Revealing More Than 1300 Genes Linked to Congenital Heart Disease
A new way to determine which genes cause congenital cardiac abnormalities are developed by researchers from Monash University in Melbourne, Australia.
The technique not only confirmed well-known CHD genes but also discovered 35 new genes not previously suspected in the disease.
One in every 100 babies is born with congenital heart disease (CHD), and CHD is the major cause of death in newborns. However, the genetic cause of these developmental disorders is not fully understood, hindering the development of accurate prenatal genetic testing.
‘Identifying new genes is providing a pathway for more accurate pre-natal genetic testing for congenital heart disease.’
A new collaborative study, published in Genome Biology aimed to improve on the current conventional approach to identifying disease-causing genes in CHD.
"The trick was to mine genome databases to identify genes that were specifically "switched on" in the heart. The resulting computational pipeline to identify not only genes specific for the heart but genes that may also be associated with other organs such as the liver or kidney", Dr. Hieu Nim from Australian Regenerative Medicine Institute, the first author of the study said.
Researchers used the vinegar fly, Drosophila melanogaster, as a testing model to determine some of the functional impacts of these novel genes because it is a well-established model organism to understand the genetic mechanisms of many human diseases.
About 75% of human disease-causing genes are found in the fly in a similar form, it is easy to work with and breeds quickly, and many tools are available to manipulate any genes in it.
The vinegar-fly studies revealed a long list of high-quality candidate genes for causing heart abnormalities in humans, giving real insight into just how susceptible this organ is to genetic mutations.
Researchers need to conduct functional studies on all of these genes in animal experiments to determine what they do, so it's early days, but we now have an excellent starting point.
Source: Medindia