fluorescence Protocols

Category: Cell Biology and Cell Culture: Endothelial Cell Protocols

Traditional animal models to quantify the degree of blood vessel formation are being replaced by cell culture assays that are easier to set up, statistically reliable and can be automated in a drug screening laboratory. These assays rely on the endothelial cells’ ability to form distinct blood-vessel-like tubules in an extracellular matrix where they can subsequently be visualized by fluorescence microscopy. - [Read An Image-Based Assay of Endothelial Cell Tube Formation as a Model of Angiogenesis]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: DNA Staining Protocols for Flow Cytometry

This protocol provides a method for analysis of DNA fragmentation using flow cytometry after propidium iodide (PI) labeling of apoptotic nuclei. Apoptotic nuclei stain less than their normal counterparts because of diffusion of low-molecular-weight fragments out of the cells and/or chromatin condensation. - [Read Analysis of DNA Fragmentation Using Propidium Iodide (PI) Fluorescence of Individual Nuclei Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Flow Cytometry Data Analysis Protocols

Provides several approaches to flow cytometry data analysis. Frequency determinations based on analysis of single-parameter fluorescence histograms and dual-parameter contour plots are presented. Steps are described for calculating values for signal-to-noise ratios when logarithmic amplification is used for data collection. - [Read Analysis of Flow Cytometry Data Protocol]

Category: Cell Organelle Protocols: Mitochondria Protocols

The technique of JC-1 staining has been developed with the intent to detect DY in intact, viable cells. For this purpose JC-1 acts as a marker of mitochondrial activity, since the formation of J-aggregates, which give red emission, is reversible. Cells with high DY are those forming J-aggregates, thus showing high red fluorescence. On the other hand, cells with low DY are those in which JC-1 maintains (or re-acquire) monomeric form, thus showing only green fluorescence. - [Read Analysis of Mitochondrial Membrane Potential with the Sensitive Fluorescent Probe JC-1]

Category: Cell Biology and Cell Culture: Apoptosis Protocols: TUNEL assay apoptosis

Apoptosis Detection Using Terminal Transferase and Biotin-16-dUTP (TUNEL - Fluorescence Method). IHC World - [Read Apoptosis Detection Using TUNEL Fluorescence]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Intracellular Ion Measurement Protocols

This protocol describes a method to assess concentrations of free cytoplasmic calcium (Ca2+) in cultured RAW 264.7 cells. This objective is accomplished with the Ca2+-sensitive fluorescent dye, fluo-3, which permeates cells as an ester and is hydrolyzed in the cell to its Ca2+-sensitive acidic form. Fluorescence is measured over time with adherent cells that have been washed free of extracellular dye. - [Read Assay of Intracellular Free Calcium in RAW 264.7 Cells for Ligand Screen Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Intracellular Ion Measurement Protocols

This protocol describes a method to assess concentrations of free cytoplasmic calcium, [Ca2+]i, in cultured adherent RAW 264.7 cells, using a 96- well plate format. This objective is accomplished by using the Ca2+-sensitive fluorescent dye, fluo-3, which permeates cell membranes as an ester and is hydrolyzed in the cell to its Ca2+-sensitive acidic form. Fluorescence for the adherent cells is measured over time by using a bottom read of a 96-well plate, with cells that have been washed. - [Read Assay of Intracellular Free Calcium in RAW 264.7 Cells Loaded with Fluo-3 Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Flow Cytometry Calibration Protocols

Flow cytometers must be calibrated prior to fluorescence intensity measurements because of inherent instrument variability. To correct for this variability, a standard particle (fixed chicken red blood cells, or CRBCs) must be analyzed on the instrument prior to each experiment and photomultiplier tube (PMT) voltages adjusted accordingly to place the CRBC fluorescence emission peaks into predetermined target channels. - [Read Calibration of Becton Dickinson Flow Cytometers for Relative Fluorescence Intensity Measurements]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Sorting Protocols

The combination of prospective identification/isolation of bone marrow progenitors and quantitative RT-PCR is a powerful tool to understand the molecular mechanism underlying hematopoiesis. Describes the standard procedures of the murine myeloid progenitor staining for fluorescence activated cells sorting (FACS) and RNA purification methods. - [Read Cell Staining for Sorting of Hematopoietic Stem Cells (HSC) and Myeloid Progenitors]

Category: Stem Cell Protocols

The combination of prospective identification/isolation of bone marrow progenitors and quantitative RT-PCR is a powerful tool to understand the molecular mechanism underlying hematopoiesis. Here, we described our standard procedures of the murine myeloid progenitor staining for fluorescence activated cells sorting (FACS) and RNA purification methods. - [Read Cell Staining for Sorting of Hematopoietic Stem Cells and Myeloid Progenitors and Isolating RNA]

Category: Microscopy Protocols: Live-Cell Imaging Protocols

Manual measurement and manipulation of the cell surface requires access to the cells, usually in an open chamber. Temperature-controlled chambers or stage inserts are preferred for maintaining physiological activity during the experiment. For example, heated culture dishes with coverslip glass bottoms (Bioptechs) permit high-resolution fluorescence microscopy of living cells during force application. - [Read Chambers for Examination of Live Cells under Mechanical Stress Protocol]

Category: Cytogenetics Protocols: Fluorescent In Situ Hybridization FISH Protocol

Protocol for chromosome preparation and Fluorescence in-situ hybridization (FISH). Chromosome preparation and Fluorescence in-situ hybridization (FISH). - [Read Chromosome Preparation and Fluorescence In-Situ Hybridization (FISH) Protocol]

Category: Molecular Imaging: Confocal Microscopy Protocols and Information

Confocal Microscopy and Protocols. Why use a confocal microscope? Fluorescence, Reflectance or Transmission? Which confocal microscope should you use? Confocal or 2-photon microscopy? Sample Preparation for confocal microscopy, Fixation, Immunolabeling, - [Read Confocal Microscopy and Protocols]

Category: Microscopy Protocols: Fluorescence Microscopy Protocols

Certain fluorescent dyes such as Blankophor have a high affinity for the b -glycosidically linked polysaccharides such as glucan and chitin, which are main the constituents of the fungal cell wall. Therefore, these fluorescent dyes can be used for screening clinical samples for the presence of fungal elements. This procedure can be performed using the following specimens: Nail, Skin, Bronchial alveolar lavage fluid, Sputum and Biopsies. - [Read Detection of Fungi by Fluorescence Microscopy Using Fluorescent Brighteners]

Category: Fungi Protocols

Protocol for the detection of fungi by fluorescence microscopy using fluorescent brighteners. - [Read Detection of Fungi by Fluorescence Microscopy Using Fluorescent Brighteners Protocol]

Category: Cell Culture Protocols: Cell Culture Contamination Prevention and Removal Protocols

Protocol describes a method for mycoplasma detection using Hoechst 33258, a fluorescent dye that stains DNA. Staining of particulate DNA matter around the cell nucleus (on the cell surface or in the cytoplasm) is indicative of mycoplasma contamination. - [Read Detection of Mycoplasma in Mammalian Cell Cultures Using Fluorescence Microscopy Protocol]

Category: Cytogenetics Protocols: DIG Biotin Labeled Probe Protocols

Protocol describes here a high sensitivity indirect detection procedure for DIG-labeled hybridization probes. The procedure uses the components of the HNPP Fluorescent Detection Set to form a fluorescent precipitate of HNPP (2-hydroxy-3-naphthoic acid-2’-phenylanilide phosphate) and Fast Red TR at the site of hybridization. Includes: In situ hybridization with DIG-labeled probes; Detection of DIG-labeled probes; Fluorescence microscopy. - [Read DNA In Situ Hybridization with an Alkaline Phosphatase-Based Fluorescent Detection System]

Category: Developmental Biology: Embryology Protocols

The FAM caspase binding assay kits from ATCC Corporation can be used to determine amounts of active caspases in cells. The FAM-labeled caspase inhibitor can freely diffuse into the cell. Active caspase irreversibly binds the inhibitor. Upon washing the cells, the amount of fluorescence is proportional to the amount of active caspase in the cell. FAM-LETD-fmk (catalog no. 30-1306) is used to detect caspase 8 and FAM-LEHD-fmk (catalog no. 30-1308) is used for caspase 9. - [Read Fam Caspase 8 and 9 Binding Assay for Embryos Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Sorting Protocols

Questions and answers about cell sorting. Includes: When should I use fluorescence activated cell sorting over bulk separation methods like panning or magnetic bead separations? Will my cells be harmed by the sorting process? How many cells do I need to prepare to recover 1 X 106 of a population that comprises 10% of the cells? Are there ways to improve sort recovery? etc... - [Read FAQs About Cell Sorting]

Category: Cytoskeleton Protocols: Microtubules Protocols

Protocol for flow cell assays with microtubules. Includes: Solutions & Supplies; VE-DIC Assays; Motility; Dynamics; Fluorescence Assays; Oxygen Scavenging; Assays. - [Read Flow Cell Assays with Microtubules: Motility/Dynamics in Fluorescence and VE-DIC Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Sorting Protocols

Flow cytometry is a widely used method for characterizing and separating individual cells. This basic protocol focuses on: measure fluorescence intensity produced by fluorescent-labled antibodies and ligands that bind specific cell-associated molecules. Includes: Immunofluorescence Staining and Flow Cytometry Analysis. - [Read Flow Cytometry Analysis Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols

Flow cytometry is a widely used method for characterizing and separating individual cells. This basic protocol focuses on: measure fluorescence intensity produced by fluorescent-labled antibodies and ligands that bind specific cell-associated molecules. Includes: Immunofluorescence Staining; Flow Cytometry Analysis. - [Read Flow Cytometry Analysis Protocol]

Category: Cytogenetics Protocols: Fluorescent In Situ Hybridization FISH Protocol

Protocol for fluorescence in situ hybridization (FISH) for DNA replication origins. Fluorescent in situ hybridization (FISH) is a molecular cytogenetic technique used for the detection of specific chromosomal rearrangements and applicable to many different specimen types. FISH is widely used for several diagnostic applications. - [Read Fluorescence In Situ Hybridization (FISH) for DNA Replication Origins Protocol]

Category: Cytogenetics Protocols: Fluorescent In Situ Hybridization FISH Protocol

Protocol for fluorescence in situ hybridization (FISH) on human chromosomes and interphase nuclei. Includes: Plasmid probes; COSMID-, YAC- and LIBRARY PROBES; Probe detection. - [Read Fluorescence In Situ Hybridization (FISH) on Human Chromosomes and Interphase Nuclei Protocol]

Category: Cytogenetics Protocols: Fluorescent In Situ Hybridization FISH Protocol

Protocol for fluorescence in situ hybridization of a repetitive DNA probe to human chromosomes in suspension. Hybridization technique which does not need formamide and dextran sulfate. As a model system, we used the repetitive specific human DNA probe pUC 1.77, labeled it with digoxigenin-11-dUTP by nick-translation, and hybridized it to metaphase chromosomes in suspension. These chromosomes were isolated by standard techniques from human lymphocytes. - [Read Fluorescence In Situ Hybridization of a Repetitive DNA Probe to Human Chromosomes in Suspension]