There is a staggering diversity of genome sizes. The smallest genome (3) so far reported (0.0023 pg of DNA) is found in a parasite (Encephalitozoon intestinalis) of humans and other mammals. The human genome, at 3.0 pg, is 1300 times larger than this, but this pales into insignificance compared to those found in some animals and plants.
Among animals, some amphibians have enormous genomes, but the largest recorded so far is that of the marbled lung fish (Protopterus aethiopicus) with 132.83 pg(3) . Among plants, the record holder for 34 years was a species of fritillary(4) (Fritillaria assyriaca) until earlier this year when a Dutch group knocked the fritillary off the top spot when they found that a natural hybrid of trillium (Trillium × hagae), related to herb paris had a genome just 4% larger than the fritillary (132.50 pg).
This was widely thought to be approaching the maximum size that a genome could reach, until this summer when a team of Kew scientists discovered that the genome of another close relative of herb paris, Paris japonica from Japan, is a staggering 15% bigger than the genome of either the trillium or the fish at a whopping 152.23 pg
Ilia Leitch, Research Scientist in the Jodrell Laboratory, says "We were astounded when we discovered that this small stunning plant had such a large genome -- It's so large that when stretched out it would be taller than Big Ben.
"Some people may wonder what the consequences are of such a large genome and whether it really matters if one organism has more DNA than another. The answer to this is a resounding "yes, it does", and the consequences operate at all levels from the cell up to the whole organism and beyond. In plants, research has demonstrated that those with large genomes are at greater risk of extinction, are less adapted to living in polluted soils and are less able to tolerate extreme environmental conditions -- all highly relevant in today's changing world."
Another example of the significance and importance of genome size in both animals and plants, is the fact that the more DNA there is in a genome, the longer it takes for a cell to copy all its DNA and divide. The knock-on effect of this is that it can take longer for an organism with a larger genome to complete its life cycle than one with a small genome. It is no coincidence that many plants living in deserts which must grow quickly after rains have small genomes enabling them to grow rapidly. In contrast, species with large genomes grow much more slowly and are excluded from such habitats.
Genome size is also positively correlated with nuclear size (the more DNA you have the more space you need for it), and, in many cases, also with cell size which can have knock-on consequences at the whole organism level.
For more information please contact Bryony Phillips or Bronwyn Friedlander at the Kew Press Office on 020 8332 5607 or email pr@kew.org
Notes for Editors
The teams findings are already available online and will be printed in an upcoming issue of the Botanical Journal of the Linnean Society. The paper can be downloaded from http://onlinelibrary.wiley.com/doi/10.1111/j.1095-8339.2010.01072.x/abstract
Citation: Pellicer J, Fay MF, Leitch IJ. 2010. The largest eukaryote genome of them all? Botanical Journal of the Linnean Society Doi:http://dx.doi.org/10.1111/j.1095-8339.2010.01072.x
Information about genome size in plants is summarized in the Plant DNA C-values database maintained by Kew (http://data.kew.org/cvalues/). Similar information about animal genomes can be found in the Animal Genome Size database (http://www.genomesize.com/
(1)The group investigated genome size in Paris japonica using flow cytometry, comparing it with a range of other plants known to have large genomes.
(2) Genome size is the total amount of DNA in the nucleus of an organism and includes both the genes and the non-coding sequences of the DNA.
(3) Here we are referring to eukaryotes (organisms with membrane enclosed nuclei); viruses and bacteria have even smaller genomes.
(3) This is almost 58,000 times more than the smallest genome in the parasite
(4) The Fritillaria assyriaca has a genome with 127.4 pg of DNA This is 55,000 times more than the parasite.
Images: Images are available to download online from http://www.kew.org/press/images/paris_japonica.html please contact the press office on 020 8332 5607 or email pr@kew.org for the username and password.
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