ideal Protocols

Category: Cell Organelle Protocols: Subcellular Fractionation Protocols

Protocol describes systems in which the membranes are allowed to float through a density gradient from a dense load zone. This is an ideal format. - [Read A Self-generated Gradient to Discriminate a Cytosolic or Membrane Location of Large Protein Complex]

Category: Cell Culture Protocols: Insect Cell Culture Protocols

The use of Ferbach flasks is an ideal method to amplify the cells and virus inoculum for the bioreactor. The method is also very practical for producing sufficient amounts of various proteins for feasibility studies using HyQ© SFX-Insect™ medium. The large surface area in this vessel enables sufficient aeration and, therefore, the cells, when they reach high density, are not oxygen depleted. - [Read Culturing of Insect Cells and Production of Baculovirus Expressed Recombinant Proteins in 2.8 Liter]

Category: DNA Protocols: DNA Extraction Protocols: DNA Extraction Polyacrylamide Gels

DNA Fragment Purification from Agarose or Acrylamide. The protocol for fragments from 200 bp to 10 kb the agarose purification is ideal.  For smaller fragments (20 bp to 400 bp) the acrylamide purification is preferred. - [Read DNA Fragment Purification from Agarose or Acrylamide]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols

Protocol for DNA fragment purification from agarose or acrylamide. For fragments from 200 bp to 10 kb the agarose purification is ideal.  For smaller fragments (20 bp to 400 bp) the acrylamide purification is preferred. - [Read DNA Fragment Purification from Agarose or Acrylamide Protocol]

Category: DNA Protocols: DNA Extraction Protocols: Agarose Gel DNA Extraction Protocols

DNA Fragment Purification from Agarose Protocol. This protocol is best for fragments from 200 bp to 10 kb the agarose purification is ideal. For smaller fragments (20 bp to 400 bp) the acrylamide purification is preferred. - [Read DNA Fragment Purification from Agarose Protocol]

Category: Transfection Protocols: Stable Transfection Protocols

CHO Lec3.2.8.1 cells have 4 independent mutations in the N and O glycosylation pathways. When cultured with alpha-glucosidase I inhibitor N-butyl-deoxynojirimycin, glycoproteins produced in CHO Lec3.2.8.1 cells are completely susceptible to Endo H digestion. Endo H cleaves chitobiose, leaving a single N-linked N-acetylglucosamine per site which is ideal for maintenance of protein solubility and special carb-protein interactions, such as between the first N-acetyl glucosamine residue and tryp. - [Read Establishment of Stable Transfectant of CHO Lec Cells Protocol]

Category: Cloning Protocols: Mutagenesis Protocols

Protocol for hydroxylamine mutagenesis of plasmid DNA is ideal for random mutagenesis of plasmid DNA which is then used in a plasmid shuffle or screen for ts mutants. - [Read Hydroxylamine Mutagenesis of Plasmid DNA Protocol]

Category: Microscopy Protocols: In Vivo Imaging Protocols

Caenorhabditis elegans, a small (adults are ~1 mm long), free-living soil nematode that feeds on bacteria, is an ideal organism for applying various live microscopy techniques. This protocol describes useful techniques for preparing C. elegans for live microscopic analysis. Details of sample preparation depend on the developmental stage of the worm to be studied. - [Read Live Imaging of Caenorhabditis elegans: Preparation of Samples]

Category: Cytogenetics Protocols

An ideal method of tissue preparation ensures both good specimen morphology and that the target molecules are in the optimum state for probe access and hybridization. DNA:DNA in situ hybridization is usually carried out on chromosome spread preparations where chromosome and nuclei are released from cells and spread on a glass microscope slide. This method yields well separated and enlarged chromosomes with good morphology which can be analyzed in transmitted light or fluorescence microscopes. - [Read Preparation of Chromosome Spreads]

Category: Cytoskeleton Protocols: Microtubules Protocols

Recycle tubulin fractions stored at -80¡C after the PC column and store the recycled tubulin in small aliquots for day-to-day use. Generally store recycled tubulin in Injection Buffer (IB) without free GTP. This is done because depolymerization appears to be much better in IB, IB is ideal for microinjections/adding tubulin to extracts, and the absence of free GTP makes polymerization with GMPCPP, a very useful GTP analog that has ~5-10X lower affinity than GTP for tubulin. - [Read Recycling Tubulin Protocol]