Structural Basis for the Thermostability of Ferredoxin from the Cyanobacterium Mastigocladus laminosus

Plant-type ferredoxins (Fds) carry a single [2Fe-2S] cluster and serve as electron acceptors of photosystem I (PSI). The ferredoxin from the thermophilic cyanobacterium Mastigocladus laminosus displays optimal activity at 65 °C. In order to reveal the molecular factors that confer thermostability, t...

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Veröffentlicht in:Journal of molecular biology 2005-07, Vol.350 (3), p.599-608
Hauptverfasser: Fish, Alexander, Danieli, Tsafi, Ohad, Itzhak, Nechushtai, Rachel, Livnah, Oded
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Sprache:eng
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Zusammenfassung:Plant-type ferredoxins (Fds) carry a single [2Fe-2S] cluster and serve as electron acceptors of photosystem I (PSI). The ferredoxin from the thermophilic cyanobacterium Mastigocladus laminosus displays optimal activity at 65 °C. In order to reveal the molecular factors that confer thermostability, the crystal structure of M. laminosus Fd (mFd) was determined to 1.25 Å resolution and subsequently analyzed in comparison with four similar plant-type mesophilic ferredoxins. The topologies of the plant-type ferredoxins are similar, yet two structural determinants were identified that may account for differences in thermostability, a salt bridge network in the C-terminal region, and the flexible L1,2 loop that increases hydrophobic accessible surface area. These conclusions were verified by three mutations, i.e. substitution of L1,2 into a rigid β-turn (ΔL1,2) and two point mutations (E90S and E96S) that disrupt the salt bridge network at the C-terminal region. All three mutants have shown reduced electron transfer (ET) capabilities and [2Fe-2S] stability at high temperatures in comparison to the wild-type mFd. The results have also provided new insights into the involvement of the L1,2 loop in the Fd interactions with its electron donor, the PSI complex.
ISSN:0022-2836
1089-8638
DOI:10.1016/j.jmb.2005.04.071