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Reversible cryo-arrest for imaging molecules in living cells at high spatial resolution.


ABSTRACT: The dynamics of molecules in living cells hampers precise imaging of molecular patterns by functional and super-resolution microscopy. We developed a method that circumvents lethal chemical fixation and allows on-stage cryo-arrest for consecutive imaging of molecular patterns within the same living, but arrested, cells. The reversibility of consecutive cryo-arrests was demonstrated by the high survival rate of different cell lines and by intact growth factor signaling that was not perturbed by stress response. Reversible cryo-arrest was applied to study the evolution of ligand-induced receptor tyrosine kinase activation at different scales. The nanoscale clustering of epidermal growth factor receptor (EGFR) in the plasma membrane was assessed by single-molecule localization microscopy, and endosomal microscale activity patterns of ephrin receptor A2 (EphA2) were assessed by fluorescence lifetime imaging microscopy. Reversible cryo-arrest allows the precise determination of molecular patterns while conserving the dynamic capabilities of living cells.

SUBMITTER: Masip ME 

PROVIDER: S-EPMC5038880 | biostudies-literature | 2016 Aug

REPOSITORIES: biostudies-literature

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Reversible cryo-arrest for imaging molecules in living cells at high spatial resolution.

Masip Martin E ME   Huebinger Jan J   Christmann Jens J   Sabet Ola O   Wehner Frank F   Konitsiotis Antonios A   Fuhr Günther R GR   Bastiaens Philippe I H PIH  

Nature methods 20160711 8


The dynamics of molecules in living cells hampers precise imaging of molecular patterns by functional and super-resolution microscopy. We developed a method that circumvents lethal chemical fixation and allows on-stage cryo-arrest for consecutive imaging of molecular patterns within the same living, but arrested, cells. The reversibility of consecutive cryo-arrests was demonstrated by the high survival rate of different cell lines and by intact growth factor signaling that was not perturbed by s  ...[more]

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