Humble fern from New Caledonia boasts world's largest genome
Send a link to a friend
 [June 01, 2024]
By Will Dunham
(Reuters) - You thought the living organism with ;/"he largest genome
might be the blue whale, an African elephant or perhaps a giant redwood
tree? Not even close. A human being? Wrong again. That honor instead
goes to a little fern that grows in the French overseas territory of New
Caledonia in the southwest Pacific Ocean.
New research shows that this fork fern species, called Tmesipteris
oblanceolata, has a genome - all the genetic information of an organism
- that is 7% larger than that of the previous record-holder, the
Japanese flowering plant Paris japonica, and more than 50 times the size
of the human genome.
The metric for genome size was the number of base pairs, the fundamental
units of DNA, in an organism's cellular nuclei. If stretched out like
from a ball of yarn, the length of the DNA in each cell of this fern
would extend nearly 350 feet (106 meters), taller than New York's Statue
of Liberty, the clock tower for London's Big Ben or India's Taj Mahal.
The human genome would extend a mere 6-1/2 feet (2 meters).
The fern grows primarily on the ground or atop fallen tree trunks in New
Caledonia, about 750 miles (1,200 km) east of Australia, and on
neighboring islands such as Vanuatu.
"We can tell you that this species is not very showy. It is a small
plant, typically 10-15 centimeters (4-6 inches) in height, which could
easily go unnoticed to anyone who's not specifically looking for it,"
said evolutionary biologist Jaume Pellicer of the Botanical Institute of
Barcelona (IBB), co-lead author of the study published on Friday in the
journal iScience.
The specimens used in the study were collected last year on New
Caledonia's Grande Terre Island. Its leaf-like structures are not true
leaves, but rather flattened stems. It belongs to a fern family whose
evolutionary lineage split from other ferns around 350 million years
ago, approximately 120 million years before dinosaurs appeared.
A large genome is not considered beneficial.
"We think that Tmesipteris oblanceolata has such a large genome not for
any evolutionary advantage but simply because, for a reason that we do
not know yet, it has failed over time to efficiently remove
non-functional or redundant DNA sequences," Pellicer said.
DNA, which carries an organism's genetic information, is comprised of
two linked strands that wind around each other in a shape called a
double helix that looks like a twisted ladder. Base pairs make up the
ladder's rungs.
[to top of second column]
|
The fork fern species Tmesipteris oblanceolata is seen in New
Caledonia, a French overseas territory in the Pacific, in this
undated photograph. Oriane Hidalgo/Handout via REUTERS
MULTIPLE CONSEQUENCES
Genome size has multiple consequences. For instance, larger genomes
require more resources for DNA replication, repair and transcription
- a process a cell uses to make the proteins an organism needs to
function.
"This increased demand can strain the plant's energy and nutrient
resources, which could otherwise be used for growth, reproduction
and stress responses," said IBB evolutionary biologist and study
co-lead author Oriane Hidalgo.
Bigger genomes necessitate bigger cells to house them and take
longer to replicate the DNA, slowing down cellular division
underpinning growth. This could reduce the ability of a plant
species to compete for light, water and nutrients, making it
ecologically more restricted, Hidalgo said.
Scientists have wondered why some organisms have large genomes and
others do not.
"This is indeed a puzzling question. But what is clear is that there
is no relationship between genome size and organism complexity,"
said plant geneticist and study co-author Ilia Leitch of the Royal
Botanic Gardens Kew in London.
There also is no relationship between an organism's physical size
and its genome size. The little fern's genome is about 6,000% bigger
than that of a blue whale, Earth's largest animal, and about 4,650%
bigger than that of an African elephant, the largest land animal. It
also is about 1,500% larger than that of the giant redwood, the
tallest plant.
Africa's marbled lung fish has the biggest-known animal genome. The
fern's is nearly 25% larger.
Scientists have gauged the genome size of about 20,000 organisms
possessing clearly defined nuclei, with big genomes the exception
rather than the rule.
"Genome size is an important biodiversity character as it has been
shown to play a role in influencing how, where and when a plant is
able to grow and compete, and respond to environmental challenges
such as climate change and pollution," Leitch said.
(Reporting by Will Dunham in Washington; Editing by Daniel Wallis)
[© 2024 Thomson Reuters. All rights reserved.]This material
may not be published, broadcast, rewritten or redistributed.
Thompson Reuters is solely responsible for this content.
 |
