Despite Odds, Fish Species
that Bypasses
Sexual Reproduction Is Thriving
Success of asexual reproduction in Amazon molly an evolutionary anomaly
by JimDryden , Washington University
of St. Louis
Sexual Reproduction Is Thriving
Success of asexual reproduction in Amazon molly an evolutionary anomaly
by Jim
February 12, 2018 -- The very rare animals that reproduce asexually
— only about one in 1,000 of all living vertebrate species — are thought to be
at an evolutionary disadvantage compared with their sexually reproduced
counterparts. But that theory doesn’t hold true regarding the Amazon molly, an
all-female fish species that has thrived for millennia in the fresh waters
along the Mexico-Texas border.
To better understand how this fish’s reproduction deviates
from the norm, an international team of scientists has sequenced the first
Amazon molly genome and the genomes of the original parental species that
created this unique fish. Their findings suggest that the molly’s thriving
existence is not totally unexpected since they found the fish has a hardy
genetic makeup that is often rare in nature and gives the animals some
predicted survival benefits.
“It appears the stars aligned for this species,” said first
author Wesley C. Warren, PhD, an assistant director at the McDonnell Genome
Institute at Washington University School of Medicine in St. Louis
The findings are published Feb. 12 in the journal Nature
Ecology & Evolution.
Ever since scientists, in 1932, determined that the Amazon
molly was the first known asexual vertebrate, they have wondered how this came
to be.
One of the theories that spells out why asexual reproduction
should stand in the way of a species’ sustainability is the idea that if no new
DNA is introduced during reproduction, then harmful gene mutations can
accumulate over successive generations, leading to eventual extinction. Another
hypothesis states that because asexual reproduction limits genetic diversity
within a species, the animals eventually become unable to adapt to changes in
the environment.
“The expectation is that these asexual organisms are at a
genetic disadvantage,” said Warren
The researchers found that the Amazon molly resulted from a
sexual reproduction event involving two different species of fish, when an
Atlantic molly first mated with a Sailfin molly 100,000 to 200,000 years ago.
Since then, the resulting Amazon molly has been a hybrid species that
remarkably has remained frozen in evolutionary time — yet still continues to
thrive.
“That’s about 500,000 generations if you calculate it out to
the present day,” said Warren
The Amazon molly reproduces by “mating” with a male fish of
a related species. But the male’s DNA is not incorporated into the offspring.
Instead, mating with the male fish triggers the replication of the entire
maternal genome. In essence, mollies clone themselves. They don’t lay eggs but
instead give birth to large broods of live offspring.
Scientists have long theorized that clones, by failing to
purge harmful mutations, should experience decay in the genome and eventual
extinction over generations.
“This study caps an intensive, collaborative study, marking
the first glimpse of the genomic features of an asexual vertebrate and setting
up a platform for future molecular, cellular and developmental work in this
interesting species,” said Michael Lynch, PhD, director of the Biodesign Center
for Mechanisms of Evolution at Arizona
State University
So although the Amazon molly has thrived for thousands of
years, it remains resistant to giving away its genomic secrets — for now.
“It may be that the Amazon molly has the best of both
worlds,” said Manfred Schartl, professor and chair of biochemistry at the University of Wurzburg
in Wurzburg , Germany
Whatever the reasons, the researchers said the Amazon molly
is an exception to ideas about the evolutionary disadvantages of asexual
reproduction.
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