phase Protocols

Category: Reporter Gene Assays: Cat Assays Protocols

Protocol describing a CAT assay (liquid phase). - [Read CAT Assay (Liquid Phase) Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols

protocol describes a method for the synchronization of cell populations using centrifugal elutriation. The method relies on the fact that cell size increases linearly as cells proceed through the cell cycle. Cells of similar size (and cell cycle phase) are eluted stepwise from the cell chamber, with the smallest size (those in early G1) being eluted first. Using this procedure, it is possible to obtain relatively pure populations of cells at various points in G1, S, and G2/M. - [Read Cell Synchronization Using Centrifugal Elutriation Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Cycle Analysis Protocols

This protocol describes a method for the synchronization of cell populations using centrifugal elutriation. The method relies on the fact that cell size increases linearly as cells proceed through the cell cycle. Cells of similar size (and cell cycle phase) are eluted stepwise from the cell chamber, with the smallest size (those in early G1) being eluted first. Using this procedure, it is possible to obtain relatively pure populations of cells at various points in G1, S, and G2/M. - [Read Cell Synchronization Using Centrifugal Elutriation Protocol]

Category: Nucleic Acid Purification Protocols

Ultrafiltration is an alternative to ethanol precipitation for the concentration and desalting of nucleic acid solutions.  It requires no phase change and is particularly useful for dealing with very low concentrations of nucleic acids.  This protocol describes the use of the Microcon cartridge, a centrifugal ultrafiltration device, to concentrate and desalt nucleic acid solutions. - [Read Concentrating and Desalting Nucleic Acids with Microconcentrators Protocol]

Category: Antibody Protocols: Epitope Mapping Antibody Protocols

A set of overlapping synthetic peptides is synthesized, each corresponding to a small segment of the linear sequence of a protein antigen and arrayed on a solid phase. The panel of solid-phase peptides is then probed with a test antibody, and bound antibody is detected using an enzyme-labeled secondary antibody. This method is very rapid and can be extraordinarily successful. - [Read Epitope Mapping Using Synthetic Biotin-Labeled Peptides Protocol]

Category: Nucleic Acid Purification Protocols: RNA Isolation Protocols

Protocol for extraction and purification of total RNA using TRIzol OR TRI reagent. Includes: Homogenization for Cell Suspensions; Phase Separation; RNA Precipitation; RNA Wash;  Redissolving the RNA; Determination of RNA Concentration and Purity; Preparation of Rnase-free water. - [Read Extraction and Purification of Total RNA using TRIzol OR TRI Reagent Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: G Phase Protocols

This protocol provides a method for the synchronization of a monolayer culture of CHO cells in G1 using isoleucine deprivation. Since CHO cells can also be adapted to grow in suspension culture, this procedure can be used to obtain larger quantities of cells. When isoleucine is replaced, the cells resume growth and begin to enter S phase ~4 hours later. This method arrests almost 100% of the CHO cells in G1, and upon reversal, leads to rapid recovery of cell growth and very high cell viability. - [Read G1 Synchronization of CHO Cells by Isoleucine Deprivation Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Cycle Analysis Protocols

This protocol provides a method for the synchronization of a monolayer culture of CHO cells in G1 using isoleucine deprivation. Since CHO cells can also be adapted to grow in suspension culture, this procedure can be used to obtain larger quantities of cells. When isoleucine is replaced, the cells resume growth and begin to enter S phase ~4 hours later. This method arrests almost 100% of the CHO cells in G1, and upon reversal, leads to rapid recovery of cell growth and very high cell viability. - [Read G1 Synchronization of CHO Cells by Isoleucine Deprivation Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: S Phase Protocols

This protocol provides a method for synchronizing cells at the G1/S border using a double treatment of thymidine, which, in excess, is an inhibitor of DNA synthesis. Cells are treated once with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. - [Read G1/S Phase Synchronization using Double Thymidine Synchronization Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Cycle Analysis Protocols

This protocol provides a method for synchronizing cells at the G1/S border using a double treatment of thymidine, which, in excess, is an inhibitor of DNA synthesis. Cells are treated once with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. - [Read G1/S Phase Synchronization using Double Thymidine Synchronization Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: G Phase Protocols

This protocol provides a method for synchronizing cells at the G1/S border using a double treatment of thymidine, which, in excess, is an inhibitor of DNA synthesis. Cells are treated once with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. - [Read G1/S Phase Synchronization using Double Thymidine Synchronization Protocols]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: G Phase Protocols

This protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Cell Biology and Cell Culture: Cell Cycle Protocols: S Phase Protocols

Protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Cycle Analysis Protocols

This protocol uses the plant amino acid mimosine as a G1/S synchronizing agent. Cells are first treated with excess thymidine to accumulate the majority of them at G1/S; however, some cells will have stopped growth within the S phase. Thymidine is then removed to allow all the cells to proceed completely through the S phase. Mimosine is then added to arrest the cells at the G1/S border. When mimosine is removed, cells will begin to enter S phase within about 1 hour. - [Read G1/S Phase Synchronization Using Mimosine Arrest Protocol]

Category: Chromatography Protocols: Liquid Chromatography Protocols

Protocols and information on general HPLC column care. Includes: Silica based columns and Polymer based columns.  Protocols included: pH stability, Mechanical stability, Mobile phases (Eluents), Proper storage of HPLC columns, Equilibration time, Regeneration of a column, Regeneration of RP packings, Regeneration of NP (Normal Phase) packings, Regeneration of Ion Exchange Packings - [Read HPLC Column Care Protocols and Information]

Category: Yeast Protocols: Yeast Cell Synchrony Protocols

It is sometimes desirable to have an entire population of yeast cells that is growing synchronously or is arrested at a unique point in the cell cycle. - [Read Inducing Yeast Cell Synchrony: Dilution of Stationary-Phase Cultures Protocol]

Category: Viral Culture and Isolation Protocols: Viral Isolation Protocols

During incubation period and the course of disease, SARS virus replicates and releases from cells. The level of virus varies greatly from sample to sample. At early stage of incubation period or during the late convalescent phase, the concentration of virus is very low in all kinds of samples. Virus is also detected at extremely low concentrations in plasma during... - [Read Kit for Rapid Enrichment of SARS Virus]

Category: Molecular Imaging: Light Microscopy

Light Microscopy - Microscopes in Cell Biology. House Ear Institute. Fluorescence microscopy, Nomarski differential interference contrast, Comparison between phase contrast and interference contrast optical systems , Interference contrast, Phase contrast, Darkfield illumination, alignment of Kohler illumination system, Protocol for using oil immersion lenses, Use of immersion oil, Calculating the final magnification on the photomicrograph, vibration, The coverslip glass, Photomicroscopy. - [Read Light Microscopy - Microscopes in Cell Biology]

Category: C. elegans Protocols

At low magnification, dissection microscopes are useful, whereas at higher magnification and resolution, a wide range of optical methods can be used, including differential interference contrast (DIC) optics, phase contrast, fluorescence, polarized light, confocal, and dark field. - [Read Live Imaging of Caenorhabditis elegans: Observation of Nematodes and Data Collection Protocol]

Category: Microsphere Analysis Protocols

The role of microspheres in these screens is similar to their traditional role in immunoassays, namely as a solid phase to either enhance detection, separation, or both. The predominance of radioactive assays in high-throughput screening, along with the desire to find alternative means of detection, have led to research on substituting alternative fluorescent technologies. - [Read Microspheres for High-Throughput Screening Assays]

Category: Genetics and Genomics: Genotyping Protocols: Mutation Detection Protocols

This protocol is the first of two describing solid-phase chemical cleavage of mismatch (SpCCM), a method for the detection of mutations in genomic DNA. DNA fragments up to 2 kb in length can be analyzed to determine the position (within 10-15 bp) and identity of the mismatched nucleotide. - [Read Mutation Detection by Solid-Phase Chemical Cleavage of Mismatches Using Radioactive Probes Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols

Provides an overview of terminology and echniques unique to flow ytometry and is divided into two sections. The first section discusses technical aspects of flow cytometry which apply primarily to the instrumentation-oriented flow cytometry phase. The second section discusses electronic cell separation using flow cytometry. - [Read Overview of Flow Cytometry]

Category: Lipid Protocols

Protocol for the purificiation of demethylated sphingomyelin. Includes: Lower, chloroform phase; Upper, aqueous phase and interphase. - [Read Purification of Demethylated Sphingomyelin Protocol]

Category: Chromatography Protocols: Liquid Chromatography Protocols

Protocol details the purification and analysis of many synthetic peptides of 2-65 amino acid residues.  These peptides contain a number of ionizable or polar side chains, but do not contain secondary structural elements (such as ß-sheets) that favor supramolecular assembly. - [Read Purification of Peptides from Solid-Phase Peptide Synthesis with RP-HPLC Protocol]

Category: Nucleic Acid Electrophoresis Protocols: DNA Electrophoresis Protocols: DNA Electrophoresis in Polyacrylamide Gels Protocols

Protocol for purification of synthetic oligonucleotides by polyacrylamide gel electrophoresis. As a rule of thumb, oligonucleotides >25 nucleotides should be purified by polyacrylamide gel electrophoresis, as should oligonucleotides of any length that yield anomalous results.  After electrophoresis, the oligonucleotide is eluted from the gel and concentrated by reversed-phase chromatography on Sep-Pak C18 columns. - [Read Purification of Synthetic Oligonucleotides by Polyacrylamide Gel Electrophoresis Protocol]