typically Protocols

Category: Plant Biology Protocols: Plant DNA RNA Isolation Protocols

A protocol for extraction or isolation of both DNA and RNA from the same material, typically plant leaf or leaves. - [Read DNA and RNA Extraction Protocols]

Category: Antibody Protocols: Epitope Mapping Antibody Protocols

The simplest way to determine whether two monoclonal antibodies bind to distinct sites on a protein antigen is to carry out a competition assay. The assay can be used with antibodies that bind both conformational and linear epitopes, and it is most useful in the analysis of monoclonal antibody specificity because polyclonal sera typically recognize multiple different epitopes. - [Read Epitope Mapping by Competition Assay Protocol]

Category: BACs Bacterial Artificial Chromosome Protocols

BAC DNAs are prepared from 5-ml cultures of BAC-transformed cells by a modification of the standard alkaline lysis method (Preparation of Plasmid DNA by Alkaline Lysis with SDS: Minipreparation). The yield typically varies between 0.1 and 0.4 µg of BAC DNA. - [Read Isolation of BAC DNA from Small-scale Cultures Protocol]

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: 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: Protein Protocols: Protein Precipitation Procols

Laboratory sample cleanup is a necessary part for analytical preparation analysis. The removal of Contaminants such as proteins, cell debris and other materials is an important step. Typically this has been done by using Acetonitrile and then Centrifugation to pellet the debris leaving the clean supernant. After this process supernatant can be used for further analysis by HPLC, GC, MS and other analysis tandem methods. HTS Labs. - [Read Protein Precipitation Microplate]

Category: Chromatography Protocols: Affinity Chromatography Protocols

Recombinant proteins engineered to have a polyhistidine tail at either the carboxyl or amino terminus can easily be purified in one step by affinity chromatography on a resin carrying chelated nickel ions.  Chromatography can be carried out in column or batch formats.  After unbound proteins are washed away, the target protein is eluted using imidazole, which typically preserves the antigenic and functional features of the protein. - [Read Purification of Histidine-tagged Proteins by Immobilized Ni2+ Absorption Chromatography Protocol]

Category: Chromatography Protocols: DNA RNA Affinity Chromatography

Chromatography on oligo(dT) columns is the preferred method for large-scale purification (>25 µg) of poly(A)+ RNA extracted from mammalian cells. Typically, between 1% and 10% of the RNA applied to the oligo(dT) column is recovered as poly(A)+ RNA. Because the method can be frustratingly slow, it is not recommended for purification of poly(A)+ RNA from multiple samples. For this purpose, batch elution (Selection of Poly(A)+ RNA by Batch Chromatography) is the better choice. - [Read Selection of Poly(A)+ RNA by Oligo(dT)-Cellulose Chromatography - Subscription Required]

Category: Yeast Cell Culture Protocols: Yeast Sporulation Protocols

Protocol for spore germination. This procedure is typically used for the isolation and preparation of spores from a diploid strain heterozygous for a marked disruption (e.g., yfg1::his3+) Inoculation of the spore population into minimal medium lacking the nutritional supplement corresponding to the disruption marker (e.g., minimal medium lacking histidine) allows only the disruption spores to germinate. - [Read Spore Germination Protocol]

Category: Nucleic Acid Purification Protocols: RNA Isolation Protocols

Protocol for total RNA isolation. This method is fast and works well for preparation of total RNA.  We typically use total RNA for quantitative S1 nuclease analysis of endogenous (or in vitro) gene expression, and this method works well for this purpose. - [Read Total RNA isolation (Guanidinium Thiocyanate-Phenol-Chloroform Extraction) Protocol]