PARIS: New investigations into the code for life suggest the assumption that humans are genetically almost identical is wide of the mark, and the implications could be resounding.
Current thinking, inspired by the results five years ago from the Human Genome Project, is that the six billion humans alive today are 99.9 per cent similiar when it comes to genetic content and identity.
But major research work, published on Thursday, suggests we are genetically more diverse-- and the repercussions could be far-reaching for medical diagnosis, new drugs and the tale of human evolution itself.
Until now, analysis of the genome has focussed overwhelmingly on comparing flaws, or polymorphisms, in single “letters” in the chemical code for making and sustaining human life.
An international consortium of scientists has taken a different tack and believe they have uncovered a complex, higher-order variation in the code.
This better explains why some individuals are vulnerable to certain diseases and respond well to specific drugs, while counterparts swiftly fall sick or never respond to treatment, the authors believe.
Their focus has been to dig out deletions or duplications of code among relatively long sequences of individual DNA and then compare these so-called copy number variations (CNVs) across a range of volunteers of different ancestry.
The researchers were astonished to locate 1,447 copy number variations in nearly 2,900 genes, or around one eighth of the human genetic code.
“Each one of us has a unique pattern of gains and losses of complete sections of DNA,” said Matthew Hurles of Britain's Wellcome Trust Sanger Institute, one of the project's partners.
“One of the real surprises of these results was just how much of our DNA varies in copy number. We estimate this to be at least 12 per cent of the genome.
“The copy number variation that researchers had seen before was simply the tip of the iceberg, while the bulk lay submerged, undetected. We now appreciate the immense contribution of this phenomenon to genetic differences between individuals.”
Some of the missing or duplicated stretches are very long, suggesting that, like backroom switches in a protein factory, variations must have a big impact on gene expression.—AFP
