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Topic Name: Researchers has Discovered the Aphrodisiac for the Biggest Moonlight Sex Event on Earth
Category: Genetic Engineering
Research persons: Dr Oren Levy,Professor Ove Hoegh-Guldberg,Dr Bill Leggat.Professor David Miller
Location: University of Queensland, Australia
Details
An international team of Australian and Israeli researchers has discovered
what could be the aphrodisiac
for the biggest moonlight sex event on Earth.
An ancient light-sensitive gene has been isolated by researchers from the ARC
Centre of Excellence for Coral Reef Studies (CoECRS) that appears to act as a
trigger for the annual mass spawning of corals across a third of a million
square kilometres of Australia’s Great Barrier Reef, shortly after a full
moon.
The genes, known as a cryptochromes,
occur in corals,
insects, fish and mammals - including humans - and are primitive light-sensing
pigment mechanisms which predate the evolution of eyes.
In a new paper published in the international journal Science today,
the team, headed by Marie Curie Scholar Dr Oren Levy of CoECRS and the University
of Queensland, reports its discovery that the Cry2 gene, stimulated by the
faint blue light of the full moon, appears to play a central role in triggering
the mass coral spawning event, one of nature’s wonders.
Professor Ove Hoegh-Guldberg, who leads the University of Queensland
laboratory in which the genes were discovered, said “This is the key to one of
the central mysteries of coral reefs. We have always wondered how corals
without eyes can detect moonlight and get the precise hour of the right couple
of days each year to spawn.”
What allows corals to spawn simultaneously along the immense length of the
Great Barrier Reef - and also in other parts of the world - has been a
scientific mystery till now, though researchers knew that tide, water
temperature and weather conditions played a part, says Dr Levy. However the
remarkable synchronisation of spawning occurring all along the Reef immediately
following a full moon suggested that moonlight was a key factor.
Exposing corals to different colours and intensities of light and sampling
live corals on reefs around the time of the full moon, Dr Levy found the Cry2
gene at its most active in Acropora corals during full moon nights.
“We think these genes developed in primitive life forms in the Precambrian,
more than 500 million years ago, as a way of sensing light,” he explains.
“The fact they are linked with the system that repairs damage from ultraviolet
(UV) radiation suggests they may evolved in eyeless creatures which needed
to avoid high daytime UV by living deep in the water, but still needed to sense
the blue light shed by the moon to synchronise their body clocks and breeding
cycles.”
“They are, in a sense, the functional forerunners of eyes,” Professor
Hoegh-Guldberg said.
In humans, cryptochromes still operate as part of the circadian system that
tunes us to the rhythms of our planet, though their light-sensing function
appears lost to us, he went on to explain.
“They play important roles in regulating the body-clocks of many species,
from corals to fruit flies, to zebra fish and mice. The proteins they produce
are similar to those in humans and other mammals, though they appear to function
more like those in the fruit fly,” says Professor David Miller of CoECRS and
JCU.
The coral cryptochrome genes were initially identified by Dr Levy and Dr Bill
Leggat working with Professor Hoegh-Guldberg (UQ) on Heron Island. Prof. Miller
and Dr David Hayward, of the Australian National University, were able to add
information on the coral cryptochromes from a large library of coral genes that
they have been compiling (so far they have catalogued about 10,000 out of an
estimated 20-25,000 genes in coral), and leading circadian clock biologists from
Bar-Ilan and Tel-Aviv
Universities in Israel played important roles in interpreting the data.
“Many of these genes developed in deep time, in the earliest phases
of organised life on the planet,” Dr Leggat says. “They were preserved for
hundreds of millions of years before being inherited by corals when they
developed about 240 million years ago, and are still found today in modern
animals and humans. They are an indicator that corals and humans are in fact
distant relatives, sharing a common ancestor way back.”
Whether they have anything at all to do with human associations between the
full moon and romance is not known, but cryptochromes probably still play a part
in our body clock.
More information:
Dr Oren Levy, Israel, BIU +972-3-5318570 or +972-50-4082825
Professor Ove Hoegh-Guldberg, CoECRS and UQ ph +61 (0)7 3365 1156 or 0401 106
604
Dr Bill Leggat, CoECRS and JCU, +61 (0)415 253 820
Professor David Miller, CoECRS and JCU, +61 (0)7 4781 4473 or 0419 671 768
Jenny Lappin, CoECRS, +61 (0)417 741 638
Jan King, UQ Communications Manager, +61 (0)7 3365 1120, 0413 601 248
Jim O’Brien, James Cook University Media Office, +61 (0)7 4781 4822
View
Images
About Researcher:
Dr Oren Levy
| Tags: |
Aphrodisiac - Coral - Cryptochrome - CRY2 - moonlight sex - ARC Centre of Excellence for Coral Reef Studies (CoECRS) - Dr Oren Levy - University of Queensland - Professor Ove Hoegh-Guldberg - Acropora corals - David Miller - JCU - Bar-Ilan - Tel-Aviv University. - |
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