量子点的近场激发荧光特性研究

近场光学显微镜具有nm量级的空间分辨率,量子点(quantum dots,QDs)荧光探针具有激发谱宽、发射谱线窄、荧光强度高、抗光漂白和稳定性高等优点,两者结合用于生物大分子的成像探测和识别具有广泛的应用前景。用近场光学显微镜对链霉亲和素偶联的QDs进行近场荧光激发,并对其荧光发射特性和光稳定性进行研究,结果表明:近场光学显微镜nm量级的空间分辨率,可以同时观察到了QDs的单体、二聚体和三聚体;QDs的荧光发射强度高,近场荧光像对比度好,单量子点的荧光半高宽达到25nm;对一定入射波长的单色激发光,QDs的近场荧光强度随着激发功率密度的增加线性增加,并很快趋于稳定。与传统的荧光染料如异硫氰酸荧光素相比,QDs的稳定性非常好,在激发功率密度为300W/cm2的近场辐射下,量子点的荧光强度超过6h基本保持不变,其抗光漂白能力远远高于普通荧光染料。     

Enhanced chemiluminescence ELISA for Listeria specific antigen in cerebrospinal fluid using an FITC-anti-FITC system

An enzyme-linked immunosorbent assay (ELISA) is described for the detection of a soluble Listeria monocytogenes serogroup 4 antigen in cerebrospinal fluid samples (CSFs). In the ELISA an anti-Listeria monoclonal antibody, immobilized onto assay wells, was used to capture antigen from CSFs. the captured antigen was then reacted with a fluorescein isothiocyanate (FITC) conjugate of the same anti-Listeria antibody, which was detected with a horseradish peroxidase conjugate of a monoclonal antibody to FITC. The presence of antigen was detected by an enhanced chemiluminescence assay using a camera luminometer. Antigen was detected in the CSFs taken from five out of seven patients with culture proven L. monocytogenes serogroup 4 central nervous system infections, and in none of the CSFs taken from 25 other patients.     

Peroxidase and fluorescein isothiocyanate as antibody markers. A quantitative comparison of two peroxidase conjugates prepared with glutaraldehyde or periodate anda fluorescein conjugate.

Batches of rabbit anti-human immunoglobulin G antibodies were labeled either with horseradish peroxidase, using the two-step glutaraldehyde method or the periodate method, or with fluorescein isothiocyanate (FITC). The peroxidase conjugates were isolated by chromatography using two different gel types. The five types of conjugates thus obtained were standardized to the same amount of rabbit immunoglobulin G. The antibody activity, as estimated by means of single radial immunodiffusion and passive hemagglutination, and the enzyme activity, determined with orthodianisidine, were compared. The ultimate dilutions and absolute amounts of the five conjugates giving positive reactions were determined in direct and indirect immunohistochemical tests, using both cryostat sections of skin and the agarose bead model system. It appeared that during the peroxidase conjugation procedures there was a considerable loss of abtibody and enzyme activity, whereas in the FITC conjugation procedure the antibody activity remained intact. Neverthe less, peroxidase conjugates prepared with glutaraldehyde still gave positive staining reactions in equal or somewhat higher dilutions than the fluorescin conjugate did. The peroxidase conjugates prepared with periodate could not be diluted to the same extent. For the detection of antibodies by indirect immunohistochemical methods, the peroxidase conjugate, prepared with glutaraldehyde, was comparable to the FITC conjugate. The peroxidase conjugate, prepared with periodate, was less effective.     

Stability studies on fluorescein isothiocyanate-bovine serum albumin conjugate

Fluorescein isothiocyanate (FITC) was conjugated to bovine serum albumin (BSA) and the properties of the conjugate were analyzed chromatographically, electrophoretically, and immunoelectrophoretically. The conjugate was shown to be a stable molecule which retains its integrity even in in vivo experiments. It has an average degree of saturation, $\text{FITC}\text{BSA}\text{= 1.404}$, which makes it sufficiently fluorescent as a tracer in transport studies.     

Vasopressin in tissue basophils of the dura mater of white rats

By an indirect immunohistochemical method with fluorescein-isothiocyanate (FITC) and horse radish peroxidase as markers (HRP) the presence of vasopressin was shown in cells of dura mater in white rats. Mast cells were identified after staining with methylene blue by the metachromatic granularity of the cytoplasm. It was shown that the number of cells found by means of FITC luminescence corresponds with their number found by means of methylene blue. The use of conjugate with HRP unveils a lesser number of vasopressin-containing cells.     

Fluorescein conjugates as indicators of subcellular pH. A critical evaluation

Fluorescein and tetramethylrhodamine conjugates to protein or dextran were used to determine subcellular pH. The pH dependence of fluorescence of fluorescein isothiocyanate (FITC) conjugates could be described by a single proton dissociation (pK'a approximately 6.8). This allowed pH to be derived accurately from spectra using the simple Henderson-Hasslebach equation. FITC and TRITC conjugates were delivered to mouse macrophage lysosomes by pinocytosis. Lysosomal pH was then determined in several different ways. First, by direct matching of the subcellular fluorescence spectrum with calibration spectra obtained in free solution. Secondly, monensin was used to equilibrate internal and extracellular pH. Subcellular pH could then be determined by the relative increase in fluorescence of the FITC conjugate without loss of probe from the lysosomes. This allowed the calibration of pH dependence with the probe in situ. Finally, macrophages were permitted to pinocytose FITC and TRITC dextran conjugates simultaneously. pH could be determined from the ratio of emissions from the two dyes within the lysosomes. Each of these different methods gave a similar value for lysosomal pH (4.8 +/- 0.1).     

THE EFFECT OF LABELING INTENSITY,ESTIMATED BY REAL-TIME CONFOCAL LASER SCANNING MICROSCOPY,ON FLOW CYTOMETRIC APPEARANCE AND IDENTIFICATION OF IMMUNOCHEMICALLY LABELED MARINE DINOFLAGELLATES1

Two different fluorescein isothiocyanate (FITC) conjugates were used to analyze the effect of labeling intensity on the flow cytometric appearance of marine dinoflagellates labeled with antibodies that specifically recognized the outer cell wall. Location of the labeling was revealed by epifluorescence and real-time confocal laser scanning microscopy using an anti-rabbit IgG/FITC-conjugated secondary antiserum. Flow cytometric measurements showed that cells of Prorocentrum species labeled this way could not always be distinguished from unlabeled cells. The labeling intensity increased several times when a biotinylated anti-rabbit IgG secondary antiserum was used in combination with a streptavidin/FITC conjugate. Flow cytometry indicated that the labeling intensity had increased 50%, which resulted in an improved separation of clusters of labeled and unlabeled cells.     

Synthesis, cellular transport, and activity of polyamidoamine dendrimer-methylprednisolone conjugates

Dendrimers have emerged as promising multifunctional nanomaterials for drug delivery due to their well-defined size and tailorability. We compare two schemes to obtain methylprednisolone (MP)-polyamidoamine dendrimer (PAMAM-G4-OH) conjugate. Glutaric acid (GA) was used as a spacer to facilitate the conjugation. In scheme A, PAMAM-G4-OH was first coupled to GA and then further conjugated with MP to obtain PAMAM-G4-GA-MP conjugates. This scheme yields a lower conjugation ratio of MP, presumably because of lower reactivity and steric hindrance for the steroid at the crowded dendrimer periphery. In scheme B, this steric hindrance was overcome by first preparing the MP-GA conjugate, which was then coupled to the PAMAM-G4-OH dendrimer. The (1)H NMR spectrum of the conjugate from scheme B indicates a conjugation of 12 molecules of MP with the dendrimer, corresponding to a payload of 32 wt %. In addition, conjugates were further fluorescent-labeled with fluoroisothiocynate (FITC) to evaluate the dynamics of cellular entry. Flow cytometry and UV/visible spectroscopic analysis showed that the conjugate is rapidly taken up inside the cell. Fluorescence and confocal microscopy images on A549 human lung epithelial carcinoma cells treated with conjugates show that the conjugate is mostly localized in cytosol. MP-GA-dendrimer conjugate showed comparable pharmacological activity to free MP, as measured by inhibition of prostaglandin secretion. These conjugates can potentially be further conjugated with a targeting moiety to deliver the drugs to specific cells in vivo.     

Site-specific fluorescent derivatization and liquid chromatographic-mass spectrometric characterization of long R(3) IGF-I for bioanalytical applications

Recombinant Long R(3) IGF-I was derivatized with fluorescein isothiocyanate (FITC) at a single location by careful selection of reaction conditions (i.e. pH, and FITC/protein amino group ratio). High-performance liquid chromatography (LC) and electrospray mass spectrometry (MS) were used to confirm the extent of fluorescein conjugation. The protein conjugate was isolated and subjected to cyanogen bromide (CNBr) cleavage, followed by LC-MS to determine the site of modification. The isolated species of Long R(3) IGF-I-FITC was labeled at the N-terminal Met residue. Recognition of this fluorescent analog by monoclonal anti-IGF-I was preserved, indicating its potential for immunodiagnostic applications.     

Blockade of the galactose-binding sites of ricin by its linkage to antibody. Specific cytotoxic effects of the conjugates

A method is described for preparing specific cytotoxic agents by linking intact ricin to antibodies in a manner that produces obstruction of the galactose-binding sites on the B chain of the toxin and so diminishes the capacity of the conjugate to bind non-specifically to cells. The conjugates were synthesised by reacting iodoacetylated ricin with thiolated immunoglobulin and the components of conjugate with reduced galactose-binding capacity were separated by affinity chromatography on Sepharose (a beta-galactosyl matrix) and asialofetuin-Sepharose. Fluorescence-activated cell sorter (FACS) analyses revealed that the fraction of a monoclonal anti-Thy1.1-ricin conjugate that passed through a Sepharose column had markedly diminished capacity to bind non-specifically to Thy1.2-expressing CBA thymocytes and EL4 lymphoma cells. The fraction of conjugate that passed through an asialofetuin-Sepharose column displayed no detectable non-specific binding. Both fractions of conjugate were potent cytotoxic agents for Thy1.1-expressing AKR-A lymphoma cells in tissue culture. They reduced the [3H]leucine incorporation of the cells by 50% at a concentration of 2-5 pM. Comparable inhibition of EL4 cells was only achieved with 3000-7500-fold greater concentrations of conjugate. By contrast, the fraction of anti-Thy1.1-ricin that retained Sepharose-binding capacity showed marked non-specific binding and toxicity to EL4 cells. A conjugate with diminished galactose-binding capacity was also prepared from the W3/25 monoclonal antibody which recognises an antigen upon helper T-lymphocytes in the rat. It elicited powerful and specific toxic effects upon W3/25 antigen-expressing rat T-leukaemia cells. This finding is of particular importance because isolated ricin A-chain disulphide-linked to W3/25 antibody is not cytotoxic. The property of the B-chain in intact ricin conjugates that facilitates delivery of the A-chain to the cytosol thus appears to be independent of galactose recognition. It is concluded that the 'blocked' ricin conjugates combine the advantages of high potency, which is often lacking in antibody-A-chain conjugates, with high specificity, which previously was lacking in intact ricin conjugates.     

Cellular uptake of cationic gadolinium-DOTA peptide conjugates with and without N-terminal myristoylation

Cellular and nuclear uptake of dual labelled conjugates could be of great value for chemotherapy and cancer diagnostics. Therefore we designed conjugates in which gadolinium (Gd)-1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA), a contrast agent for magnetic resonance imaging and fluorescein isothiocyanate (FITC), a fluorescence marker were coupled to membrane translocation sequences (MTS). The MTSs we employed were the third helix of the Antennapedia homeodomain, the HIV-1 Tat peptide and the N-myristoylated HIV-1 Tat peptide. We used confocal laser scanning microscopy, fluorescence activated cell sorting, magnetic resonance imaging (MRI) and viability tests to examine the cellular and nuclear uptake of these conjugates into U373 glioma cells, as well as their cytotoxic effects. We found that the Antennapedia conjugate was taken up by no more than 20% of the cells. The HIV-1 Tat conjugate showed even lower uptake into less than 3% of cells. Interestingly, N-myristoylation of the HIV-1 Tat conjugate drastically improved its cellular uptake. Up to 70% of cells showed cellular and nuclear uptake of the N-myristoylated HIV-1 Tat conjugate. Conjugate cytotoxicity appears to correlate with cellular uptake.     

Aminomethyl coumarin acetic acid: A new fluorescent labelling agent for proteins

Summary A new fluorescent protein labelling agent, 7-amino-4-methyl coumarin-3-acetic acid (AMCA), emits in the blue region (440–460 nm) on activation with UV light (350 nm). The active reagent is theN-hydroxysuccinimide ester which reacts with lysine residues under mild conditions to form photostable amide links.The Stokes shift of 100 nm compared to 30 nm for Fluorescein isothiocyanate (FITC) allows easy filter discrimination of exciting and emitting radiation. The agent has been demonstrated in use for fluorohistochemical examination of human kidney glomeruli, using the sandwich technique and compared with the same procedure using FITC-labelled antibodies. The good quantum yield coupled with convenient emission lines in the mercury spectrum allows photographic exposure time of fluorescent labelled sections to be reduced to a quarter of that required for a corresponding FITC conjugate.AMCA—immunoglobulin conjugates were not susceptible to photobleaching and have a storage life at – 20° C of more than two years.To whom correspondence and reprint requests should be addressed.     

Evaluation of fluorochromes for flow cytometric detection of Cryptosporidium parvum oocysts labelled by fluorescent in situ hybridization

Oligonucleotide probes specific to Cryptosporidium parvum (CRY1) were conjugated with a range of fluorochromes. The fluorescence after in situ hybridization (FISH) labelling of oocysts and controls was assessed. The objective was to determine the most suitable conjugate for FISH labelling, followed by analysis with a 488 nm laser flow cytometer. The most promising candidate was fluorescein isothiocyanate but only when linked to the CRY1 probe via an 18-carbon spacer arm consisting of six ethylene glycol moieties. The use of the spacer increased fluorescent signals fivefold compared with an equivalent probe in which the FITC was linked directly to the 5'-amino group of the DNA.     

Indirect immunofluorescence colony staining method for detecting bacterial pathogens of tomato.

An indirect immunofluorescence colony staining method was developed for the detection of important seed-borne bacterial pathogens of tomato. The method involves the use of specific antiserum for initial binding of target bacteria and visualization of positive colonies with a commercially available secondary antiserum conjugated with FITC and observed under a fluorescence microscope. The indirect method is especially suitable for laboratories, seed companies, and quarantine stations which have no facilities for conjugation of primary antiserum. It is more economical and overcomes the problems generally encountered with variable conjugate quality in new batches of conjugates prepared from the same stock of primary antiserum. The assay is easy to perform and results can be easily assessed by visual scoring or image analyser. Results are available in 4-5 days as compared to 30-45 days in traditional methods. The resulting bacterial culture can be tested by PCR or host infectivity and a culture can be stored for future reference. Used in combination with highly specific antibodies (commercially available monoclonal and recombinant antibodies) it can be used as a very sensitive detection tool and has application potential in localization studies as well. Choosing the right secondary conjugate is however necessary to get best results in the assay.     

A Conjugate of Cellulase with Fluorescein Isothiocyanate: A Specific Stain for Cellulose

A fluorescent technique has been developed for in situ staining of cellulose. The staining agent is a conjugate of cellulase and fluorescein isothiocyanatc (FITC). Application of this agent does not disturb intercellular or intracellular substances. The technique depends on the specific binding of the fluorescent labeled enzyme to its substrate. The stain has been tested on cell-free noncellulose polysaccharides similar to cellulose and does not stain them. The technique has been used to localize cellulose during the life cycle of Dictyostelium discoideum with results that correspond to previous work using other methods.     

Application of the FITC-anti-FITC-gold system to ultrastructural localization of antigens

We report the application of a fluorescein isothiocyanate (FITC)-anti-FITC method to localize antigens at the ultrastructural level. In the systems studied, the anti-FITC-based detection method displays high specificity and sensitivity. These observations, combined with ease of production and with availability of FITC-protein conjugates, suggest that the FITC-anti-FITC method is a good alternative to presently used methods and is widely applicable to immunochemical and immunocytochemical procedures. The same preparation and protocol can be used for light and electron microscopic studies, thereby reducing possible artifacts introduced if different procedures are used. In the present study, two systems were used to test the method. One system used an FITC-labeled monoclonal antibody (MAb) to schistosome circulating cathodic antigen. In this system, the label was detected in the gut of adult Schistosoma mansoni by an anti-FITC MAb conjugated to 10-nm gold particles. The second system used human IgM antibodies pooled from patients infected with Schistosoma mansoni. In this system detection was accomplished using an anti-human IgM-FITC conjugate followed by the anti-FITC-Au antibody conjugate.     

Screening, purification, and identification of a copper-dependent FITC-binding protein in human plasma: albumin

In this study, a protein purified by fluorescein isothiocyanate (FITC)-affinity chromatography from human plasma was identified as albumin by MALDI-TOF-MS. Albumin was found to conjugate with FITC-labeled molecules through a copper-dependent reaction. The formation of this complex was confirmed by methods including a newly developed "charcoal-based fluorescence assay" (CFA), gel-filtration, affinity chromatography, and ultrafiltration. The binding was identified as disulfide bridge formation. This is the first to demonstrate that copper induces a covalent binding of FITC-labeled molecules with albumin. In addition, the developed CFA method facilitates the screening of small fluorescent dyes binding to macromolecules.     

A conjugate of cellulase with fluorescein isothiocyanate: a specific stain for cellulose.

A fluorescent technique has been developed for in situ staining of cellulose. The staining agent in conjugate of cellulase and fluorescein isothiocyanate (FITC). Application of this agent does not disturb intercellular or intracellular substances. The technique depends on the specific binding of the fluorescent labeled enzyme to its substrate. The stain has been tested on cell-free noncellulose polysaccharides similar to cellulose and does not stain them. The technique has been used to localize cellulose during the life cycle of Dictyostelium discoideum with results that correspond to previous work using other methods.     

The C-terminus of glutathione S-transferase A1-1 is required for entropically-driven ligand binding

Binding of a hydrophobic glutathione product conjugate to rGST A1-1 proceeds via a two-step mechanism, including rapid ligand docking, followed by a slow isomerization to the final [GST.ligand] complex, which involves the localization of the flexible C-terminal helix. These kinetically resolved steps have been observed previously by stopped-flow fluorescence with the wild-type rGST A1-1, which contains a native Trp-21 approximately 20 A from the ligand binding site at the intrasubunit domain-domain interface. To confirm this binding mechanism, as well as elucidate the effects of truncation of the C-terminus, we have further characterized the binding and dissociation of the glutathione-ethacrynic acid product conjugate (GS-EA) to wild-type, F222W:W21F, and Delta209-222 rGST A1-1 and wild-type hGST A1-1. Although modest kinetic differences were observed between the hGST A1-1 and rGST A1-1, stopped-flow binding studies with GS-EA verified that the two-step mechanism of ligand binding is not unique to the GST A1-1 isoform from rat. An F222W:W21F rGST A1-1 double mutant provides a direct fluorescence probe of changes in the environment of the C-terminal residue. The observation of two relaxation times during ligand binding and dissociation to F222W:W21F suggests that the C-terminus has an intermediate conformation following ligand docking, which is distinct from its conformation in the apoenzyme or localized helical state. For the wild-type, Delta209-222, and F222W:W21F proteins, variable-temperature stopped-flow experiments were performed and activation parameters calculated for the individual steps of the binding reaction. Activation parameters for the binding reaction coordinate illustrate that the C-terminus provides a significant entropic contribution to ligand binding, which is completely realized within the initial docking step of the binding mechanism. In contrast, the slow isomerization step is enthalpically driven. The partitioning of entropic and enthalpic components of binding energy was confirmed by isothermal titration calorimetry with wild-type and Delta209-222 rGST A1-1.     

Symplasmic connections between sieve element and companion cell in the stem phloem ofVicia faba L. have a molecular exclusion limit of at least 10 kDa

High-molecular-weight fluorochromes were intracellularly injected into a sieve element of the fascicular stem phloem ofVicia faba L., using a modified membrane-potential-recording pressure probe. After stabilization of the membrane potential following microelectrode impalement, either LYCH (Lucifer Yellow CH), 4.4-kDa FITC-dextran (fluoresceinisothiocyanate-dextran) conjugate, or 3-kDa, 10-kDa or 40-kDa LYCH-dextran conjugate was microinjected into the sieve element. Longitudinal fluorochrome movement across the sieve plates and lateral displacement to the companion cells was detected with all the probes except the 40-kDa conjugate. This indicates that the molecular exclusion limit of the pore/plasmodesma units between a sieve element and a companion cell in the fascicular stem phloem ofVicia faba lies between 10 kDa and 40 kDa.Abbreviations FITC fluoresceinisothiocyanate - LYCH Lucifer Yellow CH - MEL molecular exclusion limit - PPU pore/plasmodesma unit - SE/CC-complex sieve element/companion cell complex