Drosophila, scientists at the Burnham Institute for Medical Research (Burnham) have found that genes involved in embryonic heart development are vital to adult heart function in both fruit flies and humans. ANI
Psychiatric disorders common among college-aged
A new study has revealed that psychiatric disorders appear to be common among 18- to 24-year-olds, with overall rates similar among those attending or not attending college. ANI
Ever wondered why you inherited your moms smile but not your dads height? Well, a collaborative study by the universities of Leeds and Dundee has now unveiled the answers to these questions.
Washington, Oct 18 : Ever wondered why you inherited your mom's smile but not your dad's height? Well, a collaborative study by the universities of Leeds and Dundee has now unveiled the answers to these questions.
The research team has discovered an enzyme, T7 endonuclease 1, that combines both maternal and paternal DNA to create genetically unique offspring.
The researchers mapped the 3 dimensional structure of an enzyme responsible for splitting DNA strands - a process at the heart of human individuality.
Using X-ray crystallography techniques, T7 endonuclease 1 enzyme's structure was discovered.
The enzyme is derived from a bacteriophage - a naturally occurring virus-like agent that attacks bacteria - but the molecular processes are expected to be similar in other organisms, including humans.
"Whilst the enzyme was known to play a central role, its physical structure, which is crucial to understanding the splitting process, has never been seen before. We've now got a 3D picture of it at work, and seen it at the point at which it is about to cut through the DNA strands. This is a major breakthrough in investigating the fundamental mechanisms at work behind the formation of a person's DNA and how viruses replicate their DNA in the body," Professor Simon Phillips said.
In humans, this process starts at conception when maternal and paternal DNA strands join together at random points in their sequence. Enzymes such as T7 endonuclease 1 are then responsible for severing the strands at this junction, thus creating a third, unique DNA sequence for the offspring.
However, Professor Phillips said that it would be some time before this process can be observed in humans.
"It's too important a discovery to rush. Our next step is to examine the process in a more complex system than bacteriophage, such as yeast," he said.
ANI
