Engineered introduction of interface interchain disulphide bonds is perceived to be a simple method to increase the stability of single chain Fv (scFv). Six disulphide bond locations have been cited within the literature but the potential for the broad use of each has not been examined. Five of these disulphide bond locations were introduced into one scFv in order to compare their relative effects on expression, thermal stability, percent monomer formation and retention of antigen binding. The disulphide bond position vH44-vL100 was observed to enable the most favourable balance of biophysical properties. The vH44-vL100 disulphide bond was introduced into five additional scFv in both vL-vH and vH-vL orientations in order to investigate its general applicability. Data are presented to show the relative influence of scFv sequence, v-region organisation and interchain disulphide bond on expression yield, thermal stability and percent monomer. Introduction of the vH44-vL100 disulphide bond typically resulted in no or little increase in thermal stability and no change in percent monomer but did confer the benefit of permanently fixing monomer:dimer ratios during purification and analysis.
We exploit single-molecule tracking and optical single channel recording in droplet interface bilayers to resolve the assembly pathway and pore-formation of the archetypical cholesterol-dependent cytolysin nanopore, Perfringolysin O. We follow the stoichiometry and diffusion of Perfringolysin O complexes during assembly with 60 millisecond temporal resolution and 20 nanometre spatial precision. Our results suggest individual nascent complexes can insert into the lipid membrane where they continue active assembly. Overall, these data support a model of stepwise irreversible assem-1 .
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