| Literature DB >> 29879486 |
Matthew McDougall1, Kevin McEleney2, Olga Francisco1, Benchmen Trieu3, Efehi Kelly Ogbomo3, Gregg Tomy1, Jörg Stetefeld4.
Abstract
Coiled coils are well described as powerful oligomerization motifs and exhibit a large diversity of functions, including gene regulation, cell division, membrane fusion and drug extrusion. The archaea S-layer originated right-handed coiled coil -RHCC-NT- is characterized by extreme stability and is free of cysteine and histidine moieties. In the current study, we have followed a multidisciplinary approach to investigate the capacity of RHCC-NT to bind a variety of ionic complex metal ions. At the outside of the RHCC-NT, one mercury ion forms an electrostatic interaction with the S-methyl moiety of the single methionine residue present in each coil. We demonstrate that RHCC-NT is reducing and incorporating metallic mercury in the large-sized interior cavities which are lined up along the tetrameric channel.Entities:
Keywords: Archaea; Cluster uptake via protein cage; Reduction of metals; Right-handed coiled coil; S-layer; Synchrotron-XRD; XPS
Mesh:
Substances:
Year: 2018 PMID: 29879486 DOI: 10.1016/j.jsb.2018.05.013
Source DB: PubMed Journal: J Struct Biol ISSN: 1047-8477 Impact factor: 2.867