Structural Characterization of an ACP from Thermotoga maritima: Insights into Hyperthermal Adaptation.

Yeongjoon Lee, Ahjin Jang, Min-Cheol Jeong, Nuri Park, Jungwoo Park, Woo Cheol Lee, Chaejoon Cheong, Yangmee Kim

International journal of molecular sciences 2020 Apr 09

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Thermotoga maritima, a deep-branching hyperthermophilic bacterium, expresses an extraordinarily stable Thermotoga maritima acyl carrier protein (Tm-ACP) that functions as a carrier in the fatty acid synthesis system at near-boiling aqueous environments. Here, to understand the hyperthermal adaptation of Tm-ACP, we investigated the structure and dynamics of Tm-ACP by nuclear magnetic resonance (NMR) spectroscopy. The melting temperature of Tm-ACP (101.4 °C) far exceeds that of other ACPs, owing to extensive ionic interactions and tight hydrophobic packing. The D59 residue, which replaces Pro/Ser of other ACPs, mediates ionic clustering between helices III and IV. This creates a wide pocket entrance to facilitate the accommodation of long acyl chains required for hyperthermal adaptation of the T. maritima cell membrane. Tm-ACP is revealed to be the first ACP that harbor an amide proton hyperprotected against hydrogen/deuterium exchange for I15. The hydrophobic interactions mediated by I15 appear to be the key driving forces of the global folding process of Tm-ACP. Our findings provide insights into the structural basis of the hyperthermal adaptation of ACP, which might have allowed T. maritima to survive in hot ancient oceans.

Citation

Yeongjoon Lee, Ahjin Jang, Min-Cheol Jeong, Nuri Park, Jungwoo Park, Woo Cheol Lee, Chaejoon Cheong, Yangmee Kim. Structural Characterization of an ACP from Thermotoga maritima: Insights into Hyperthermal Adaptation. International journal of molecular sciences. 2020 Apr 09;21(7)