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  • Evolutionary novelty in gravity sensing through horizontal gene transfer and high-order protein assembly.

Evolutionary novelty in gravity sensing through horizontal gene transfer and high-order protein assembly.

PLoS biology (2018-04-25)
Tu Anh Nguyen, Jamie Greig, Asif Khan, Cara Goh, Gregory Jedd
摘要

Horizontal gene transfer (HGT) can promote evolutionary adaptation by transforming a species' relationship to the environment. In most well-understood cases of HGT, acquired and donor functions appear to remain closely related. Thus, the degree to which HGT can lead to evolutionary novelties remains unclear. Mucorales fungi sense gravity through the sedimentation of vacuolar protein crystals. Here, we identify the octahedral crystal matrix protein (OCTIN). Phylogenetic analysis strongly supports acquisition of octin by HGT from bacteria. A bacterial OCTIN forms high-order periplasmic oligomers, and inter-molecular disulphide bonds are formed by both fungal and bacterial OCTINs, suggesting that they share elements of a conserved assembly mechanism. However, estimated sedimentation velocities preclude a gravity-sensing function for the bacterial structures. Together, our data suggest that HGT from bacteria into the Mucorales allowed a dramatic increase in assembly scale and emergence of the gravity-sensing function. We conclude that HGT can lead to evolutionary novelties that emerge depending on the physiological and cellular context of protein assembly.

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聚-D-赖氨酸 氢溴酸盐, mol wt 30,000-70,000
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