simultaneously Protocols

Category: Drosophila Protocols

Protocol for antibody addition to Drosophila specimens and detection using fluorochrome-linked reagents. Fluorochrome-linked reagents should be used when high resolution is needed or if two antigens need to be localized simultaneously. Because of the thickness of fly specimens, detection requires access to a confocal microscope. - [Read Antibody Addition to Drosophila Specimens and Detection Using Fluorochrome-Linked Reagents Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols

Protocol uses specific antibodies coupled to one of four fluorochromes: fluorescein isothiocyanate (FITC), R-phycoerythrin (PE), peridinin chlorophyll-a (PcP), and allophycocyanin (APC). These fluorochromes can be used simultaneously to stain and analyze the expression patterns of four different proteins in the same sample. The fluorochrome stained cell populations are analyzed using a FACSCalibur dual-laser flow cytometer. - [Read Characterization of Cells by Flow Cytometry Protocol]

Category: Immunology: B Cell Protocols

Fluorochromes can be used simultaneously to stain and analyze the expression patterns of four different proteins in the same sample. The fluorochrome stained cell populations are analyzed using a FACSCalibur dual-laser flow cytometer. - [Read Characterization of Cells by Flow Cytometry Protocol]

Category: Immunology

Protocol for detection of autoantibodies with self-assembling radiolabeled antigen tetramers. Details how to produce radiolabeled antigen-streptavidin tetramers for detection of antibodies by immunoprecipitation. Optionally, the antigen tetramers can be denatured to compare responses to folded and unfolded antigen in the same system. This technique can be applied to a large or small number of samples, and a given sample can be simultaneously assayed with multiple antigens. - [Read Detection of Autoantibodies with Self-Assembling Radiolabeled Antigen Tetramers Protocol]

Category: Cell Culture Protocols: Cell Fixing Protocols

Treating cells with paraformaldehyde leads to the establishment of chemical cross-links between free amino groups. When the cross-links join different molecules, a latticework of interactions occurs that holds the overall architecture of the cell together. Commercial formaldehyde solutions are not recommended, because they lack the advantages of using a variable-length polymer, and the cells will simultaneously be fixed with the alcohol (usually methanol). - [Read Fixing Attached Cells in Paraformaldehyde Protocol]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols: DNA Isolation from Mammalian Cells Protocols

Procedure is used to prepare DNA simultaneously from many different types of samples or tissues.  Although the DNA is generally too small (approx.  80 kb) for efficient construction of genomic DNA libraries, it gives excellent results in Southern hybridizations and PCRs.  Cultured aneuploid mammalian cells (2 x 107, e.g., HeLa cells) yield 100 µg of DNA in a volume of 1 ml. - [Read Isolation of DNA from Mammalian Cells by Spooling Protocol]

Category: Antibody Protocols: Antibody Labeling Protocols

Direct labeling of purified antibodies is the method of choice when simultaneously visualizing two or more antibodies of the same species, class, or subclass. This allows the localization of multiple antigens to be compared in the same cell, tissue, or sample. Labeled primary antibodies are also useful for improving background-to-readout ratios, and they can be essential for immunoassays in which good quantification is needed. - [Read Labeling Antibodies with Fluorochromes Protocol]

Category: Immunology: B Cell Protocols

This assay is used to measure cell viability. It is a two-color fluorescence assay that simultaneously determines: Live cell number and Dead cell number. - [Read Live Dead Assay for Cell Viability Protocol]

Category: Cell Biology and Cell Culture: Cell Viability Protocols

Assay measures cell viability. It is a two-color fluorescence assay that simultaneously determines Live cell number and Dead cell number. This protocol is designed for use with the GEMINI XS Microplate Spectrofluorometer, a multi-well plate scanner with dual excitation/emission capabilities, but the assay is also adaptable for flow cytometry and fluorescence microscopy. Includes: Cell Culture; Preparation for the Assay; Live/Dead Assay; Reading the Plate; Data Analysis; Alternative protocol. - [Read Live/Dead Assay for Cell Viability Protoco]

Category: Microscopy Protocols: Fluorescence Microscopy Protocols

Multiphoton fluorescence microscopy is a powerful new technology that enables the acquisition of optical sections without the use of a pinhole aperture typically used for confocal microscopy. The technique is based upon the two-photon principle: A fluorescent molecule simultaneously absorbs two photons producing an electronic transition from the ground to excited state equal to two times the energy of each incident photon. - [Read Multiphoton Images from LSM 510 NLO System]

Category: Cell Organelle Protocols: Subcellular Fractionation Protocols: Mitochondria Isolation Protocols

A procedure developed to purify simultaneously peroxisomes and mitochondria from spinach (Spirnacia olercea L.) leaf under isoosmotic and low viscosity conditions. This method involves differential centrifugation and density gradient centrifugation on four layers of Percoll. - [Read Purification of Peroxisomes and Mitochondria from Spinach Leaf by Percoll Gradient Centrifugation]

Category: Cell Organelle Protocols: Subcellular Fractionation Protocols: Peroxisome Isolation Protocols

A procedure developed to purify simultaneously peroxisomes and mitochondria from spinach (Spirnacia olercea L.) leaf under isoosmotic and low viscosity conditions. This method involves differential centrifugation and density gradient centrifugation on four layers of Percoll. - [Read Purification of Peroxisomes and Mitochondria from Spinach Leaf by Percoll Gradient Centrifugation]

Category: Nucleic Acid Purification Protocols: RNA Isolation Protocols: RNA Isolation fromTissues or Cultured Cells Protocols

Single-step technique, cells are homogenized in guanidnium thiocyanate and the RNA is purified from the lysate by extraction with phenol:chloroform at reduced pH.  Many samples can be processed simultaneously and speedily.  The yield of total RNA depends on the tissue or cell source and is generally in the range of 4-7 µg/ml starting tissue or 5-10 µg/106 cells.  IMPORTANT: Prepare all reagents used in this protocol with Diethyl pyrocarbonate (DEPC)-treated H2O. - [Read Purification of RNA from Cells and Tissues by Acid Phenol-Guanidinium Thiocyanate-Chloroform Extract]

Category: PCR Protocols: PCR Cloning Protocols

In this protocol sequences cloned in standard bacteriophage or plasmid vectors are amplified in PCRs containing primers targeted to flanking vector sequences.  The amplified fragments can be analyzed by gel electrophoresis, DNA sequencing, and/or restriction mapping.  Many colonies or plaques can be assayed simultaneously. - [Read Rapid Characterization of DNAs Cloned in Prokaryotic Vectors Protocol]

Category: Nucleic Acid Electrophoresis Protocols: DNA Electrophoresis Protocols: DNA Electrophoresis in Agarose Gels Protocols

Recovery of bands of DNA from agarose gels by electrophoresis onto a sliver of DEAE-cellulose membrane can be performed simultaneously on many samples and reliably gives high yields of fragments between 500 bp and 5 kb in length. - [Read Recovery of DNA from Agarose Gels: Electrophoresis onto DEAE-cellulose Membranes Protocol]

Category: Genetics and Genomics: Cancer Genetics Protocols: Single Strand Conformational Polymorphism(SSCP) Protocols

Single-strand confirmation polymorphism analysis (SSCP) is a powerful and robust method for the detection of DNA sequence changes (single-base substitutions) based on shifts in electrophoretic mobility. In this protocol, the target sequence is simultaneously labeled and amplified, then heat-denatured and resolved by non-denaturing polyacrylamide gel electrophoresis. - [Read Single-Strand Conformation Polymorphism Analysis Protocol]

Category: DNA Protein Interactions Protocols: Electrophoretic Mobility Shift Assays EMSA Protocols

The target sequence is simultaneously labeled and amplified, then heat-denatured and resolved by non-denaturing polyacrylamide gel electrophoresis.  Differences in sequence alter the conformation of the DNA and hence its electrophoretic mobility and, because of the high resolution of polyacrylamide gels, most conformational changes caused by subtle changes in sequence can be detected. - [Read Single-Strand Conformation Polymorphism Analysis Protocol]

Category: Nucleic Acid Detection Protocols: Nucleic Acid Blotting Protocols

Protocol for southern blotting: simultaneous transfer of DNA from a single agarose gel to two membranes. DNA can be simultaneously transferred from opposite sides of a single agarose gel to two membranes.  Bidirectional transfer occurs rapidly at first, but soon slows down as the gel becomes dehydrated.  Because the efficiency of transfer is low, the method works best when the target sequences are present in high concentration - [Read Southern Blotting: Simultaneous Transfer of DNA from a Single Agarose Gel to Two Membranes Protocol]

Category: Protein Protocols: Protein Extraction From Tissue

Tissue subcellular fractionation and protein extraction for use in mass-spectrometry-based proteomics. Although many methods exist for fractionating proteins, the method described here can capture the majority of subcellular fractions simultaneously at reasonable purity. The scalability of this method makes it amenable to small samples, such as embryonic tissues, in addition to larger tissues. The protocol described is for the general fractionation and extraction of proteins from organs / tissue - [Read Tissue subcellular fractionation and protein extraction for use in mass-spectrometry-based proteomic]

Category: Immunohistochemistry Protocols: Antigen Retrieval Protocols

The principle behind the pressure cooker method described here is to use extended periods of heat to break some of the subcellular structures that block antibody access. This approach is appropriate for handling specimens on glass slides. The major advantages of the pressure cooker method are the ability to handle a large number of slides simultaneously, the convenience of using metal racks, and the avoidance of any hot spots that are found in the microwave. - [Read Unmasking Hidden Epitopes Using the Pressure Cooker Protocol]