Blind Dating in Bacteria Evolution | A Bioscience Publishing Platform

Blind Dating in Bacteria Evolution

Published:24 Apr.2023 Source:Max-Planck-Gesellschaft

The Berlin team tested whether ancient molecules could form an interaction. This way the scientists could retrace how both protein partners got to know each other. 'Surprisingly, the FRP from the proteobacteria already matched the ancestral OCP of the cyanobacteria, before gene transfer had even taken place. The mutual compatibility of FRP and OCP has thus evolved completely independently of each other in different species, says Thomas Friedrich. This allowed the team to prove that their ability to interact must have been a happy accident: selection could not plausibly have shaped the two proteins' surfaces to enable an interaction if they had never met each other. This finally proved that such interactions can evolve entirely without direct selective pressure.

‘This may seem like an extraordinary coincidence,’ Niklas Steube says. ‘Imagine an alien spaceship landed on earth and we found that it contained plug-shaped objects that perfectly fit into human-made sockets. But despite the perceived improbability, such coincidences could be relatively common. But in fact, proteins often encounter a large number of new potential interaction partners when localisation or expression patterns change within the cell, or when new proteins enter the cell through horizontal gene transfer.’ Georg Hochberg adds, ‘Even if only a small fraction of such encounters ends up being productive, fortuitous compatibility may be the basis of a significant fraction of all interactions we see inside cells today. Thus, as in human partnerships, a good evolutionary match could be the result of a chance meeting of two already compatible partners.’