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1.
Nat Methods ; 19(9): 1072-1075, 2022 09.
Artigo em Inglês | MEDLINE | ID: mdl-36050490

RESUMO

MINimal fluorescence photon FLUXes (MINFLUX) nanoscopy, providing photon-efficient fluorophore localizations, has brought about three-dimensional resolution at nanometer scales. However, by using an intrinsic on-off switching process for single fluorophore separation, initial MINFLUX implementations have been limited to two color channels. Here we show that MINFLUX can be effectively combined with sequentially multiplexed DNA-based labeling (DNA-PAINT), expanding MINFLUX nanoscopy to multiple molecular targets. Our method is exemplified with three-color recordings of mitochondria in human cells.


Assuntos
DNA , Corantes Fluorescentes , Humanos , Microscopia de Fluorescência/métodos , Mitocôndrias , Fótons
2.
Proc Natl Acad Sci U S A ; 119(29): e2201861119, 2022 07 19.
Artigo em Inglês | MEDLINE | ID: mdl-35858298

RESUMO

With few-nanometer resolution recently achieved by a new generation of fluorescence nanoscopes (MINFLUX and MINSTED), the size of the tags used to label proteins will increasingly limit the ability to dissect nanoscopic biological structures. Bioorthogonal (click) chemical groups are powerful tools for the specific detection of biomolecules. Through the introduction of an engineered aminoacyl-tRNA synthetase/tRNA pair (tRNA: transfer ribonucleic acid), genetic code expansion allows for the site-specific introduction of amino acids with "clickable" side chains into proteins of interest. Well-defined label positions and the subnanometer scale of the protein modification provide unique advantages over other labeling approaches for imaging at molecular-scale resolution. We report that, by pairing a new N-terminally optimized pyrrolysyl-tRNA synthetase (chPylRS2020) with a previously engineered orthogonal tRNA, clickable amino acids are incorporated with improved efficiency into bacteria and into mammalian cells. The resulting enhanced genetic code expansion machinery was used to label ß-actin in U2OS cell filopodia for MINFLUX imaging with minimal separation of fluorophores from the protein backbone. Selected data were found to be consistent with previously reported high-resolution information from cryoelectron tomography about the cross-sectional filament bundling architecture. Our study underscores the need for further improvements to the degree of labeling with minimal-offset methods in order to fully exploit molecular-scale optical three-dimensional resolution.


Assuntos
Aminoacil-tRNA Sintetases , Código Genético , Imagem Óptica , RNA de Transferência , Aminoácidos/química , Aminoácidos/genética , Aminoacil-tRNA Sintetases/química , Aminoacil-tRNA Sintetases/genética , Linhagem Celular Tumoral , Estudos Transversais , Fluorescência , Humanos , Imagem Óptica/instrumentação , Imagem Óptica/métodos , RNA de Transferência/química , RNA de Transferência/genética
3.
J Am Chem Soc ; 143(44): 18388-18393, 2021 11 10.
Artigo em Inglês | MEDLINE | ID: mdl-34714070

RESUMO

We propose a series of fluorescent dyes with hydrophilic carbamate caging groups that undergo rapid photoactivation under UV (≤400 nm) irradiation but do not undergo spurious two-photon activation with high-intensity (visible or infrared) light of about twice the wavelength. The caged fluorescent dyes and labels derived therefrom display high water solubility and convert upon photoactivation into validated super-resolution and live-cell-compatible fluorophores. In combination with popular fluorescent markers, multiple (up to six)-color images can be obtained with stimulated emission depletion nanoscopy. Moreover, individual fluorophores can be localized with precision <3 nm (standard deviation) using MINSTED and MINFLUX techniques.

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