Single molecule localization microscopy to study neuronal microtubule organization

Publication date

2015

Authors

Cloin, B.M.C.ISNI 000000050597627X
Hoogenraad, CasperISNI 0000000396512854
Mikhaylova, MarinaISNI 0000000077177518
Kapitein, LukasISNI 0000000389218112

Editors

Advisors

Supervisors

Document Type

Part of book
Open Access logo

License

taverne

Abstract

The highly complex and polarized morphology of neurons is established by the cytoskeleton , a network of protein polymers , such as F-actin and microtubules , and associated proteins that provide shape and strength. In addition to providing structural support , microtubules serve as tracks for long-range active transport driven by dynein and kinesin motor proteins . To better understand how microtubule organization underlies the establishment and maintenance of neuronal architecture , better mapping of the neuronal microtubule network and its associated proteins is essential. Different fluorescence microscopy techniques are commonly used to explore the organization of the microtubule cytoskeleton . The resolution of these techniques is, however, limited by diffraction to approximately 250 nm, which makes them not suitable for nanoscale mapping of microtubule properties. Super-resolution microscopy techniques that rely on single molecule localization (Single Molecule Localization Microscopy ; SMLM ) combine high protein specificity , multi-color imaging , and a resolution in the order of 5–50 nm, making it an ideal tool to study the neuronal cytoskeleton and its properties. In this chapter, we discuss the theory behind SMLM , labeling strategies for the fluorescent probes , describe a workflow and a detailed protocol for fixation and immunostaining of neuronal microtubules , and provide some tips for successful super-resolution imaging , data analysis , and image reconstruction .

Keywords

Microtubules, Immunostaining, Antibody, Fluorescent dye, Super-resolution microscopy, Stochastic activation, Taverne

Citation

Cloin, B, Hoogenraad, C, Mikhaylova, M & Kapitein, L 2015, Single molecule localization microscopy to study neuronal microtubule organization. in Immunocytochemistry and Related Techniques. Neuromethods, vol. 101, Humana Press, pp. 389-408. https://doi.org/10.1007/978-1-4939-2313-7_21