Formation of supramolecular protein structures on gold surfaces

Abstract: Recent research has highlighted the exciting possibilities enabled by the use of protein structures as nanocomponents to form functional nanodevices. To this end, control over protein-protein and protein-surface interactions is essential. In this study, the authors probe the interaction of human peroxiredoxin 3 with gold surfaces, a protein that has been previously identified as having potential use in nanotechnology. Analytical ultracentrifugation and transmission electron microscopy revealed the pH mediated … Show more

“… 23 , 24 Histidine tags located at the protein N-terminus (His 6 -tag) both stabilise peroxiredoxin rings, 25 as well as alter the transition pH at which self-assembly into HMW protein tubes occurs. 26 The peroxiredoxin N-termini project into the inner cavity of the ring, and His 6 -tags have been used for binding useful moieties, 18 and for binding to surfaces. 26 The presence or absence of the histidine tag thus facilitates a tuneable system by which protein supramolecular self-assembly complexes can be designed, which could be applied to other self-assembling protein systems.…”

“… 26 The peroxiredoxin N-termini project into the inner cavity of the ring, and His 6 -tags have been used for binding useful moieties, 18 and for binding to surfaces. 26 The presence or absence of the histidine tag thus facilitates a tuneable system by which protein supramolecular self-assembly complexes can be designed, which could be applied to other self-assembling protein systems. § §Cleaved refers to protein with the N-terminal His 6 -tag removed using TEV protease cleavage.…”

Self-assembly of toroidal proteins explored using native mass spectrometry

“… 23 , 24 Histidine tags located at the protein N-terminus (His 6 -tag) both stabilise peroxiredoxin rings, 25 as well as alter the transition pH at which self-assembly into HMW protein tubes occurs. 26 The peroxiredoxin N-termini project into the inner cavity of the ring, and His 6 -tags have been used for binding useful moieties, 18 and for binding to surfaces. 26 The presence or absence of the histidine tag thus facilitates a tuneable system by which protein supramolecular self-assembly complexes can be designed, which could be applied to other self-assembling protein systems.…”

“… 26 The peroxiredoxin N-termini project into the inner cavity of the ring, and His 6 -tags have been used for binding useful moieties, 18 and for binding to surfaces. 26 The presence or absence of the histidine tag thus facilitates a tuneable system by which protein supramolecular self-assembly complexes can be designed, which could be applied to other self-assembling protein systems. § §Cleaved refers to protein with the N-terminal His 6 -tag removed using TEV protease cleavage.…”

Self-assembly of toroidal proteins explored using native mass spectrometry

“…For instance, hPrxIII engineered with a N-terminal polyHis tag forms rings resembling the untagged protein at pH 8.0, 29 as confirmed by analytical ultracentrifugation (AUC). 75 Alike hPrxIII, rings can be obtained using the N-terminal polyHis-tagged Sm PrxI at pH 7.6 ( Figure 4 b) 38 , 46 characterized by the pentagonal decameric assembly (pentamer of homodimers; PDB: 3ZTL). 37 The rings appear as spherical globules with height profile of ∼12 or ∼4 nm when imaged by atomic force microscopy (AFM) and, notably, are stable after heating to 75 °C, therefore demonstrating remarkable thermostability.…”

“…Scanning tunneling microscopy (STM) show that that the rings preferentially bind face-on to the gold appearing as discrete globules with 15 nm diameter and 0.5 nm thickness, thus creating a flat protein coating ( Figure 10 a). 75 To note, the stability of the interaction is increased by treating the gold surface with a self-assembling monolayer (SAM) of SH-nitrilotriacetic acid (NTA-thiol). 75 …”

Taking Advantage of the Morpheein Behavior of Peroxiredoxin in Bionanotechnology

“…Prxs belong to an abundant family of peroxide-dependent antioxidant enzymes within cells (Perkins, Nelson, Parsonage, Poole, & Karplus, 2015;Rhee, Chae, & Kim, 2005). Although Prxs can be found as CP dimers in solution, decameric toroidal capsids with an approximate outer diameter of 13 nm, an inner pore of 6 nm, and a height of 4 nm are more commonly found (Ardini et al, 2014;Domigan et al, 2017;Jang et al, 2004) (Figure 1g). Furthermore, larger aggregates and higherorder complexes such as toroid stacks or spherical cages are naturally found under reducing conditions (Lowther & Haynes, 2011;Phillips et al, 2014).…”

Highly ordered protein cage assemblies: A toolkit for new materials