provide Protocols

Category: Pharmacology and Toxicology Protocols: Cytotoxicity Protocols

The Allium test provides a rapid screening procedure for chemicals, pollutants contaminants, etc. which may represent environmental hazards.  Root growth inhibition and adverse effects upon chromosomes provide an indication of likely toxicity. - [Read Allium Test]

Category: Plant Biology Protocols

The Allium test provides a rapid screening procedure for chemicals, pollutants contaminants, etc. which may represent environmental hazards.  Root growth inhibition and adverse effects upon chromosomes provide an indication of likely toxicity. - [Read Allium Test]

Category: Cytogenetics Protocols: Spectral Karyotyping SKY Protocols

SKY has been applied to various tumor groups including hematological malignancies, sarcomas, carcinomas and brain tumors, with the intent of identifying specific chromosomal abnormalities that may provide insight to the genes involved in the disease process as well as identifying recurrent cytogenetic markers for clinical diagnosis and prognostic assessment. - [Read Applications of SKY in Cancer Cytogenetics]

Category: Chromatography Protocols: Liquid Chromatography Protocols

Protocol for configuration, column construction, and column packing for a capillary liquid chromatography system. Protocol describes a procedure for adapting conventional HPLC systems to provide accurate low-flow rates (0.4-4 µl/min) and gradients required to operate slurry-packed capillary columns.  A key component of this system is a commercial axial-beam longitudinal flow cell that can be fitted to several commercial UV detectors. - [Read Configuration Column Construction Column Packing for Capillary Liquid Chromatography]

Category: Fungi Protocols: Fungi Genetics Protocols

Standard operating procedure for the determination of tissue fungal burden utilizing quantitative real time polymerase chain reaction (QPCR). This standard operating procedure will provide information on how to assess fungal tissue burden of infected animals by use of a single copy (FKS) or multicopy gene (18s RNA) to assess the number of fungal cell nuclei present. - [Read Determination of Tissue Fungal Burden Utilizing Quantitative Real Time Polymerase Chain Reaction]

Category: Stem Cell Protocols: Stem Cell Culture Protocols

In vitro differentiation of ES cells occurs when the cells are allowed to aggregate in suspension culture in the absence of mouse embryonic fibroblast (MEF) feeders and leukemia inhibitory factor (LIF). Hanging drops provide a uniform aggregate size, which is then expanded by continued growth in suspension culture. The embryoid bodies are then plated and allowed to differentiate further in culture. - [Read Differentiation of Embryonic Stem (ES) Cells Using the Hanging Drop Method]

Category: Stem Cell Protocols

Protocol for the electroporation of ES cells. Cells are routinely passaged two days prior to electroporating. Usually one 10 cm plate at approximately 80% confluency will provide enough cells for 1-2 electroporations. - [Read Electroporation of ES Cells Protocol]

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

Generally in iodixanol gradients the density of organelles decreases in the series: peroxisomes, mitochondria, lysosomes, ER, Golgi, although in Dictyostelium discoideum, the lysosomes are denser than the mitochondria. Iodixanol gradients can usually provide satisfactory resolution of all these membrane particles although it may be necessary to modulate either the gradient or centrifugation parameters in order to optimize a particular separation. - [Read Fractionation of Mitochondria, Lysosomes, Peroxisomes, ER and Golgi in Pre-formed Iodixanol Gradient]

Category: DNA Protocols: cDNA Library Protocols: cDNA Library Construction Protocols

Shotgun sequencing of a large segment of DNA involves random fragmentation of the target region into smaller segments that are subsequently cloned into a bacteriophage M13 vector. The goal is to create a library of overlapping clones that provide at least fivefold coverage over the entire length of the target fragment. - [Read Generation of a Library of Randomly Overlapping DNA Inserts Protocol]

Category: Viral Culture and Isolation Protocols: Viral Culture Protocols

There are essentially three parts to this protocol: 1. growth of at least 5x10e8 pfu phage to provide an inoculum growth of a larger liquid lysate that will produce about 5x10e12 pfu; 2. concentration and purification of the phage, and; 3. DNA preparation. - [Read Growth and Purification of 25-100 ug Lambda Clone DNA Protocol]

Category: Neuroscience Protocols: Neuronal Stains Protocols

An appropriate term for glial fibers is 'nerve glue', because they provide the internal support of the central nervous system.  There are four types of glial cells: astrocytes, oligosendroglia,microglia, and ependymal cells. The glia fibers are stained with crystal violet which are resistant to the aniline-chloroform differentiating solution. - [Read Holzer's Stain Protocol]

Category: Microscopy Protocols

The atomic force microscope (AFM) is one of the most powerful tools for determining the surface topography of native biomolecules at subnanometer resolution. The AFM can also provide insight into the binding properties of biological systems. In order to determine the specific interaction between two kinds of molecules (e.g., avidin and biotin). Includes information on principle of AFM and application of AFM. - [Read Imaging, Measuring and Manipulating Native Biomolecular Systems with the Atomic Force Microscope]

Category: Microscopy Protocols: Live-Cell Imaging Protocols

Live-cell imaging techniques provide critical insight into the fundamental nature of cellular & tissue function, especially due to the rapid advances that are currently being witnessed in fluorescent protein & synthetic fluorophore technology. Because of these advances, live-cell imaging has become a requisite analytical tool in most cell biology labs. Includes: Maintaining Live Cells on the Microscope Stage; Live-Cell Imaging Culture Chambers; Optical System and Detector Requirements etc. - [Read Introduction to Live-Cell Imaging Techniques]

Category: Microscopy Protocols: Live-Cell Imaging Protocols

Live-cell imaging techniques provide a critical insight into the fundamental nature of cellular and tissue function, especially due to the rapid advances that are currently being witnessed in fluorescent protein and synthetic fluorophore technology. Because of these advances, live-cell imaging has become a requisite analytical tool in most cell biology laboratories. - [Read Maintaining Live Cells on the Microscope Stage]

Category: Mouse Protocols: Mouse Organ Removal Surgery Protocols

Protocol describes surgical removal of a mouse kidney to provide tissue for analysis. - [Read Mouse Nephrectomy Protocol]

Category: Mouse Protocols: Mouse Organ Removal Surgery Protocols

Protocol describes removal of a mouse spleen to provide tissue for analysis. - [Read Mouse Splenectomy Protocol]

Category: Real Time PCR: Real Time PCR Information

Oligonucleotides with fluorescent dyes at opposite ends provide a quenched probe system useful for detecting PCR product and nucleic acid hybridization. Livak et al., 1995. - [Read Oligonucleotides with fluorescent dyes at opposite ends provide a quenched probe system useful for d]

Category: Chromatography Protocols: Liquid Chromatography Protocols

Protocol describes a procedure for adapting conventional HPLC systems to provide accurate low-flow rates (0.4-4 µl/min) and gradients required to operate slurry-packed capillary columns.  A key component of this system is a commercial axial-beam longitudinal flow cell that can be fitted to a number of commercial UV detectors. - [Read Packing Capillary Columns for RP-HPLC Protocol]

Category: Mouse Protocols: Mouse Organ Removal Surgery Protocols

Protocol describes partial removal of a mouse liver to provide tissue for analysis. - [Read Partial Mouse Hepatectomy Protocol]

Category: Stem Cell Protocols: Feeder Cell Preparation Protocols

MEF feeders are prepared weekly to provide a substrate for undifferentiated embryonic stem (ES) cells. Primary MEF cells are thawed, established in culture, treated with mitomycin C to halt their proliferation so they cannot overgrow the ES cultures, and then replated onto dishes convenient for ES cell culture. This protocol can also be used to prepare feeder cells from STO fibroblast cell lines. - [Read Preparation of Mouse Embryonic Fibroblast (MEF) Feeder Plates Protocol]

Category: Yeast Protocols: Yeast Nucleic Acid Protocols

Flow cytometry is used to analyze the quantity of DNA in cells. Since the DNA content of cells varies through the cell cycle, this information can provide an indication of cell cycle progression. This protocol uses SYTOX Green staining. - [Read Preparation of Yeast Cells for Flow Cytometry Protocol]

Category: Immunology: Mononuclear Cell Isolation Protocols: T-Cell Isolation Protocols

Protocols utilize T hybridomas to detect expression of peptide-MHC complexes, since these cells provide the most convenient, consistent, and flexible T cell readout systems for these purposes. If desired, antigen-specific T cell clones can be used in lieu of T hybridoma cells, but T cell clones often give poorer responses than T hybridomas to fixed APCs due to fixation-induced loss of costimulator function. - [Read Presenting Exogenous Antigen to T Cells Protocol]

Category: Cell Organelle Protocols: Subcellular Fractionation Protocols

Although Percoll gradients were able to provide a purified sporocyst fraction, because these particles do not all band in a discrete manner in such gradients, they were unable to provide a simultaneous isolation of a pure oocyst wall fraction. Gradients formed from this protocol on the other hand are able to provide purified sporocysts and oocyst walls in the same gradient. - [Read Purification of Oocyst Walls and Sporocysts from Toxoplasma gondii Protocol]

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]