Doping of Green Fluorescent Protein into Superfluid Helium Droplets: Size and Velocity of Doped Droplets

Abstract: We report doping of green fluorescent protein from an electrospray ionization (ESI) source into superfluid helium droplets. From analyses of the time profiles of the doped droplets, we identify two distinct groups of droplets. The faster group has a smaller average size, on the order of 106 helium atoms/droplet, and the slower group is much larger, by at least an order of magnitude. The relative populations of these two groups depend on the temperature of the droplet source: from 11 K to 5 K, the signal intens… Show more

“…In fact, our experimental characterization of droplets produced from different types of pulse valves has repeatedly confirmed the bimodal distribution of droplet sizes. 60–63 On the other hand, the ionization and detection scheme can be easily implemented in most laboratories, and hence this knowledge on the conditions of the droplets can be obtained with minimal efforts.…”

Electron diffraction as a structure tool for charged and neutral nanoclusters formed in superfluid helium droplets

“…In fact, our experimental characterization of droplets produced from different types of pulse valves has repeatedly confirmed the bimodal distribution of droplet sizes. 60–63 On the other hand, the ionization and detection scheme can be easily implemented in most laboratories, and hence this knowledge on the conditions of the droplets can be obtained with minimal efforts.…”

Electron diffraction as a structure tool for charged and neutral nanoclusters formed in superfluid helium droplets

“…While resonance multiphoton ionization is only feasible with specific molecules, electrospray ionization (ESI) provides a universal technique for bringing large ions, such as proteins, into the gas phase [195,196,[198][199][200]. However, the low density of ions in electrospray has warranted a considerable modification of the pickup technique which involves ion traps.…”

Infrared spectroscopy in superfluid helium droplets

“…Similar setups were already realized by the groups of Bierau et al (2010) and Alghamdi et al (2017) and successfully implemented to investigate the pickup conditions of large biomolecular systems as well as to perform UV-vis (Filsinger et al, 2012) and infrared spectroscopy (Florez et al, 2015(Florez et al, , 2016Mucha et al, 2017Mucha et al, , 2018 of mass-selected biomolecular ions. Nevertheless, spectroscopic studies on biomolecules embedded in helium droplets are still in their infancy, but highly desirable to study the intrinsic photophysical properties of biomolecules in a welldefined cryostatic environment, and to deliver benchmark data for high-level quantum chemical calculations.…”

Chemistry and physics of dopants embedded in helium droplets