technology Protocols

Category: PCR Protocols

The MagneSil system can selectively isolate PCR products that are more than 150-bp long from primers and primer -dimers.  The technology can be used with a number of robotic workstations, including Beckman Coulter’s Biomek 2000 and FX Laboratory Automation Workstations.  The procedure can also be carried out manually.  Typical recovery is more than 80% for a 1-kb product with negligible carryover of primers or nucleotides. - [Read A Magnetic Particle-Based Method for Purifying PCR Products from Solution Protocol]

Category: PCR Protocols: AFLP PCR

AFLP® technology was developed initially by Keygene in the early 1990’s. AFLP has become a widespread genetic fingerprinting technology. AFLP video and diagrams. Keygene - [Read AFLP - Genetic Fingerprinting]

Category: Plant Biology Protocols: Plant Genetics Protocols

AFLP was designed as a highly sensitive method for DNA fingerprinting to be used in a variety of fields. We are using this technology to generate DNA based markers for cloning genes involved in phototropic responses in higher plants that have only been identified genetically by mutant phenotype. Protocol includes: Generate polymorphic recombinant F2 (or F3) population; Isolate genomic DNA; Restriction of DNA; Ligation of adapters; Pre-amplification of template DNA; AFLP-PCR; etc. - [Read AFLP For Positional Cloning]

Category: PCR Protocols: AFLP PCR

Mannie Liscum and Paul Oeller. Department of Plant Biology. Carnegie Institution of Washington, Stanford. AFLP technology is used here to generate DNA based markers for cloning genes involved in phototropic responses in higher plants that have only been i - [Read AFLP: not only for fingerprinting, but for positional cloning]

Category: PCR Protocols: AFLP PCR

An introduction to AFLP and fAFLP. Mark E. Berres, University of Wisconsin. Amplified fragment-length polymorphism (AFLP) or its fluorescent version (fAFLP) is a PCR-based fingerprinting technology. AFLP basically involves the restriction of genomic DNA - [Read An introduction to AFLP and fAFLP]

Category: Transfection Protocols: Stable Transfection Protocols

The AfCS is utilizing antisense technology to manipulate signaling protein expression in the RAW 264.7 macrophage-like cell line. This can be achieved by the transfection of gene-specific antisense oligonucleotides (ASOs). The following procedure involves the transfection of ASOs into RAW 264.7 cells using FuGENE 6 transfection reagent. Subsequently, the isolated total RNA or protein from these transfected cells can be used to assess the level of mRNA or protein knockdown, respectively. - [Read Antisense Oligonucleotide Transfection of RAW 264.7 Cells with FuGENE 6 in a 24-Well Dish]

Category: Immunology: Immunoprecipitation Protocols: Chromatin Immunoprecipitation Protocols

Protocol describes the use of chromatin immunoprecipitation technology (ChIP) to analyze interactions of proteins or protein complexes with DNA in vivo. In this approach, the material is fixed with formaldehyde to preserve DNA-protein and protein-protein associations, the cells are lysed, and the chromatin is cut and solubilized. The chromatin suspension is immunoprecipitated with an antibody against the protein(s) of interest, and the coimmunoprecipitated DNA fragments are analyzed. - [Read Chromatin Immunoprecipitation (ChIP) of Protein Complexes Protocol]

Category: RNAi Technology Protocols: RNAi C. elegans Protocols

Protocol uses northern blot technology to detect short interfering RNAs (siRNAs) or micro-RNAs (miRNAs) in RNA preparations from Caenorhabditis elegans. - [Read Detection of si/miRNA in C. elegans by Northern Blot Protocol]

Category: E Coli Protocols: E coli Genetics Protocols

Protocol for the generation of gene deletions and gene replacements in Escherichia coli O157:H7 using a temperature sensitive allelic exchange system. Technology requires flanking DNA to be cloned into a temperature sensitive vector but the resulting clone allows great flexibility for further modification of the target sequence. It is therefore highly suited to the study of genes in which several rounds of changes are envisaged. - [Read Generation of Gene Deletions and Gene Replacements in Escherichia coli Protocol]

Category: Microarray Protocols: Microarray Hybridization Protocols

Protocol describes the direct detection of RNA on DNA microarrays using Hybrid Capture (HC) technology and the HC ExpressArray Kit developed by Diagene.  The kit uses a proprietary antibody that binds specifically to RNA:DNA hybrids and a second, fluorescently labeled, antibody that detects the primary antibody.  Total RNA is applied directly to a glass-spotted DNA microarray, and stable RNA:DNA hybrids are visualized via a Cy3-labeled secondary antibody. - [Read Hybridization and Detection Using the HC ExpressArray Kit Protocol]

Category: Immunology: Immunofluorescence Protocols

This protocol describes the use of a specific antibody that recognizes the targeted gene product to detect RNAi-induced gene knockdown in mammalian cells. Western blot technology can be used as an alternative (see Detection of RNAi-Induced Protein Knockdown in Mammalian Cells by Western Blotting). - [Read Immunofluorescence Detection of RNAi-Induced Protein Knockdown in Mammalian Cells Protocol]

Category: RNAi Technology Protocols: RNAi Mammalian Cells Protocols

Protocol describes the use of a specific antibody that recognizes the targeted gene product to detect RNAi-induced gene knockdown in mammalian cells.  Western blot technology can be used as an alternative. - [Read Immunofluorescence Detection of RNAi-Induced Protein Knockdown in Mammalian Cells Protocol]

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: Plant Biology Protocols: Plant Genetics Protocols

The preparation of expressional cDNA libraries for use in the yeast two-hybrid system is quick and efficient when using the dedicated Clontech™ product, the MATCHMAKER Library Construction and Screening Kit 3. This kit employs SMART technology for the amplification of full-length cDNAs, in combination with cloning using homologous recombination. - [Read Isolation of Plant Transcription Factors Using a Modified Yeast One-Hybrid System]

Category: Molecular Model Organisms: Mouse Animal Protocols: Mouse Genotyping Protocols

Contains the NHLBI Division of Intramural Research, including a list of labs, and the Office of Technology Transfer and Development. - [Read Laboratory of Developmental Biology, Division of Intramural Research, NHLBI, NIH]

Category: Primary Cell Isolation and Culture Protocols: Laser Capture Microdissection Protocols

LCM technology can harvest the cells of interest directly or can isolate specific cells by cutting away unwanted cells to give histologically pure enriched cell populations. A variety of downstream applications exist: DNA genotyping and loss-of-heterozygosity (LOH) analysis, etc. Protocol provides a thorough description of LCM techniques, with an emphasis on tips and troubleshooting advice derived from LCM users. The total time required to carry out this protocol is typically 1–1.5 h. - [Read Laser-capture Microdissection Protocol]

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: DNA Microarray Protocols: DNA Methylation Microarray CpG

Kimura et al., NAR 2005. "easy-handling technology provided reproducible and precise measurement of methylated CpGs in MGMT promoter and, thus, our method may bring about a potential evolution in the handling of a variety of high-throughput DNA methylatio - [Read Methylation profiles of genes utilizing newly developed CpG island methylation microarray on colorec]

Category: Molecular Imaging

The Handbook — A Guide to Fluorescent Probes and Labeling Technologies is a comprehensive resource for fluorescence technology and its applications. Newly revised, The Handbook contains detailed information describing the use of more than 3000 Molecular - [Read Molecular Probes Handbook Invitrogen]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Flow Cytometry Immunofluorescence Staining Protocols

Provides a brief historical perspective to illustrate the demands for this technology and to lay the foundation for its application; Explains the hurdles that were surmounted to achieve the current level of multiparametric analysis which serves to alert researchers to potential problems they may encounter when they either bring this technology to their own laboratories, or when they use extant instrumentation in another laboratory; Illustrates some of the complexities that arise. - [Read Multiparameter FACS Analysis]

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: Signalling Signal Transduction Protocols: Calcium Measurement Protocols

Native Aequorin. NanoLight Technology. Aequorin has advantages over other Ca2+ indicators, for example, low leakage rate from cells, lack of intracellular compartmentalization or sequestration and it does not disrupt cell functions or embryo development. - [Read Native Aequorin]

Category: DNA Protocols: PCR Polymerase Chain Reaction Protocols

PCR Technology. Informative info on PCR and Protocols. Connie Veilleux - [Read PCR Technology]

Category: PCR Protocols

PCR Technology. Informative info on PCR and Protocols. Connie Veilleux - [Read PCR Technology]

Category: DNA Protocols: PCR Polymerase Chain Reaction Protocols: Standard PCR Protocol

PCR Technology Information and Reaction Protocol - Connie Veilleux. - [Read PCR Technology Information and Reaction Protocol]