Resolving bundled microtubules using anti-tubulin nanobodies

Publication date

2015

Authors

Mikhaylova, MarinaISNI 0000000077177518
Cloin, Bas M CISNI 000000050597627X
Finan, Kieran
van den Berg, RobertISNI 0000000419550248
Teeuw, Jalmar
Kijanka, M.M.ISNI 0000000393972898
Sokolowski, MikolajISNI 0000000493299813
Katrukha, Eugene A.ISNI 0000000492896501
Maidorn, Manuel
Opazo, Felipe

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Article
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Abstract

Microtubules are hollow biopolymers of 25-nm diameter and are key constituents of the cytoskeleton. In neurons, microtubules are organized differently between axons and dendrites, but their precise organization in different compartments is not completely understood. Super-resolution microscopy techniques can detect specific structures at an increased resolution, but the narrow spacing between neuronal microtubules poses challenges because most existing labelling strategies increase the effective microtubule diameter by 20-40 nm and will thereby blend neighbouring microtubules into one structure. Here we develop single-chain antibody fragments (nanobodies) against tubulin to achieve super-resolution imaging of microtubules with a decreased apparent diameter. To test the resolving power of these novel probes, we generate microtubule bundles with a known spacing of 50-70 nm and successfully resolve individual microtubules. Individual bundled microtubules can also be resolved in different mammalian cells, including hippocampal neurons, allowing novel insights into fundamental mechanisms of microtubule organization in cell- and neurobiology.

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Mikhaylova, M, Cloin, B M C, Finan, K, van den Berg, R, Teeuw, J, Kijanka, M M, Sokolowski, M, Katrukha, E A, Maidorn, M, Opazo, F, Moutel, S, Vantard, M, Perez, F, van Bergen en Henegouwen, P M P, Hoogenraad, C C, Ewers, H & Kapitein, L C 2015, 'Resolving bundled microtubules using anti-tubulin nanobodies', Nature Communications [E], vol. 6, 7933. https://doi.org/10.1038/ncomms8933