tissues Protocols

Category: Cell Organelle Protocols: Subcellular Fractionation Protocols

The employment of differential centrifugation to prepare crude fractions of subcellular particles from homogenates is often a necessary first step to a subsequent purification of one or more particles on a density gradient. This protocol describes the use of differential centrifugation to fractionate a mammalian liver homogenate but similar methods should be applicable to all mammalian tissues and cultured cells. - [Read Preparation of Crude Subcellular Fractions by Differential Centrifugation Protocol]

Category: Nucleic Acid Electrophoresis Protocols: Pulsed Field Gel Electrophoresis Protocols

Protocol for preparation of DNA for pulsed-field gel electrophoresis: isolation of DNA from mammalian cells and tissues. Genomic DNAs from mammalian cells are prepared for pulsed-field gel electrophoresis by lysing cells in situ in an agarose plug.  Following digestion with an appropriate restriction enzyme, the plug is loaded directly into the well of a pulsed-field gel or it can be melted before loading. - [Read Preparation of DNA for Pulsed-field Gel Electrophoresis: Isolation of DNA from Mammalian Cells]

Category: Cell Biology and Cell Culture: Endothelial Cell Protocols

Endothelial cells, which line blood vessels, can be prepared from a variety of tissues. They are frequently prepared from the umbilical vein, which is relatively easy to obtain. The procedure is clearly described and provides a large population of highly purified endothelial cells. There are also methods for obtaining endothelial cells from other tissues such as fat, skin, and mucosa. These methods require special care and generate smaller populations of cells. - [Read Preparation of Endothelial Cells Protocol]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols: Genomic DNA Isolation Protocols

Simple protocol is used to extract DNA from small numbers of cultured cells and from fragments of soft or bony tissues.  The method is used chiefly to genotype transgenic and knockout mice.  Each 6-10-mm snippet of mouse tail yields 50-100 µg of DNA that can be used in dot or slot blotting to detect a transgene of interest, in Southern hybridization to detect DNA fragments that are <20 kb in size, and as a template in PCRs. - [Read Preparation of Genomic DNA from Mouse Tails and Other Small Samples Protocol]

Category: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

Tissues are homogenized in guanidinium isothiocyanate lysis buffer and then subjected to cesium chloride ultracentrifugation. The resulting RNA is then extracted with phenol and chloroform to remove protein and lipid contaminants. - [Read Preparation of RNA from Plant Tissue Using Guanidinium Isothiocyanate/Cesium Chloride Ultracentrifug]

Category: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

Protocol is based on the standard Trizol protocol for the purification of RNA from animal cells using Trizol (Purification of RNA from Animal Cells using Trizol). In this version, adapted for use with plant tissues, a high-salt isopropanol precipitation step has been added to precipitate RNA selectively, while maintaining polysaccharides and proteoglycans in solution. - [Read Preparation of RNA from Plant Tissue Using Trizol]

Category: Fungi Protocols

Protocol for the preparation of solid tissue for Aspergillus galactomannan antigen detection by Platelia (Biorad). Technique was designed for use on human serum. However, it may also be possible to perform this method on solid tissues and organic solutions. Viscous solution and tissue specimens need to be pre-treated to achieve the extraction of the Aspergillus antigen and to get a homogeneous sample in solution. - [Read Preparation of Solid Tissue for Aspergillus Galactomannan Antigen Detection by Platelia Protocol]

Category: Immunohistochemistry Protocols: Antibody Staining Protocols

Staining of tissues can be carried out on cell smears prepared from biopsy samples, such as needle aspirates, tissue scrapings, or freshly dissected tissues. - [Read Preparing Cell Smears from Tissue Samples for Immunostaining Protocol]

Category: Drosophila Protocols: Drosophila Staining Protocols

Early embryos (0-17 hours or until cuticle formation) are treated with a mixture of organic solvents, formaldehyde, and alcohols, as described here. The cuticles of late-stage embryos are usually opened by sonication. Tissues from more advanced stages of development are normally dissected by hand and then fixed and stained in a standard paraformaldehyde/detergent combination - [Read Preparing Early Whole-Mount Drosophila Embryos for Immunostaining Protocol]

Category: Drosophila Protocols: Drosophila Staining Protocols

Early and late embryos are treated with a mixture of organic solvents, formaldehyde, and alcohols. The cuticles of late-stage embryos (17-22 hours or until hatching) are usually opened by sonication, as described here. Tissues from later stages of development are normally dissected by hand and then fixed and stained in a standard paraformaldehyde/detergent combination. - [Read Preparing Late Whole-Mount Drosophila Embryos for Immunostaining Protocol]

Category: Immunohistochemistry Protocols: Antibody Staining Protocols

Most histological studies are carried out on paraformaldehyde-fixed, paraffin-embedded tissue samples. Therefore, there is an extensive atlas of most tissues and organs prepared from these sources, and comparing the location of antigens to these data is immediately informative. The fixation and embedding procedures are harsh, however, and many antigens are not well preserved. - [Read Preparing Paraffin Tissue Sections for Immunostaining Protocol]

Category: Mouse Protocols: Mouse Embryology Protocols

Protocol describes a method for preparing siliconized pipettes. Such pipettes minimize the loss of embryos or embryonic tissues during transfer. - [Read Preparing Siliconized Pipettes Protocol]

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

This protocol describes a method for quantitative measurement of DNA in solid tissue samples using either propidium iodide (PI) or DAPI staining followed by flow cytometry. PI can be excited at 488 nm by the argon-ion laser, the most commonly used laser in flow cytometry. Alternatively, DAPI is best excited by a high-power UV laser, which is less commonly available. - [Read Propidium Iodide (PI) or DAPI Staining of Unfixed Solid Tissues for Flow Cytometry Protocol]

Category: Protein Protocols: Protein Extraction From Tissue

Protein extraction from whole tissues for isoelectric focusing. University of Missouri - Columbia Proteomics Center. SDS extraction followed by acetone precipitation. Also has Phenol extraction followed by methanolic ammonium acetate precipitation. - [Read Protein extraction from whole tissues for isoelectric focusing]

Category: Protein Protocols: Protein Extraction Protocols

Protocol for Protein Extraction Using Proteomics. Extraction of proteins from plant cells that are rich in compounds that interfere with the 2-Dimensional electrophoretic separation methods such as salts, organic acids, phenolics, pigments, terpenes, among others. A common protocol used in our lab for extraction proteins from plant tissues consists in the homogenization of mortar-grounded material in liquid nitrogen with an extraction buffer. - [Read Protocol for Protein Extraction Using Proteomics]

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

The first part of the isolation procedure is a flotation through a continuous iodixanol gradient; this gradient is essentially a resolving gradient in which the caveolin-rich vesicles are concentrated in the top third of the gradient, while the predominantly caveolin-poor vesicles band in denser regions. A second discontinuous gradient is essentially a concentration gradient to band the caveolin-rich vesicles sharply at an interface. - [Read Purification of Caveolae Membranes from a Plasma Membrane Fraction of Cultured Cells and Tissues]

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

Peroxisomes can be purified in self-generated iodixanol gradients in high yield (80-90%) with no detectable contamination from any other organelle. In iodixanol peroxisomes are the densest of the major subcellular organelles (ρ = 1.18-1.20 g/ml) present in the light mitochondrial fraction from mammalian tissues and cells. - [Read Purification of Peroxisomes in a Self-Generated Gradient]

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: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

This protocol is not phenol-based, but does require the addition of chloroform. The Concert Plant Reagent is intended for the isolation of RNA from a wide variety of plant tissues including blue spruce needles, potato tuber etc. - [Read Purification of RNA from Plant Tissue Using the Concert Plant Reagent]

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

Mammalian DNA prepared from blood or tissues as described in this protocol is 20-50 kb in size and suitable for use as a template in PCRs.  The yields of DNA vary between 0.5 and 3.0 µg/mg tissue or 5 and 15 µg per 300 µl of whole blood. - [Read Rapid Isolation of Mammalian DNA Protocol]

Category: Cell Biology and Cell Culture

Protocol for the isolation of the lipid-rich microdomains of the plasma membrane, notably caveolae and lipid rafts. Methods for the isolation of lipid rafts are based on the insolubility of these structures in the nonionic detergent TritonX-100. Either the intact cells are treated with a detergent-containing solution or a post-nuclear supernatant is prepared from a cell homogenate and then Triton X-100 is added to this supernatant. - [Read S20 Purification of detergent-insoluble lipid rafts from cells and tissues.]

Category: Microscopy Protocols: In Vivo Imaging Protocols

In the past two decades, there have been many revolutions in light microscopy techniques made possible by improvements in optics, detector technology, and computers. Furthermore, there is no indication that the rate of development of new equipment is slowing down. Here we attempt to provide an overview of available options and important considerations applicable to imaging Drosophila cells and tissues. - [Read Selection of Appropriate Imaging Equipment and Methodology for Live Cell Imaging in Drosophila]

Category: Stem Cell Protocols: Stem Cell Isolation Protocols

Germ layers are multipotent tissues that have the ability to differentiate into various tissue types. Isolation and manipulation of germ layers is important for examining differentiation. This protocol describes a method for separating postimplantation germ layers. - [Read Separating Postimplantation Germ Layers Protocol]

Category: Microscopy Protocols: In Vivo Imaging Protocols

Sophisticated fluorescence microscopy methods & equipment, now allow cellular events to be studied at high resolution in living material. The studying of living fly tissues presents unique difficulties in keeping the cells alive, introducing fluorescent probes, & imaging through thick hazy cytoplasm. This protocol outlines the preparation of major tissue types amenable to study by time-lapse cinematography and different methods for keeping them alive. - [Read Time-Lapse Cinematography in Living Drosophila Tissues: Preparation of Material]

Category: Drosophila Protocols

Protocol outlines the preparation of major tissue types amenable to study by time-lapse cinematography and different methods for keeping them alive. - [Read Time-Lapse Cinematography in Living Drosophila Tissues: Preparation of Material Protocol]