Majority of bacteria may have descended from a land-dwelling ancestor

November 29th, 2008 - 1:17 pm ICT by ANI  

London, Nov 29 (ANI): An analysis by two US scientists has determined that the majority of bacteria may have evolved on land from an early common ancestor three billion years ago.

The relationships between different families of bacteria has long been debatable.

Traditionally, phylogenetic trees that show how bacteria are related to each other have been based on two different techniques, each yielding different results.

One tree is built by comparing the genes encoding ribosomal RNA, whereas the other method uses 2040 core genes that are found in nearly every living organism.

Now, according to a report in Nature News, Blair Hedges at Pennsylvania State University and Fabia Battistuzzi, now at Arizona State University in Tempe, have found that the two methods yield similar trees once an intrinsic bias in the ribosomal RNA data is taken into account.

The researchers said that the new charts suggest that 6,157 out of 9,740 prokaryotic species including cyanobacteria, actinobacteria, bacilli and chloroflexi share a common ancestor that was adapted to life on land.

It seems that all of these groups had a terrestrial common ancestor three billion years ago, said Hedges.

The key to the new research was the observation that, in bacteria from warm environments such as deep-sea hydrothermal vents, the genes coding for ribosomal RNA contain more guanine and cytosine than adenine and thymine.

Thats not surprising because the bond formed in DNA between guanine and cytosine is less likely to break at high temperatures than the adeninethymine bond, so there would be selective pressure for bacteria dwelling in high temperatures to use these more stable bonds in their DNA.

However, the two researchers realized that the guanine/cytosine bias could also account for the discrepancy between the ribosomal RNA and core gene trees, and applied a statistical correction to compensate for it.

That produced two phylogenetic trees that were much more alike.

To test whether the trees they had produced from the genetic information were correct, Hedges and Battistuzzi decided to check their results against reality, examining the cellular characteristics of the microbes and their habitats.

They found that the classes they suggested had descended from a common land-based ancestor shared characteristics, such as tolerance to ultraviolet light, resistance to water loss, and the ability to form a protective spore during adverse conditions, which would have been crucial for surviving life on land.

According to geochemist Paul Knauth from Arizona State University, Ive long been arguing that the real action in early life was non-marine and that the reason we dont see it is because terrestrial environments are so rapidly eroded and quite rare in the rock record. (ANI)

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