Breaking News: Finding the key to flightlessness - News Paper

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Since Darwin's era, scientists have wondered how flightless birds like emus, ostriches, kiwi, cassowaries and others are related, and for decades the assumption was that they must all share a common ancestor who abandoned the skies for a more grounded life.

Finding the key to flightlessness
Ostriches [Credit: Josh*m, via Flickr]
By the early 2000s, new research using genetic tools upended that story, and instead pointed to the idea that flighlessness evolved many times throughout history. Left unanswered, however, were questions about whether evolution had pulled similar or different genetic levers in each of those independent avian lineages. A team of Harvard researchers believes they may now have part of the answer.

Based on the analysis of the genomes of more than a dozen flightless birds, including an extinct moa, a team of researchers led by Tim Sackton, Director of Bioinformatics for the FAS Informatics Group and Professor of Organismic and Evolutionary Biology Scott Edwards found that while different species show wide variety in the protein-coding portions of their genome, they appear to turn to the same regulatory pathways when evolving flight loss. The study is published in Science.

In addition to Sackton and Edward, the study was co-authored by Professor of Statistics and Professor of Biostatistics Jun Liu, Statistics research assistant Zhirui Hu, Alison Cloutier, a post-doctoral researcher working in Edwards' lab, and teams from New Zealand, University of Texas at Austin, and the Royal Ontario Museum.

"There is a long history in evolutionary biology of converging traits - the idea that there's independent evolution toward the same kind of phenotype," Sackton said. "What we were interested in is how does that happen?

"These birds all have a similar body plan," he continued. "They have reduced forelimbs, to different degrees, and they all have this loss of the 'keel' in their breastbone that anchors flight muscles. What that amounts to is a suite of convergent morphological changes that led to this similar body plan across all these species."


To understand what drove that suite of changes, Sackton, Edwards and colleagues turned to the genomes of the birds themselves.

"We wanted to compare not just the parts of the genome that code for proteins, but also the parts of the genome that regulate when those proteins are expressed," Sackton said, of the various species examined for the study. To identify those regions, the team used a process that involved aligning the genomes of more than three dozen bird species - both flying and flightless - and then identifying regions that showed relatively few differences in their genetic sequence. These places in the genome that are conserved, but not part of proteins, are likely to have a regulatory function.

"We worked with collaborators in Statistics here at Harvard to develop a new statistical method that allowed us to ask, for each of those regulatory elements, how many of these species showed the same pattern of divergence, suggesting they have changed the same regulatory elements," Sackton said. "And what we found was that, while there is not much sharing of protein-coding genes, there is for these regulatory regions, suggesting that there are shared developmental pathways that are repeatedly targeted every time this phenotype has evolved."

While the protein-coding genes appear to be responsible for adaptations in diet, feather function and environment, Sackton said, the regulatory regions seem to play a key role in the body-scaling changes that go along with flight loss.

"What's interesting about the morphological changes...is they have to preserve their hindlimbs," he said. "There are lots of ways to stop a limb from forming, but shrinking a forelimb without changing the hindlimb is more difficult."


And in some ways, Sackton said, that story makes sense - strange as it may seem, it is likely easier to not form a limb versus shrinking one.

"If you think about it, there's lots of ways to break something," he said. "There are a bunch of steps early in limb development where, if a protein doesn't get expressed, it'll just turn the system off and you don't get a limb.

"But this is actually a complicated shift in body scaling," he continued. "You can't just willy-nilly grow limbs to different sizes, so...the fact that it's important they maintain functional hindlimbs constrains the system and might be why we see this convergent pattern."

To prove that theory, the team tagged certain regulatory regions in the birds' genomes with a gene that would produce green fluorescent protein, and found that - in flightless species, where those regions where believed to have undergone functional changes - the marker gene was effectively turned off.

"To get a limb to start growing, a bunch of things need to happen...so if you can knock out an enhancer and make it harder for those proteins to be expressed you can delay that process," Sackton said. "This suggests they these regions may have lost some important binding sites that prevent them from acting as an enhancer."


What it all boils down to in the end, Sackton said, is that birds have a limited number of options to pursue when it comes to the loss of flight, and so various species have gone to the same well again and again.

"That's is the conclusion we would draw from this work," he said. "There are a limited number of ways you can get this type of change in scaling, and they center on this regulation of early limb development."

The study also highlights the power of the multi-disciplinary approach taken by Sackton, Edwards and colleagues.

"One of the things that was exciting about this project, for me personally, was how we were able bring the computational expertise in the Informatics Group to bear on this really important question in evolutionary biology. This joining of computational, statistical genetics with the natural history perspectives is important for getting the full picture of how these birds evolved."

"It's exciting what can be done with a research team with diverse skill sets," Edwards added. "Our group had developmental biologists, computational biologists, morphologists, statisticians, population geneticists - and, of course, ornithologists. Each brings a different perspective and the results, I think, are amazing."

Source: Harvard University [April 17, 2019]



from The Archaeology News Network http://bit.ly/2INyCDD
Breaking News: Finding the key to flightlessness - News Paper

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