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1.
Localization-based superresolution optical imaging is rapidly gaining popularity, yet limited availability of genetically encoded photoactivatable fluorescent probes with distinct emission spectra impedes simultaneous visualization of multiple molecular species in living cells. We introduce PAmKate, a monomeric photoactivatable far-red fluorescent protein, which facilitates simultaneous imaging of three photoactivatable proteins in mammalian cells using fluorescence photoactivation localization microscopy (FPALM). Successful probe identification was achieved by measuring the fluorescence emission intensity in two distinct spectral channels spanning only ∼100 nm of the visible spectrum. Raft-, non-raft-, and cytoskeleton-associated proteins were simultaneously imaged in both live and fixed fibroblasts coexpressing Dendra2-hemagglutinin, PAmKate-transferrin receptor, and PAmCherry1-β-actin fusion constructs, revealing correlations between the membrane proteins and membrane-associated actin structures.  相似文献   

2.
In recent years diverse photolabeling techniques using green fluorescent protein (GFP)-like proteins have been reported, including photoactivatable PA-GFP, photoactivatable protein Kaede, the DsRed 'greening' technique and kindling fluorescent proteins. So far, only PA-GFP, which is monomeric and gives 100-fold fluorescence contrast, could be applied for protein tracking. Here we describe a dual-color monomeric protein, photoswitchable cyan fluorescent protein (PS-CFP). PS-CFP is capable of efficient photoconversion from cyan to green, changing both its excitation and emission spectra in response to 405-nm light irradiation. Complete photoactivation of PS-CFP results in a 1,500-fold increase in the green-to-cyan fluorescence ratio, making it the highest-contrast monomeric photoactivatable fluorescent protein described to date. We used PS-CFP as a photoswitchable tag to study trafficking of human dopamine transporter in living cells. At moderate excitation intensities, PS-CFP can be used as a pH-stable cyan label for protein tagging and fluorescence resonance energy transfer applications.  相似文献   

3.
Recent data on the synthesis of photoactivatable derivatives of nucleic acids and proteins on the basis of aryl(trifluoromethyl)diazirines—analogs of nucleosides, nucleotides, oligonucleotides, as well as amino acids and peptides—are reviewed. The synthesis of bi- and polyfunctional photoactivatable reagents, including those containing a cleavable function, designed for postsynthetic modification of biopolymers is described. Data are given on the use of the photoactivatable derivatives for studying nucleic acid–protein interactions by the method of photoaffinity labeling. Special consideration is paid to the results obtained by the authors" team in cooperation with other researchers as well as graduate students of the Chemistry of Natural Products Chair, Chemical Faculty, Moscow State University and destined to solve various scientific tasks in the domain of nucleic acid–protein recognition with the use of photoaffinity crosslinking.  相似文献   

4.
The site-directed mutagenesis of the monomeric red fluorescent protein TagRFP and its variants was performed with the goal of generating reversibly photoactivatable fluorescent proteins. Amino acids at positions 69, 148, 165, 179, and 181 (enumeration according to the green fluorescent protein GFP) were shown to play a key role in the manifestation of the photoactivatable properties. A reversibly photoactivatable red fluorescent protein KFP-HC with excitation and emission maxima at 585 and 615 nm, respectively, was generated. The KFP-HC fluorescent intensity was decreased by 5–10 times under green light (530–560 nm) irradiation (due to the fall of the fluorescence quantum yield) and restored under irradiation with blue light (450–490 nm) or after incubation in the dark (recovery half-time of 30 min).  相似文献   

5.
Photoactivatable fluorescent proteins opened principally novel possibilities to study proteins' movement pathways. In particular, reversibly photoactivatable proteins enable multiple tracking experiments in a long-drawn work with a single cell. Here we report 'protein rivers tracking' technique based on repeated identical rounds of photoactivation and subsequent images averaging, which results in dramatic increase of imaging resolution for fast protein movement events.  相似文献   

6.
We used a photoactivatable, lipophilic reagent, 3'-(trifluoromethyl)-3-(m-[125I]iodophenyl)diazirine, to label proteins in the outer membrane of elementary bodies of Chlamydia trachomatis LGV serovar L2 and mass spectrometry to identify the labeled proteins. The identified proteins were polymorphic outer membrane proteins E, G, and H, which were made late in the developmental cycle, the major outer membrane protein, and a mixture of 46-kDa proteins consisting of the open reading frame 623 protein and possibly a modified form of the major outer membrane protein.  相似文献   

7.
A specific illumination approach has been developed for identification of adenosine triphosphate (ATP)-binding proteins. This strategy utilizes a tandem photoactivatable unit that consists of a diazirine group as a carbene precursor and an o-hydroxycinnamate moiety as a coumarin precursor. The photolysis of diazirine induces a specific cross-link on target proteins and is followed by photoactivation of coumarin generation with a concomitant release of the pre-installed affinity ligand. The ATP, installed with this cross-linker at the γ-position, successfully transferred a coumarin onto ATP-binding proteins using only UV-irradiation.  相似文献   

8.
The preparation and use of a new photoactivatable phosphatidylcholine derivative [1-palmitoyl-2-(p-benzoyl)benzoyl phosphatidylcholine] is described. The reagent is shown to be effective in labelling different membrane proteins under irradiation conditions that preserve their enzymic activity. The properties of this new phospholipid analogue suggest that it can be useful in studying several aspects of membrane structure and function.  相似文献   

9.
Fluorescent proteins from the green fluorescent protein family have become indispensable imaging tools for cell biology. A wide variety of these proteins were discovered in nonbioluminescent anthozoa in recent years. Some of them feature exciting new properties, with the possibility to alter their intensity and/or fluorescence color by irradiation with light of specific wavelengths. Fluorescent highlighter proteins enable many interesting applications based on regional optical marking in live cells and tissues. This review provides an overview of photoactivatable marker proteins, with a focus on EosFP, a protein that can be switched from green to red fluorescence by approximately 400-nm light. A variety of applications are presented to illustrate the versatility of EosFP in live-cell imaging.  相似文献   

10.
Fluorescent proteins from the green fluorescent protein family have become indispensable imaging tools for cell biology. A wide variety of these proteins were discovered in nonbioluminescent anthozoa in recent years. Some of them feature exciting new properties, with the possibility to alter their intensity and/or fluorescence color by irradiation with light of specific wavelengths. Fluorescent highlighter proteins enable many interesting applications based on regional optical marking in live cells and tissues. This review provides an overview of photoactivatable marker proteins, with a focus on EosFP, a protein that can be switched from green to red fluorescence by approximately 400-nm light. A variety of applications are presented to illustrate the versatility of EosFP in live-cell imaging.  相似文献   

11.

Background  

Green fluorescent protein (GFP) and other FP fusions have been extensively utilized to track protein dynamics in living cells. Recently, development of photoactivatable, photoswitchable and photoconvertible fluorescent proteins (PAFPs) has made it possible to investigate the fate of discrete subpopulations of tagged proteins. Initial limitations to their use (due to their tetrameric nature) were overcome when monomeric variants, such as Dendra, mEos, and mKikGR were cloned/engineered.  相似文献   

12.
The development of photoactivatable aggregation-induced emission (AIE) probes is one of the hotspots for bioimaging and imaging-guided precise disease therapy due to the distinct advantages of high spatiotemporal resolution, precise spatiotemporal controllability, and noninvasiveness of light. To design and develop novel photoactivatable AIE probes, functional groups based on photodehydrogenation reaction mechanisms are combined with the AIE-active skeleton. Here, the recent progress in biomedical applications of photoactivatable AIE probes based on photocyclodehydrogenation and photo-oxidative dehydrogenation reactions are summarized briefly. Moreover, the outlook for photoactivatable AIE probes is discussed to aim at promoting innovative research in biomedical applications.  相似文献   

13.
Binding of the internal ribosome entry site (IRES) of the hepatitis C virus (HCV) RNA to the eIF-free 40S ribosomal subunit is the first step of initiation of translation of the viral RNA. Hairpins IIId and IIIe comprising 253–302 nt of the IRES are known to be essential for binding to the 40S subunit. Here we have examined the molecular environment of the HCV IRES in its binary complex with the human 40S ribosomal subunit. For this purpose, two RNA derivatives were used that bore a photoactivatable perfluorophenyl azide cross-linker. In one derivative the cross-linker was at the nucleotide A296 in hairpin IIIe, and in the other at G87 in domain II. Site-specific introduction of the cross-linker was performed using alkylating derivatives of oligodeoxyribonucleotides complementary to the target RNA sequences. No cross-links with the rRNA were detected with either RNA derivative. The RNA with the photoactivatable group at A296 cross-linked to proteins identified as S5 and S16 (major) and p40 and S3a (minor), while no cross-links with proteins were detected with RNA modified at G87. The results obtained indicate that hairpin IIIe is located on the solvent side of the 40S subunit head on a site opposite the beak.  相似文献   

14.
The application of photoactivatable derivatives for studies of different types of neuroreceptors belonging to two superfamilies, G-protein-dependent receptors and ligand-gated ionic channels, is discussed. Studies of the structure of voltage-gated and ion-gated channels with the use of specific photoactivatable derivatives of neurotoxins are also described. Possibilities and prospects for the application of photoactivatable ligands in studies of the spatial structure of neuroreceptors are reviewed.  相似文献   

15.
16.
The application of photoactivatable derivatives for studies of different types of neuroreceptors belonging to two superfamilies, G-protein dependent receptors and ligand-gated ionic channels, is discussed. Studies of the structure of voltage-gated and ion-gated channels with the use of specific photoactivatable derivatives of neurotoxins are also described. Possibilities and prospects for the application of photoactivatable ligands in studies of the spatial structure of neuroreceptors are reviewed.  相似文献   

17.
Hess D  Isenberg G 《FEBS letters》1999,445(2-3):279-282
We introduce a new, fluorescent and photoactivatable fatty acid derivative (SANU) for hydrophobic labelling of membrane-bound proteins. The technique allows fast and highly sensitive screening of hydrophobically inserting proteins analyzed by SDS-PAGE with a detection limit below 0.1 pmol. A reliable calculation of labelling efficiencies is achieved by simultaneous densitometry of fluorescence and protein staining. We have applied the new technique on the membrane inserting protein talin, G-actin, and, as a negative control, on RNase, which only binds electrostatically to negatively charged lipid interfaces. In several ways superior to radiolabelling, we can recommend this technique for all laboratories under any circumstances.  相似文献   

18.
Here, to study lipid-protein interactions that contribute to the biogenesis of regulated secretory vesicles, we have developed new approaches by which to label proteins in vivo, using photoactivatable cholesterol and glycerophospholipids. We identify synaptophysin as a major specifically cholesterol-binding protein in PC12 cells and brain synaptic vesicles. Limited cholesterol depletion, which has little effect on total endocytic activity, blocks the biogenesis of synaptic-like microvesicles (SLMVs) from the plasma membrane. We propose that specific interactions between cholesterol and SLMV membrane proteins, such as synaptophysin, contribute to both the segregation of SLMV membrane constituents from plasma-membrane constituents, and the induction of synaptic-vesicle curvature.  相似文献   

19.
Photo- and chemical crosslinking of proteins have offered various avenues for studying protein structure and protein interactions with biomolecules. Conventional photoactivatable groups generally lack reaction selectivity toward amino acid residues. New photoactivatable groups reacting with selected residues have emerged recently, increasing crosslinking efficiency and facilitating crosslink identification. Traditional chemical crosslinking usually employs highly reactive functional groups, while recent advance has developed latent reactive groups with reactivity triggered by proximity, which reduce spurious crosslinks and improve biocompatibility. The employment of these residue selective chemical functional groups, activated by light or proximity, in small molecule crosslinkers and in genetically encoded unnatural amino acids is summarized. Together with new software development in identifying protein crosslinks, residue selective crosslinking has enhanced the research of elusive protein-protein interactions in vitro, in cell lysate, and in live cells. Residue selective crosslinking is expected to expand to other methods for the investigation of various protein–biomolecule interactions.  相似文献   

20.
Design, synthesis and characterization of CHAPSTEROL, a novel cholesterol-based detergent developed for functional solubilization of cholesterol-dependent membrane proteins are described. To validate CHAPSTEROL, we employed the oxytocin receptor, a G protein-coupled receptor requiring cholesterol for its high-affinity binding state. Using the photoactivatable cholesterol analogue [3H]6,6-azocholestan-3beta-ol[3alphaH], we demonstrate that solubilization by CHAPSTEROL leads to an enrichment of cholesterol-binding proteins whereas the widely used bile acid derivative CHAPSO leads to a significant depletion of cholesterol-binding proteins. Similar to Triton X-100 and CHAPS, CHAPSTEROL maintains the localization of caveolin as well as cholesterol and sphingomyelin to lipid rafts, i.e. detergent-insoluble microdomains of the plasma membrane. The data suggest that CHAPSTEROL is an appropriate detergent for the solubilization of cholesterol-dependent membrane proteins and isolation of rafts.  相似文献   

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