Bacterial chemoreceptors form a highly ordered array in concert with the CheA kinase and the CheW coupling protein. The precise architecture of the array is responsible for high sensitivity, high dynamic range, and strong amplification of chemotaxis signaling. Cryo-electron tomography (cryo-ET) has emerged as a unique tool to visualize bacterial chemotaxis arrays at molecular level. Here we describe a detailed cryo-ET and subtomogram averaging procedure to determine in situ structure of the chemoreceptor arrays in Salmonella minicells. The procedure should be readily applicable to visualize other large macromolecular assemblies in their cellular context.
Keywords: Chemoreceptor array; Core signaling complex; Cryo-electron tomography; Macromolecular assembly; Minicell; Subtomogram averaging.