cleavage Protocols

Category: Molecular Biology Protocols: Restriction Enzyme Digestion

Very detailed class protocol for Analysis of DNA by Restriction Enzyme Cleavage and Agarose Gel Electrophoresis. David Ng, UBC. - [Read Analysis of DNA by Restriction Enzyme Cleavage and Agarose Gel Electrophoresis]

Category: Cell Biology and Cell Culture: Apoptosis Protocols: Apoptosis Analysis

Analysis of DNA Fragmentation Using Agarose Gel Electrophoresis Shailaja Kasibhatla et al. This protocol provides a qualitative method for assessing cell death by detecting DNA fragments using agarose gel electrophoresis. One of the classic features of apoptosis is the cleavage of the genomic DNA into oligonucleosomal fragments represented by multiples of 180-200 bp. Visualizing these fragments can aid in characterizing an apoptotic event. May be combined with more quantitative methods. - [Read Analysis of DNA Fragmentation Using Agarose Gel Electrophoresis (Subscription Required)]

Category: Molecular Biology Protocols: Restriction Enzyme Digestion

Cleavage Efficiency Close to the Termini of PCR Fragments. List of restriction enzymes and their cleavage efficiencies near the ends of DNA. Fermentas - [Read Cleavage Efficiency Close to the Termini of PCR Fragments]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

Protocol describes three standard methods to construct bacteriophage M13 recombinants: (1) ligating insert DNA to a linearized vector, prepared by cleavage of M13 RF with a single restriction enzyme; (2) using alkaline phosphatase to suppress self-ligation of the linearized vector, and (3) using M13 RF cleaved with two restriction enzymes for directional cloning. - [Read Cloning into Bacteriophage M13 Vectors Protocol]

Category: Chromatography Protocols: Liquid Chromatography Protocols

Protocol for desalting of peptides and protein mixtures by RP-HPLC techniques. The RP-HPLC technique can be used to "desalt" peptide or protein samples derived from extraction procedures, from chemical reactions such as reductive alkylation in the presence of urea or guanidine hydrochloride, citraconylation, iodination, or cyanogen bromide cleavage, or recovered from other chromatographic separation. - [Read Desalting of Peptides and Protein Mixtures by RP-HPLC Techniques Protocol]

Category: Mouse Protocols: Mouse Embryology Protocols

Protocol describes a method for disaggregating embryos and the ICM of blastocysts into individual cells. - [Read Disaggregating Cleavage-Stage Embryos and the Inner Cell Mass of Blastocysts into Individual Cells]

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

The double-stranded DNA of recombinant plasmid, phagemid, or bacteriophage M13 replicative form DNA is digested with two restriction enzymes whose sites of cleavage both lie between one end of the target DNA and the binding site for universal primer. The enzyme that cleaves nearer the target sequence must generate either a blunt end or a recessed 3' terminus; the other enzyme must generate a four-nucleotide protruding 3' terminus. - [Read Generation of Sets of Nested Deletion Mutants with Exonuclease III Protocol]

Category: DNA Protein Interactions Protocols: Dnase Footprinting Assay Protocols

Dnase I is used to fragment a radiolabeled target DNA in the presence and absence of a nuclear extract.  A "footprint" is generated when a protein binds to the target and protects a specific segment of DNA from the nucleolytic activity of Dnase I. By comparing the electrophoretic mobility of the Dnase I cleavage products to those of a sequence ladder derived from the same DNA fragment, the position(s) of the DNA sequences recognized by DNA-binding proteins can be determined. - [Read Mapping Protein-binding Sites on DNA by Dnase I Footprinting Protocol]

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]