mapping Protocols

Category: Cytogenetics Protocols: Fluorescent In Situ Hybridization FISH Protocol

Additional slide pre-treatment for mapping smaller insert clones for FISH. Sanger Institute. - [Read Additional slide pre-treatment for mapping smaller insert clones]

Category: PCR Protocols: AFLP PCR

AFLPs on the ABI 3100. Maize Mapping Project - [Read AFLPs on the ABI 3100]

Category: BACs Bacterial Artificial Chromosome Protocols

Protocol presents the amplification of insert end sequences from bacterial artificial chromosome clones using TAIL-PCR. The amplified products are suitable as probes for chromosome walking and genome mapping and as templates for direct sequencing. The protocol has been used in rice genome studies. - [Read Amplification of Insert End Sequences from BACs Clones by Thermal Asymmetric Interlaced PCR]

Category: DNA Protocols: Chromatin Immunoprecipitation Protocols

Mapping Protein/DNA Interactions by Cross-Linking Examining the Distribution of Telomeric and DNA Repair Proteins by ChrIP and Real-Time PCR - [Read Chromatin-IP (ChrIP) Protocol]

Category: Mass Spectrometry Protocols

Deamidation in Proteins and Peptides. Informational page by Glen Teshima. RPLC, HIC, Peptide mapping of proteolytic digests (LC-MS), Protein carboxyl methyltransferase (PIMT). - [Read Deamidation in Proteins and Peptides]

Category: Plant Biology Protocols: Plant Genetics Protocols

Microsatellite markers, also referred to as STMS (SequenceTagged Microsatellite Sites) or STR (Short Tandem Repeats) are widely used as molecular markers for intraspecific genotyping, molecular mapping and breeding purposes. The method described is an efficient,fast and relatively inexpensive way to obtain microsatellite markers without post-cloning selection methods. So far, the method has been successful in onion (Allium cepa L.), a plant with a large genome and for pathogenic fungi. - [Read Enrichment for Microsatellite Sequences in Onion (Allium cepa L.) Protocol]

Category: Antibody Protocols: Epitope Mapping Antibody Protocols

The simplest way to determine whether two monoclonal antibodies bind to distinct sites on a protein antigen is to carry out a competition assay. The assay can be used with antibodies that bind both conformational and linear epitopes, and it is most useful in the analysis of monoclonal antibody specificity because polyclonal sera typically recognize multiple different epitopes. - [Read Epitope Mapping by Competition Assay 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: Fungi Protocols: Aspergillus Protocols

Compendium of protocols for using Aspergillus nidulans in genetic, molecular, and cell biological investigations, originally written for members of my research group. It also summarizes our common growth media and nutritional supplements, many of which originally appeared elsewhere but now are difficult to locate. Includes: Growth and storage of Aspergillus nidulans conidia; Nutritional supplements for our common auxotrophies; Double mutants; Mitotic mapping - assigning genes to chromosomes; etc - [Read Fundamentals of Growth, Storage, Genetics and Microscopy of Aspergillus nidulans Protocols]

Category: Plant Biology Protocols: Arabidopsis Genetics Protocols

Protocol for genetic mapping of Arabidopsis centromeres using PCR-based markers. Includes: DNA markers facilitate genome analysis; Centromere mapping using tetrad analysis; Preparation of DNA from frozen plant tissue. - [Read Genetic Mapping of Arabidopsis Centromeres Using PCR-Based Markers Protocol]

Category: C. elegans Protocols: C. elegans Genetics Protocols

A guide to genetic mapping in C. elegans. Includes: Introduction and basics; Two-point mapping; Three-point mapping; Deficiency and duplication mapping; Basics of SNP mapping; Mapping dominant mutations; Mapping suppressor/enhance mutations; Mapping of synthetic mutations. - [Read Guide to Genetic Mapping in C. elegans]

Category: DNA Protocols: SNP Protocols

High-resolution SNP mapping by denaturing HPLC. A SNP mapping procedure that relies on resolving polymorphisms by denaturing HPLC without the necessity of determining the nature of the SNPs. They demonstrate the use of denaturing high-performance liquid chromatography to identify mutations in the candidate genes and to fine-map chromosomal breakpoints. - [Read High-resolution SNP mapping by denaturing HPLC]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to use duplication-generating rearrangements in mapping. - [Read How to Use Duplication-Generating Rearrangements in Mapping]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to use multiply marked multicent strains for mapping genes and translocation breakpoints. - [Read How to Use Multiply Marked Multicent Strains for Mapping Genes and Translocation Breakpoints]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to use RFLP for mapping cloned genes. - [Read How to Use RFLP for Mapping Cloned Genes]

Category: Mass Spectrometry Protocols

Peptide Mapping Analysis Techniques. Dr.Aebersold, Vrije Universiteit Amsterdam - [Read In-gel digestion of proteins for peptide fingerprint mapping]

Category: C. elegans Protocols: C. elegans Genetics Protocols

Protocol for mapping C. elegans mutants using STS polymorphisms. - [Read Mapping C. elegans Mutants using STS Polymorphisms Protocol]

Category: DNA Protein Interactions Protocols: Dnase Footprinting Assay Protocols

Protocol describes how isolated nuclei are incubated with varying amounts of Dnase I. Genomic DNA is then isolated from the nuclei and digested with a restriction enzyme, analyzed by gel electrophoresis, and probed by Southern hybridization. - [Read Mapping Dnase-I-hypersensitive Sites 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: Nucleic Acid Purification Protocols

Preparations of RNA containing an mRNA of interest are hybridized to a complementary single-stranded DNA probe.  At the end of the reaction nuclease S1 is used to degrade unhybridized regions of the probe, and the surviving DNA-RNA hybrids are then separated by gel electrophoresis and visualized by autoradiography or Southern hybridization.  Method used to quantitate RNAs, to map the positions of introns, and to identify the locations of 5' and 3' ends of mRNAs on cloned DNA templates. - [Read Mapping RNA with Nuclease S1 Protocol]

Category: Nucleic Acid Modification Protocols: Nucleic Acid Radiolabeling Protocols

Preparations of RNA containing an mRNA of interest are hybridized to a radiolabeled single-stranded RNA probe. The method can be used to quantitate RNAs, to map the positions of introns, and to identify the locations of 5' and 3' ends of mRNAs on cloned DNA templates. - [Read Mapping RNA with Ribonuclease and Radiolabeled RNA Probes Protocol]

Category: Cytogenetics Protocols

Protocol describes a recently developed method — methylation-specific digital karyotyping (MSDK) — that enables comprehensive and unbiased genome-wide DNA methylation analysis. Using a combination of a methylation-sensitive mapping enzyme (for example, AscI) and a fragmenting enzyme (for example, NlaIII), short sequence tags can be obtained and uniquely mapped to genome location. - [Read Methylation-Specific Digital Karyotyping Protocol]

Category: Fungi Protocols: Neurospora Protocols

Protocol guide for the N. crassa yeast artificial chromosome library. Includes: Chromosome Walking; Hybridization screening of the YAC library; YAC restriction mapping and contig building; Preparation of chromosomal DNA plugs of YAC clones; Partial restriction enzyme digestion of YAC DNA plugs; Using CHEF gel analysis to resolve YAC clones; Southern Hybridization; Isolation of terminal restriction fragments from cloned DNA inserts in YAC clones; etc. - [Read Protocol Guide for the N. crassa Yeast Artificial Chromosome Library]

Category: PCR Protocols: PCR Cloning Protocols

In this protocol sequences cloned in standard bacteriophage or plasmid vectors are amplified in PCRs containing primers targeted to flanking vector sequences.  The amplified fragments can be analyzed by gel electrophoresis, DNA sequencing, and/or restriction mapping.  Many colonies or plaques can be assayed simultaneously. - [Read Rapid Characterization of DNAs Cloned in Prokaryotic Vectors Protocol]

Category: DNA Protocols: SNP Protocols

Genetic mapping and manipulation: Chapter 4-SNPs: Introduction and two-point mapping. The SNP database and other information. wormbook.org - [Read SNPs: Introduction and two-point mapping]