Plasma FIB milling for the determination of structures in situ

Abstract

AbstractStructural biology inside cells and tissues requires methods able to thin vitrified specimens to electron transparent thicknesses. Until now, focused ions beams based on gallium have been used. However, ion implantation, changes to surface chemistry and an inability to access high currents limit Gallium as an ion beam source. Here, we show that plasma-coupled ion sources can produce cryogenic lamella of vitrified human cells in a robust and automated manner, with quality sufficient for pseudo-atomic structure determination. In addition, these lamellae were produced in a prototype microscope equipped for long cryogenic run times (>1 week) and with multi-specimen support fully compatible with modern-day transmission electron microscopes. We demonstrate for the first time that plasma ion sources can be used for structural biology within cells, determining a structure in-situ to 4.9 Å and describing a workflow upon which different plasmas can be examined to streamline lamella fabrication further.