Scientists create first mammalian gene interaction map
August 10th, 2010 - 12:46 pm ICT by ANIWashington, Aug 10 (ANI): UCLA researchers have, for the first time, shown not just the order in which genes fall in the genome but which genes actually interact.
The work will help them understand which genes work together and shed light on how they collaborate to help cells thrive or die.
Genes hold instructions to create proteins that determine not only physical characteristics, like outward appearance, but also all bodily processes, from moving blood through the veins to stimulating the immune system to attack a cold virus.
They can also be pivotal in the development of diseases like cancer.
The genes engage not only in one-on-one interactions but also create wide networks involving dozens of genes.
They found substantial overlap and commonalities between gene interactions and networks across all four species - humans, dogs, cats and mice.
“Modern genome science, although still in its infancy, has accumulated enormous amounts of information that can be repurposed to produce findings such as ours for decades to come. We’ve just scratched the surface,” said Desmond Smith.
The team found a network of more than 7 million interactions encompassing essentially every one of the genes in the mammalian genome.
“By looking at a gene’s network of ‘friends and co-workers,’ we can tell a lot about its role and purpose,” said study author Andy Lin.
Depending on the extent of interactions, specific drugs can be found to fight diseases such as cancer.
“The UCLA interaction map is a significant one that will help broaden the understanding of the working relationships between genes,” said Tara C. Matise.
“The more information we acquire about genetic interactions, the more effective scientists can be in developing bench-to-bedside research,” she added.
The findings are published in the August issue of the journal Genome Research. (ANI)
- Genetic pathways involved in breast cancer identified - Mar 04, 2011
- Full genetic blueprint of multiple prostate tumors unveiled - Feb 10, 2011
- 29 genome regions linked to common form of inflammatory bowel disease - Feb 07, 2011
- Genes interact much like making friends on Facebook - Mar 08, 2011
- How genes interact with their environment to raise disease risk - Feb 19, 2010
- Bacteria more likely to adopt 'loner' genes than well-connected ones - Mar 17, 2011
- 'Humanized' mouse may offer liver disease treatments - Feb 23, 2010
- Scientists discover new genes for cancer, other diseases in plants, yeast and worms - Apr 14, 2010
- Full genetic blueprint of blood cancer offers new insights - Mar 24, 2011
- New rat study may help understand genetic basis of human hypertension - Apr 29, 2010
- New molecular mechanisms involved in Alzheimer's development identified - Dec 17, 2010
- Smoking 'influences gene function' - Jul 14, 2010
- Genetic variation that cuts bladder cancer risk identified - Apr 03, 2011
- Scientists complete whole-exome sequencing of skin cancer - Apr 16, 2011
- Gene duplication gave humans powerful brain - May 04, 2012
Tags: andy lin, bench to bedside, bodily processes, cold virus, dogs cats, friends and co, gene interaction, gene interactions, genes, genetic interactions, genome research, genome science, infancy, mammalian gene, mammalian genome, network of friends, physical characteristics, study author, ucla researchers, working relationships