removed Protocols

Category: Protein Protocols: Immunoprecipitation Protocols

Antibody-antigen complexes are removed from solution by addition of an insoluble form of an antibody binding protein such as Protein A, Protein G or second antibody. Immunoprecipitation protocols / methodology and technical background information. P.J. Ha - [Read Analysis of Proteins by Immunoprecipitation]

Category: Plant Biology Protocols

Protocol can be used for clearing intact non-ovule materials of arabidopsis, which can then be observed under Normarski optics. This is an efficient way to analyse root, seedling even flower development without sectioning. This protocol could also be used for clearing GUS stained material, after chlorophyll is removed by 70% ethanol. - [Read Clearing Arabidopsis Non-Ovule Materials With the HCG Solution Protocol]

Category: Xenopus Protocols: Xenopus Injection Protocols

Differences in injection of X. laevis and X. tropicalis. Includes: X. tropicalis lays eggs about 4 hours after a boost of hCG; In vitro fertilization is not nearly as efficient in trops compared to laevis; X. tropicalis embryos are much softer than X. laevis embryos; X. tropicalis embryos whose jelly coats are removed by cysteine have a loose sticky vitelline membrane; X. tropicalis do not have a "summer slump". - [Read Differences in Injection of X. laevis and X. tropicalis]

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: Nucleic Acid Modification Protocols: Nucleic Acid Labeling Protocols

Hybridization is carried out in conventional aqueous solvents at a temperature well below the predicted melting temperature.  Nonspecific hybrids are then removed by washing at high stringency in buffers containing quaternary salts.  Tetramethylammonium chloride (TMACl) is used with probes that are 14-50 nucleotides in length, whereas tetraethylammonium chloride (TEACl) is used with longer oligonucleotides. - [Read Hybridization of Oligonucleotide Probes in Aqueous Solutions Protocol]

Category: Immunology: Immunoprecipitation Protocols: Protein Immunoprecipitation Protocols

To reduce backgrounds and to improve the signal-to-noise ratio, an antibody that does not recognize the antigen being studied can be added to the lysate and processed as for a normal immunoprecipitation. Any nonspecific proteins that might contaminate the final immunoprecipitation step are presumably removed with this irrelevant antibody. - [Read Immunoprecipitation: Preclearing the Lysate Protocol]

Category: DNA Protocols: DNA Sequencing Protocols: Big Dye Protocols

Protocol describes the purification, quantification, and subsequent sequencing of amplified DNA fragments using PCR. Excess nucleotides are removed from the initial PCR products using spun columns, and the products are quantified using fluorometry. - [Read Nonradioactive Cycle Sequencing of PCR-Amplified DNA Protocol]

Category: Viral Manipulation Protocols: Phage Lamda Manipulation Protocols

Many replacement vectors (e.g., the EMBL series, {lambda}2001, and {lambda}DASH) contain a series of restriction sites, arranged in opposite orientations, at each end of the central stuffer fragment. Digestion of these vectors with two different restriction enzymes yields left and right arms, a stuffer fragment, and short segments of the polycloning sites. These can easily be removed from the arms by differential precipitation with isopropanol or spun-column chromatography. - [Read Preparation of Bacteriophage lambda DNA Cleaved with Two Restriction Enzymes Protocol]

Category: Antibody Protocols: Antibody Production Protocols

This protocol describes how antibodies that react with bacterial-encoded proteins may be removed from polyclonal antisera by incubation with a bacterial lysate. - [Read Removal of Cross-reactive Antibodies from Antiserum: Incubation with E. coli Lysate]

Category: Antibody Protocols: Antibody Production Protocols

Antibodies directed against bacterial and phage-encoded proteins can be removed from sera by incubation with nitrocellulose filters impregnated with lysates of uninfected or phage-infected E. coli. - [Read Removal of Cross-reactive Antibodies from Antiserum: Pseudoscreening Protocol]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols

Ethidium bromide is removed from DNA by phase extraction with organic solvents. - [Read Removal of Ethidium Bromide from DNA by Extraction with Organic Solvents Protocol]

Category: Nucleic Acid Purification Protocols: RNA Isolation Protocols: RNA Isolation fromTissues or Cultured Cells Protocols

Protocol is the second in a set of three, describing fluorescent mRNA differential display (FDD or FDDRT-PCR).  For the purposes of FDD gene expression analysis, as well as any other RNA-based gene expression technologies, contaminating genomic DNA must be removed before reverse transcription and subsequent PCR. - [Read Removal of Genomic DNA from Total RNA for Use in Fluorescent mRNA Differential Display Protocol]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols: DNA Plasmid Preps Protocols

High-molecular-weight RNA and proteins can be precipitated from preparations of plasmid DNA by high concentrations of LiCl and removed by low-speed centrifugation. - [Read Removal of Small Fragments of Nucleic Acid from Preparations of Plasmid DNA by Precipitation with Li]

Category: Immunology: Mononuclear Cell Isolation Protocols: T-Cell Isolation Protocols

Protocol describes a convenient, although imprecise, means of enriching T cells through removal of accessory and B cells; use of nylon wool is preferred if both of the latter subsets are to be removed, while Sephadex is used when the goal is primarily to remove accessory cells. - [Read T Cell Enrichment By Nonadherence to Nylon Protocol]