Saturday 20 April 2013

Tulip tree's genome is 'molecular fossil'


By Mark KinverEnvironment reporter, BBC News
The genetic data gives biologists a glimpse into the distant past when flowering plants first appeared

The "extraordinary level of conservation" of genetic data in the tulip tree remains largely unchanged since the dinosaurs, a study suggests.

The species' genomic change is about 2,000 times slower than in humans, making it a "molecular fossil", a team of US researchers said.


The new information has affected our understanding of flowering plants' evolution, they added.


The team from the universities of Indiana and Arkansas sequenced the mitochondrial genome of the species (Liriodendron tulipifera), only to discover it had one of the slowest silent mutation rates (a process that does not affect gene function).

They added that the sequencing showed that many of the genes that had been lost during 200 million years of flowering plants' (angiosperms) evolution had been preserved.

"Based on this, it appears that the genome has been more-or-less frozen in time for millions and millions of years," explained co-author Prof Jeffrey Palmer.

Prehistoric powerhouses
Mitochondria are found within organisms' cells and their job is to generate power. They do this by converting food stuffs into chemical energy that the organism uses to function.

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