length Protocols

Category: PCR Protocols: cDNA Synthesis Protocols

New RACE, a variation of RNA ligase-mediated-RACE (RLM-RACE) (Liu and Gorovsky 1993) departs from classic RACE (see 5'-End cDNA Amplification Using Classic RACE) in that an "anchor" primer is attached to the 5'-end of the mRNA before the reverse transcription step; hence the anchor sequence becomes incorporated into the first-strand cDNA if, and only if, the reverse transcription proceeds through the entire length of the mRNA of interest. - [Read 5'-End cDNA Amplification Using New RACE Protocol]

Category: PCR Protocols: AFLP PCR

Ulrich G. Mueller and L. LaReesa Wolfenbarger. Amplified fragment length polymorphisms (AFLPs) are polymerase chain reaction (PCR)-based markers for the rapid screening of genetic diversity. AFLP. TREE October 1999 - [Read AFLP genotyping and fingerprinting Review PDF]

Category: PCR Protocols: AFLP PCR

Amplified Fragment Length Polymorphisms and Microsatellites: A phylogenetic perspective. Julian P. Robinson, Stephen A. Harris. What are AFLPs and how are they produced? How AFLPs have been used? Problems? Restriction Enzymes and Primers. AFLP Reproducib - [Read Amplified Fragment Length Polymorphisms and Microsatellites]

Category: Genetics and Genomics: Cancer Genetics Protocols

Describe the methods to identify and quantitate the specific A/E9a transcript in t(8;21) patients samples relative to the AML1-ETO transcript encoding the well known full-length 752 amino acid AML1-ETO protein (AE). Includes: RNA preparation and RT-PCR; Relative quantitation of the AE9a and the AE transcripts. - [Read An Alternatively Spliced Isoform of t(8;21) Transcript Promotes Leukemogenesis]

Category: PCR Protocols: AFLP PCR

An introduction to AFLP and fAFLP. Mark E. Berres, University of Wisconsin. Amplified fragment-length polymorphism (AFLP) or its fluorescent version (fAFLP) is a PCR-based fingerprinting technology. AFLP basically involves the restriction of genomic DNA - [Read An introduction to AFLP and fAFLP]

Category: PCR Protocols: cDNA Synthesis Protocols

This method, for the selective amplification of full-length cDNA ends, involves the addition of an adapter during reverse transcription.  This method takes advantage of the propensity of Moloney murine leukemia virus reverse transcriptase (MMLV RT) to append two to four cytosines to the 3'-end of newly synthesized cDNA strands.  The additional residues are added when the enzyme reaches the 5'-cap structure at the end of the mRNA template. - [Read Cap-Switching RACE Protocol]

Category: DNA Protocols: cDNA Library Protocols

Here, the DNA-RNA hybrids synthesized in Stage 1 are converted into full-length double-stranded cDNAs. The primers for synthesis of second-strand cDNA are created by RNase H, which introduces nicks into the RNA moiety of the cDNA-mRNA hybrids. E. coli DNA polymerase I extends the newly created 3'-hydroxyl termini, using the first-strand cDNA as a template. - [Read Construction of cDNA Libraries Protocol]

Category: Cell Culture Protocols: Cell Fixing Protocols

Treating cells with paraformaldehyde leads to the establishment of chemical cross-links between free amino groups. When the cross-links join different molecules, a latticework of interactions occurs that holds the overall architecture of the cell together. Commercial formaldehyde solutions are not recommended, because they lack the advantages of using a variable-length polymer, and the cells will simultaneously be fixed with the alcohol (usually methanol). - [Read Fixing Attached Cells in Paraformaldehyde Protocol]

Category: C. elegans Protocols: C. elegans Fixing Protocols

Bouin’s fixative is a particularly good choice for worms because it penetrates dense tissues well and is extremely good for fixing antigens. Like all strong fixatives, however, it is unsuitable for some antibody-antigen pairs. In such cases, the length of time in the Bouin’s fixative can be shortened, or paraformaldehyde fixation can be used instead. - [Read Fixing Caenorhabditis elegans in Bouin’s Fixative Protocol]

Category: Gene Delivery Protocols: Biolistics Protocols

The technique has many advantages—plasmids may be used for delivery, DNA theoretically can be delivered to any cell type, and genes may be delivered to cells in vitro, ex vivo, or in vivo. DNA-coated gold particles are distributed evenly along the length of the tubing, which is subsequently cut into short sections of cartridges to be used in a gene gun. The Helios Gene Gun uses a pulse of helium to launch the DNA-coated particles, spreading them onto the target cells. - [Read Gene Delivery to Skin Using Biolistics Protocol]

Category: DNA Protocols: cDNA Library Protocols: cDNA Library Construction Protocols

Shotgun sequencing of a large segment of DNA involves random fragmentation of the target region into smaller segments that are subsequently cloned into a bacteriophage M13 vector. The goal is to create a library of overlapping clones that provide at least fivefold coverage over the entire length of the target fragment. - [Read Generation of a Library of Randomly Overlapping DNA Inserts Protocol]

Category: Yeast Protocols: Yeast Protein Protocols: Yeast Protein Protein Interactions Protocols

This protocol describes the first step in constructing an array: amplification of the predicted ORFs that are to be included in the array. Gene-specific primers containing vector-specific flanking sequences that facilitate recombinational cloning are used to amplify each ORF. A secondary amplification can be used to extend the length of the homologous vector sequence flanking the ORF. - [Read Genome-Wide Analysis of Protein-Protein Interactions Using a Two-Hybrid Array: Amplification of ORFs]

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: Nucleic Acid Purification Protocols: DNA Isolation Protocols: DNA Isolation from Mammalian Cells Protocols

Method of choice when large amounts of mammalian DNA are required, for example, for Southern blotting (Rapid Isolation of Mammalian DNA, Rapid Isolation of Yeast DNA, Southern Blotting: Capillary Transfer of DNA to Membranes) or for construction of genomic libraries in bacteriophage {lambda} vectors.  Approximately 200 µg of mammalian DNA, 100-150 kb in length, is obtained from 5 x 107 cultured aneuploid mammalian cells (e.g., HeLa cells). - [Read Isolation of High-molecular-weight DNA from Mammalian Cells Using Proteinase K and Phenol Protocol]

Category: Plant Biology Protocols: Plant Genetics Protocols

The preparation of expressional cDNA libraries for use in the yeast two-hybrid system is quick and efficient when using the dedicated Clontech™ product, the MATCHMAKER Library Construction and Screening Kit 3. This kit employs SMART technology for the amplification of full-length cDNAs, in combination with cloning using homologous recombination. - [Read Isolation of Plant Transcription Factors Using a Modified Yeast One-Hybrid System]

Category: PCR Protocols: Standard PCR Protocol

Protocol can be used to amplify DNA up to 25 kb in length.  To reduce the chance of contamination with exogenous DNAs, prepare and use a special set of reagents and solutions for PCR only.  Bake all glassware for 6 hours at 150°C and autoclave all plasticware. - [Read Long PCR 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]

Category: Nucleic Acid Purification Protocols: DNA Isolation Protocols: Genomic DNA Isolation Protocols

Protocol is used to establish conditions for restriction enzyme digestion of eukaryotic genomic DNA that will generate fragments of a size appropriate for construction of genomic libraries.  To construct a genomic library, the average length of the starting genomic DNA should be at least eight times the capacity of the vector. - [Read Partial Digestion of Eukaryotic DNA for Use in Genomic Libraries: Pilot Reactions Protocol]

Category: PCR Protocols: PCR Optimization

PCR primer design and pcr reaction optimization. Ed Rybicki. Factors Affecting the PCR, Denaturing Temperature and Time, Annealing Temperature and Primer Design, Primer Length, Degenerate Primers, Elongation , Temperature and Time, Reaction Buffer, Cycl - [Read PCR primer design and pcr reaction optimization.]

Category: Genetics and Genomics: Genotyping Protocols: PCR Genotyping

Using molecular marker technology in studies on plant genetic diversity. DNA-based technologies: PCR-based technologies Amplified fragment length polymorphisms (AFLPs. Includes: AFLP technology, step by step; DNA digestion and ligation; PCRs and detection; Summarising the technology. - [Read PCR-Based Technologies Amplified Fragment Length Polymorphisms (AFLPs)]

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]

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

Recovery of bands of DNA from agarose gels by electrophoresis onto a sliver of DEAE-cellulose membrane can be performed simultaneously on many samples and reliably gives high yields of fragments between 500 bp and 5 kb in length. - [Read Recovery of DNA from Agarose Gels: Electrophoresis onto DEAE-cellulose Membranes Protocol]

Category: RNAi Technology Protocols: RNAi Drosophila Protocols

Protocol describes how to prepare double-stranded RNA (dsRNA) for RNA interference in Drosophila by synthesis of individual RNA strands from linearized plasmid templates, followed by annealing of the strands.  DsRNA molecules with a length of 500-800 bp seem to be most active.  The dsRNA can be made from cDNA or genomic DNA templates, as long as most of the dsRNA corresponds to presumptive exon sequence. - [Read Synthesis of dsRNA for RNAi in Drosophila: Plasmid Template Method Protocol]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

A synthetic oligonucleotide annealed to single-stranded DNA derived from a recombinant bacteriophage M13 or phagemid template is used to prime the synthesis of complementary radiolabeled DNA. Synthesis is catalyzed by the Klenow fragment of E. coli DNA polymerase I, which extends the annealed primer for various distances along the single-stranded template DNA. - [Read Synthesis of Single-stranded DNA Probes of Defined Length from Bacteriophage M13 Templates Protocol]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

Technique yields a heterogeneous population of short radiolabeled molecules 200-300 nucleotides in length. These probes are synthesized, as in Synthesis of Single-stranded DNA Probes of Defined Length from Bacteriophage M13 Templates, by extension of an oligonucleotide primer on a single-stranded DNA template. The radiolabeled products of the reaction are then separated from the template by electrophoresis through a denaturing gel from which they are eluted directly into hybridization buffer. - [Read Synthesis of Single-stranded DNA Probes of Heterogeneous Length from Bacteriophage M13 Templates]