This was achieved by incubating the functionalised gold surfaces

This was achieved by incubating the functionalised gold surfaces in a solution of RC-His12-LH1-PufX in 10 mM HEPES pH 7.4, 250 mM KCl, 0.59 mM β-DDM for 15 min and then very gently washing the samples (4 times) in 10 mM HEPES pH 7.4, 250 mM KCl, 0.59 mM β-DDM buffer and storing them in imaging buffer for further use. Different concentration of RC-His12-LH1-PufX was used to

control the surface density of the molecules. A final concentration of 65 nM was used to achieve surface density of 200–300 molecules per μm2 and a final concentration of 800 nM resulted in much denser coverage of the sample #Tideglusib concentration randurls[1|1|,|CHEM1|]# surface used in SMFS experiments. The AFM probes were incubated with a 30 μM solution of cyt c 2-His6 for 15 min and then extensively washed in 10 mM HEPES pH 7.4, 250 mM NaCl, 1 mM LDAO buffer to remove the physisorbed protein. Next, the AFM probes were washed and stored in imaging buffer. In parallel with the AFM probes, gold substrates were functionalised in exactly the same way (at the same time with the AFM probes). This helped us to assess the final surface density of the protein molecules

attached to the AFM probes. We estimated that there are about ABT-263 100–150 molecules attached to the active area on the apex of the AFM probe (defined as the part of the apex of the tip where the attached protein molecules can be brought into contact with the proteins Dolutegravir on the surface). The surface area of that part of the tip is nominally around 22,000 nm2 in this case. AFM measurements All AFM measurements were performed with a Multimode 8 instrument equipped with a NanoScope V (Bruker) controller. NanoScope (v 8.15) software (Bruker) was used for data collection. PeakForce QNM measurements

were performed in imaging buffer (10 mM HEPES pH 7.4, 45 mM KCl) at room temperature using SNL (cantilever C) probes (Bruker). The spring constant for each cantilever was obtained using the built-in cantilever calibration (thermal method) in the NanoScope software; the obtained spring constants for the cantilevers used were in the range 0.121–0.18 N m−1. The Z-modulation amplitude was adjusted to values in the range 20–25 nm to allow enough tip–sample separation in order to fully separate the cyt c 2-His6 from the RC-His12-LH1-PufX molecules on the surface during each ramp cycle. The Z-modulation frequency (repetition rate) was 1 kHz and the contact tip–sample force was kept in the range 100–150 pN. The imaging rate was adjusted in a way that ensured two force–distance curves recorded per image pixel. The pixel size is about 2 nm for the PF-QNM data so given the size of the RC it can be contacted up to 4–6 times by the cyt c 2 molecules as the AFM probe is scanned over the sample (bearing in mind that the ‘binding efficiency’ of the tethered molecules in our experiment is lower compared to free molecules in solution).

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