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Nanobodies: site-specific labeling for super-resolution imaging, rapid epitope-mapping and native protein complex isolation.


ABSTRACT: Nanobodies are single-domain antibodies of camelid origin. We generated nanobodies against the vertebrate nuclear pore complex (NPC) and used them in STORM imaging to locate individual NPC proteins with <2 nm epitope-label displacement. For this, we introduced cysteines at specific positions in the nanobody sequence and labeled the resulting proteins with fluorophore-maleimides. As nanobodies are normally stabilized by disulfide-bonded cysteines, this appears counterintuitive. Yet, our analysis showed that this caused no folding problems. Compared to traditional NHS ester-labeling of lysines, the cysteine-maleimide strategy resulted in far less background in fluorescence imaging, it better preserved epitope recognition and it is site-specific. We also devised a rapid epitope-mapping strategy, which relies on crosslinking mass spectrometry and the introduced ectopic cysteines. Finally, we used different anti-nucleoporin nanobodies to purify the major NPC building blocks – each in a single step, with native elution and, as demonstrated, in excellent quality for structural analysis by electron microscopy. The presented strategies are applicable to any nanobody and nanobody-target.

SUBMITTER: Pleiner T 

PROVIDER: S-EPMC4755751 | biostudies-literature | 2015 Dec

REPOSITORIES: biostudies-literature

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Nanobodies: site-specific labeling for super-resolution imaging, rapid epitope-mapping and native protein complex isolation.

Pleiner Tino T   Bates Mark M   Trakhanov Sergei S   Lee Chung-Tien CT   Schliep Jan Erik JE   Chug Hema H   Böhning Marc M   Stark Holger H   Urlaub Henning H   Görlich Dirk D  

eLife 20151203


Nanobodies are single-domain antibodies of camelid origin. We generated nanobodies against the vertebrate nuclear pore complex (NPC) and used them in STORM imaging to locate individual NPC proteins with <2 nm epitope-label displacement. For this, we introduced cysteines at specific positions in the nanobody sequence and labeled the resulting proteins with fluorophore-maleimides. As nanobodies are normally stabilized by disulfide-bonded cysteines, this appears counterintuitive. Yet, our analysis  ...[more]

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