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1.
Breaking the diffraction barrier: super-resolution imaging of cells   总被引:1,自引:0,他引:1  
Huang B  Babcock H  Zhuang X 《Cell》2010,143(7):1047-1058
Anyone who has used a light microscope has wished that its resolution could be a little better. Now,?after centuries of gradual improvements, fluorescence microscopy has made a quantum leap in its resolving power due, in large part, to advancements over the past several years in a new area of research called super-resolution fluorescence microscopy. In this Primer, we explain the principles of various super-resolution approaches, such as STED, (S)SIM, and STORM/(F)PALM. Then, we describe recent applications of super-resolution microscopy in cells, which demonstrate how these approaches are beginning to provide new insights into cell biology, microbiology, and neurobiology.  相似文献   

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Fluorescence nanoscopy goes multicolor   总被引:1,自引:0,他引:1  
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We introduce far-field fluorescence nanoscopy with ordinary fluorophores based on switching the majority of them to a metastable dark state, such as the triplet, and calculating the position of those left or those that spontaneously returned to the ground state. Continuous widefield illumination by a single laser and a continuously operating camera yielded dual-color images of rhodamine- and fluorescent protein-labeled (living) samples, proving a simple yet powerful super-resolution approach.  相似文献   

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English has undoubtedly become the universal language of science. But how did this come about and what are the potential benefits?  相似文献   

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We demonstrate nanoscale resolution in far-field fluorescence microscopy using reversible photoswitching and localization of individual fluorophores at comparatively fast recording speeds and from the interior of intact cells. These advancements have become possible by asynchronously recording the photon bursts of individual molecular switching cycles. We present images from the microtubular network of an intact mammalian cell with a resolution of 40 nm.  相似文献   

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Breaking through the tight junction barrier   总被引:12,自引:8,他引:12       下载免费PDF全文
《The Journal of cell biology》1993,123(6):1631-1633
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Fluorescence imaging with conventional microscopy has experienced numerous advances in almost every limiting factor from sensitivity to speed. But improved resolution beyond the fundamental limitation of light diffraction has been elusive until recent years. Now, techniques are available that surpass this barrier and improve resolution up to 10 times over that of conventional microscopy. This chapter provides an overview of these new “super-resolution” imaging methods.  相似文献   

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Aminoacyl-tRNA synthetases are responsible for attaching amino acid residues to the tRNA 3'-end. The two classes of synthetases approach tRNA as mirror images, with opposite but symmetrical stereochemistries that allow the class I enzymes to attach amino acid residues to the 2'-hydroxyl group of the terminal ribose, whereas, the class II enzymes attach amino acid residues to the 3'-hydroxyl group. However, we show here that the attachment of cysteine to tRNA(Cys) by the class I cysteinyl-tRNA synthetase (CysRS) is flexible; the enzyme is capable of using either the 2' or 3'-hydroxyl group as the attachment site. The molecular basis for this flexibility was investigated. Introduction of the nucleotide U73 of tRNA(Cys) into tRNA(Val) was found to confer the flexibility. While valylation of the wild-type tRNA(Val) by the class I ValRS was strictly dependent on the terminal 2'-hydroxyl group, that of the U73 mutant of tRNA(Val) occurred at either the 2' or 3'-hydroxyl group. Thus, the single nucleotide U73 of tRNA has the ability to break the stereo barrier of amino acid attachment to tRNA, by mobilizing the 2' and 3'-hydroxyl groups of A76 in flexible geometry with respect to the tRNA acceptor stem.  相似文献   

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Most diseases, regardless of their diverse etiologies, manifest themselves as defects of cellular proteins. Cellular proteins have been recently shown to form specific complexes exerting their functions as if they were nanoscopic machines. Such nanoscopic protein machines cooperate in functional modules, yielding extended, highly compartmentalized networks. The classical resolution limits of fluorescence microscopy have also been recently overcome, opening the nanometer domain to live-cell imaging. Together, progress in functional proteomics and live-cell imaging provide novel possibilities for directly analyzing and modifying nanoscopic protein machines in living cells and tissues.  相似文献   

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The PAR clan of polarity regulating genes was initially discovered in a genetic screen searching for genes involved in asymmetric cell divisions in the Caenorhabditis elegans embryo. Today, investigations in worms, flies and mammals have established PAR proteins as conserved and fundamental regulators of animal cell polarization in a broad range of biological phenomena requiring cellular asymmetries. The human homologue of invertebrate PAR-4, a serine–threonine kinase LKB1/STK11, has caught attention as a gene behind Peutz–Jeghers polyposis syndrome and as a bona fide tumour suppressor gene commonly mutated in sporadic cancer. LKB1 functions as a master regulator of AMP-activated protein kinase (AMPK) and 12 other kinases referred to as the AMPK-related kinases, including four human homologues of PAR-1. The role of LKB1 as part of the energy sensing LKB1-AMPK module has been intensively studied, whereas the polarity function of LKB1, in the context of homoeostasis or cancer, has gained less attention. Here, we focus on the PAR-4 identity of LKB1, discussing the weight of evidence indicating a role for LKB1 in regulation of cell polarity and epithelial integrity across species and highlight recent investigations providing new insight into the old question: does the PAR-4 identity of LKB1 matter in cancer?  相似文献   

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The Filoviridae family comprises of Ebola and Marburg viruses, which are known to cause lethal hemorrhagic fever. However, there is no effective anti-viral therapy or licensed vaccines currently available for these human pathogens. The envelope glycoprotein (GP) of Ebola virus, which mediates entry into target cells, is cytotoxic and this effect maps to a highly glycosylated mucin-like region in the surface subunit of GP (GP1). However, the mechanism underlying this cytotoxic property of GP is unknown. To gain insight into the basis of this GP-induced cytotoxicity, HEK293T cells were transiently transfected with full-length and mucin-deleted (Δmucin) Ebola GP plasmids and GP localization was examined relative to the nucleus, endoplasmic reticulum (ER), Golgi, early and late endosomes using deconvolution fluorescent microscopy. Full-length Ebola GP was observed to accumulate in the ER. In contrast, GPΔmucin was uniformly expressed throughout the cell and did not localize in the ER. The Ebola major matrix protein VP40 was also co-expressed with GP to investigate its influence on GP localization. GP and VP40 co-expression did not alter GP localization to the ER. Also, when VP40 was co-expressed with the nucleoprotein (NP), it localized to the plasma membrane while NP accumulated in distinct cytoplasmic structures lined with vimentin. These latter structures are consistent with aggresomes and may serve as assembly sites for filoviral nucleocapsids. Collectively, these data suggest that full-length GP, but not GPΔmucin, accumulates in the ER in close proximity to the nuclear membrane, which may underscore its cytotoxic property.  相似文献   

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