source Protocols

Category: Nucleic Acid Purification Protocols

Protocol for a single-step method for the simultaneous preparation of DNA, RNA, and protein from cells and tissues. The yield of total RNA depends on the tissue or cell source, but it is generally in the range of 4-7 µg/mg starting tissue or 5-10 µg/106 cells.  IMPORTANT: Prepare all reagents used in this protocol with Diethyl pyrocarbonate (DEPC)-treated H2O. - [Read A Single-step Method for the Simultaneous Preparation of DNA, RNA, and Protein from Cells and Tissue]

Category: Chromatography Protocols

Affinity Chromatography Handbook. Google Books. - [Read Affinity Chromatography Handbook]

Category: Laboratory Model Organisms Protocols

Protocol describes the culture of marine euplotids using Dunaliella salina or D. tetiolecta as a food organism. Dunaliella tolerate a wide range of salinity, thus they are fairly easy to grow in the lab using artificial sea salts. - [Read Culturing Marine Euplotids Using Dunaliella as a Food Source Protocol]

Category: Bacterial Cell Culture Protocols: Bacterial Cell Culture Media Protocols

This protocol has been used successfully to 15N or 13C/15N label our proteins using our pET1120/BL21(DE3) expression system: Preparing M9 minimal media begins with preparing a 5x stock solution of M9 salts. Generally, M9 salts contain a nitrogen source in the form of NH4Cl. Since we want to add a labeled nitrogen source, our 5x salts are prepared minus NH4Cl. Standard 5 X M9 Minimal Media salts minus nitrogen source For 1L 5xM9 salts: - [Read Expression Protocol in M9 Minimal Media via T7 Promoter]

Category: Laboratory Model Organisms Protocols

Protocol describes the growth and concentration of the alga Chlorogonium elongatum as a food source for culturing freshwater hypotrichs. Most freshwater hypotrichs (including Oxytricha nova, O. fallax, and O. trifallax; Euplotes aediculatus and E. eurystomous; and Stylonychia lemnae) can be grown to high density with Chlorogonium as the food organism. A similar regimen can be used to prepare other food sources such as Tetrahymena or bacteria (e.g., Aerobacter aerogenes). - [Read Growth and Concentration of Chlorogonium for Culturing Freshwater Hypotrichs Protocol]

Category: Cytoskeleton Protocols: Actin Myosin Protocols

The same GFP-tagged actin construct used in cell transfection experiments has been used to produce transgenic mice. Transgenic animals allow the imaging of brain tissue in the intact animal, as acutely cut slices or as organotypic slice cultures. They also serve as a source of cells for imaging neurons at high resolution in dispersed low-density cell culture. In contrast to cells transfected in culture, where the level of actin-GFP expression in neurons varies considerably, transgenic mice... - [Read Imaging Actin in Tissue Slices from Transgenic Mouse Brain Protocol]

Category: Western Blot Protocols: General Western Blot Methods Protocols

For immunoblotting experiments, it is often important to compare the total amount of an antigen from many different sources or to learn if a particular source has the antigen under study.  In the approach described here, tissue cultures, bacteria, yeast cells, tissues, and other sources of antigens are disrupted directly in an electrophoresis sample . - [Read Immunoblotting: Preparing Cell Lysates Protocol]

Category: Immunohistochemistry Protocols

Immunostaining conditions. Includes: Antibody, Host, Source, Cat #, Antigen Retrieval, Block, Diluent, Ab Dilution and 2° antibody. - [Read Immunostaining Conditions]

Category: Laboratory Model Organisms Protocols

Protocol describes the culture of freshwater hypotrichs using the alga Chlorogonium elongatum as a food source. - [Read Mass Culture of Freshwater Hypotrichs Protocol]

Category: Microscopy Protocols: Optical Microscopy Protocols

Near-field scanning optical microscopy can achieve spatial resolution performance beyond the classical diffraction limit by employing a sub-wavelength light source or detector positioned in close proximity to a specimen. Such a sub-wavelength source usually consists of an aperture at the end of a tapered probe, which functions basically as a wave guide. Includes info.: Fiber Probe Fabrication; Pulling Method; Meniscus Etching; Selective Etching; Apertureless and Alternative Probe Designs etc. - [Read Near-Field Scanning Optical Microscopy: NSOM Probes]

Category: Primary Cell Isolation and Culture Protocols: Mammalian Cell Culture Protocols

Cryopreserved PBMCs are a common specimen source for studies of immunological responses to vaccines, immunotherapies, etc. The health and viability of cells recovered post-cryopreservation are of course critical to the success and accuracy of immunological assays performed on them. This protocol standardizes PBMC isolation and cryopreservation techniques, specifically for the assessment of thawed cells by cytokine flow cytometry. - [Read Protocol for Isolation, Cryopreservation, and Thawing of PBMCs]

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]