components Protocols

Category: Drosophila Protocols: Drosophila Genetics Protocols

Protocol described here produces chromatin with regularly spaced nucleosomes having physiological nucleosome repeat lengths; something that can be difficult to achieve with purified components. In addition, chromatin assembled with the S-190 Chromatin Assembly Extract contains the ATP-dependent chromatin remodeling factors necessary for efficient transcription. - [Read Chromatin Assembly on Template DNA with Transcription Factors and Drosophila S-190 Chromatin Assembl]

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: Nucleic Acid Modification Protocols: DIG Biotin Labeled Probes Protocols

Protocol describes 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.  This procedure can be used to detect single copy sequences as small as 1 kb on human metaphase chromosomes. 
    - [Read DNA In Situ Hybridization with an Alkaline Phosphatase-Based Fluorescent Detection System Protocol]

Category: Microscopy Protocols: Electron Microscopy Protocols

Article describe the preparation of cells for correlative electron microscopy after live light microscopic observation of fluorescently labeled cytoskeletal proteins microinjected into the same cells. Since identification of cytoskeletal elements in electron microscopic preparations is an essential part of any correlative study, procedures for immunogold labeling of cytoskeletal components and for myosin S1 decoration of actin filaments are also described. - [Read Electron Microscopy of the Cytoskeleton of Cultured Cells]

Category: Cell Biology and Cell Culture

Cell fractionation of cellular components using Percoll a synthetic, colloidal solution of polyvinylpyrrolidone coated silica, specifically designed for sedimentation centrifugation. Percoll becomes a simple matter to establish a linear density gradient. Organelle separations are much easier to accomplish on Percoll density gradients than on sucrose gradients. - [Read Equilibrium Density Gradient Percoll Protocol]

Category: PCR Protocols: cDNA Synthesis Protocols

This cDNA synthesis system simplifies your work dramatically.  All reaction components are premixed and lyophylised.  You have to add your RNA and (for Your-Prime beads) the primer.  Another advantage of the system is a little number of pipetting steps required, and therefore reduced risk of Rnase contamination and RNA degradation. - [Read First strand cDNA synthesis with Ready-To-Go Beads Protocol]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to separate the components of a heterokaryon. - [Read How to Separate the Components of a Heterokaryon]

Category: Microscopy Protocols: Electron Microscopy Protocols

The scanning transmission electron microscope precision and reproducibility of mass measurements are comparable with those of the analytical ultracentrifuge, the possibility of determining the mass not only of entire supramolecular assemblies but also of their distinct components has opened exciting new avenues which have occasionally been entered but are not yet fully explored. Includes: Principle and application (The GroEL:GroES complex). - [Read Imaging and Measuring Biomolecules & Their Assemblies by Scanning Transmission Electron Microscopy]

Category: Reporter Gene Assays: GFP Assay Protocols

Specific molecular components can be efficiently labeled by a combination of three methods: chemical transfection of GFP-fusion constructs, staining of chromosomes with the DNA-specific, fluorescent dye Hoechst 33342, and microinjection of fluorescently conjugated proteins. This procedure provides an example of using all three methods in sequence to label components of living HeLa cells. These methods should be followed in the order presented, but any of them can be omitted when not needed. - [Read Imaging Hoechst-Labeled Chromosomes and Fluorescent Proteins during the Cell Cycle]

Category: Microinjection Protocols

Fluorescence microscopy provides a powerful tool for imaging molecular components in living cells. Specific molecular components can be efficiently labeled by a combination of three methods: chemical transfection of GFP-fusion constructs, staining of chromosomes with the DNA-specific, fluorescent dye Hoechst 33342, and microinjection of fluorescently conjugated proteins. This procedure provides an example of using all three methods in sequence to label components of living HeLa cells. - [Read Imaging Hoechst-Labeled Chromosomes and Fluorescent Proteins during the Cell Cycle]

Category: Nucleic Acid Detection Protocols: Nucleic Acid Blotting Protocols

The protocol consists of a method for the generation of cytoplasmic extracts from mammalian cells (in this case, 293T cells) without the disruption of polyribosomes, the separation of ribosomal components and polyribosomes by sucrose gradient centrifugation, the isolation of mRNA from these fractions, and detection of mRNA by Northern blot analysis. - [Read Northern Blot Analysis of mRNA From Mammalian Polyribosomes Protocol]

Category: Cell Biology and Cell Culture: In Vitro Reconstitution Protocols

Protocol describes a system which includes all of the necessary components for in vitro transcription as well as a positive control template that provides run-off transcripts from a CMV immediate early promoter. This system is designed for runoff transcription. Alternatively, transcription products can be analyzed by primer extension. - [Read Nuclear Extract in vitro Transcription System]

Category: Cytogenetics Protocols: In Situ Hybridization Protocols

Discusses the effects of various components of the hybridization solution on the rate of renaturation and thermal stability of DNA hybrids free in solution. Includes: The main parameters that influence hybridization; Additional hybridization variables; Competition in situ hybridization; Oligonucleotide hybridization; Standard in situ hybridization conditions. - [Read Nucleic Acid Hybridization General Aspects]

Category: Reporter Gene Assays: GFP Assay Protocols

In preparation for FLIM-FRET analysis, the appropriate donor and acceptor components must be introduced into live or fixed cells. The method of introduction depends on the nature of the components and the state of the cells. For example, plasmid DNAs encoding a protein of interest fused to a variant of GFP may be introduced into live cells by transfection or microinjection, whereas labeled antibodies are delivered by microinjection. - [Read Probing Protein Interactions Using GFP and FRET Protocol]

Category: Reporter Gene Assays: GFP Assay Protocols

Describes how components (usually Fab fragments of antibodies) that are to be introduced into cells are labeled with fluorescent sulfoindocyanine dyes. - [Read Probing Protein Interactions Using GFP and FRET.]

Category: Cell Biology and Cell Culture

Matirgel is considered as basement membrane and generated from EHS sarcoma. Matrigel contains not only basement membrane components (collagens, laminin, and proteoglycans)but also matrix degrading enzymes/their inhibitors and growth factors. Invasion of tumor cells into Matrigel has been used to characterize involvement of ECM receptors and matrix degrading enzymes which play roles in tumor progression. - [Read Protocol for Matrigel Invasion Assays]

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

This protocol uses a "light mitochondrial" pellet from a mammalian liver homogenate. The gradient thus has to resolve a variety of denser components (peroxisomes, lysosomes, mitochondria) from the Golgi membranes, which have a low density in iodixanol (1.06-1.09 g/ml) [1]. The protocol is specifically tailored to the purification of Golgi membranes from this pellet and is unsuitable for the isolation or analysis of other organelles present in the light mitochondrial fraction. - [Read Purification of Golgi Membranes from a Light Mitochondrial Fraction in a Self-Generated Gradient]

Category: DNA Protocols: PCR Polymerase Chain Reaction Protocols

TAIL PCR Protocol. TAIL is a series of reactions that are intended to map where a T-DNA (transfer DNA) has inserted within the genome. The main components of the 3 reactions are the AD (Arbitrary Degenerate) primers, border primers, and DNA from the T-DNA - [Read TAIL PCR Protocol]

Category: PCR Protocols

TAIL PCR Protocol. TAIL is a series of reactions that are intended to map where a T-DNA (transfer DNA) has inserted within the genome. The main components of the 3 reactions are the AD (Arbitrary Degenerate) primers, border primers, and DNA from the T-DNA - [Read TAIL PCR Protocol]