locus Protocols

Category: Genetics and Genomics: Cancer Genetics Protocols

Investigators can utilize X chromosome inactivation (methylation) to determine the clonality status of a tumor or premalignant lesion in females. The technique is based on a methylation-sensitive restriction enzyme and analysis of a polymorphic locus on the X chromosome. Clonal cell populations will show "loss" of the non-methylated allele after restriction digest. The assay can be performed on DNA recovered from microdissected samples. Both frozen tissue and fixed-embedded tissue can be used. - [Read Clonality - X Chromosome Inactivation Assay Protocol]

Category: Plant Biology Protocols: Arabidopsis Genetics Protocols

EMS is used at concentrations that induce multiple point mutations in each plant, such that mutant alleles of a specific locus are found at a rate of ~1 in 2000-5000 M2 plants. This high rate of mutagenesis makes possible the screening of relatively few plants to find those with the phenotype of interest, a particular advantage if the screen is laborious or if only a small number of genes mutate to the required phenotype. - [Read EMS Mutagenesis of Arabidopsis Seed Protocol]

Category: Pharmacology and Toxicology Protocols: Cytotoxicity Protocols

Molecular and genetic toxicology studies on gene mutation in mammalian cells In vitro. Includes: G201 Mouse Lymphoma L5178Y/tk+/Cell Gene Mutation Assay; G201-R; G202 Mouse Lymphoma L5178Y/tk+/Cell Gene Mutation Screening Assay; G203 Chinese Hamster Ovary or V79 Cell Mutation Assay at the hprt Locus; G203R. - [Read Molecular and Genetic Toxicology Studies on Gene Mutation in Mammalian Cells In Vitro]

Category: Chromatography Protocols: Affinity Chromatography Protocols

Protein complexes can be isolated by several different approaches.  For example, a protein can be tagged with an epitope such as Flag or TAP and then overexpressed in a target cell, allowing the interacting proteins to be purified.  Similarly, epitope tags can be homologously recombined into the endogenous locus ("knocked-in"), allowing protein complexes containing the tagged proteins to be isolated at their natural expression level. - [Read Overview of Affinity Purification in Combination with Mass Spectrometry Protocol]

Category: DNA Protocols: PCR Polymerase Chain Reaction Protocols: PCR Optimization Protocols

The requirement of an optimal PCR reaction is to amplify a specific locus without any unspecific by-products. Therefore, annealing needs to take place at a sufficiently high temperature to allow only the perfect DNA-DNA matches to occur in the reaction. P - [Read PCR Program Design]

Category: PCR Protocols: PCR Optimization

The requirement of an optimal PCR reaction is to amplify a specific locus without any unspecific by-products. Therefore, annealing needs to take place at a sufficiently high temperature to allow only the perfect DNA-DNA matches to occur in the reaction. P - [Read PCR Program Design]

Category: PCR Protocols

DNA prepared by PCR-mediated gene disruption can be used to transform yeast in gene replacement experiments.  This protocol uses two primers, tailed with approximately 50 nucleotides homologous to the gene of interest, that target insertion of the PCR product to that locus.  Each primer ends with a universal sequence that is designed to amplify various selectable markers from plasmid templates. - [Read PCR-Mediated Gene Disruption: One-Step Method Protocol]

Category: E Coli Protocols: E coli Genetics Protocols

Protocol for precision engineering of plant gene loci by homologous recombination cloning in Escherichia coli. Describe the basis for homologous recombination cloning in E. coli, the available tools and resources, together with a protocol for long range cloning and manipulation of an Arabidopsis thaliana gene locus, to create constructs co-ordinately driven by locus-specific regulatory elements. - [Read Precision Engineering of Plant Gene Loci by Homologous Recombination Cloning in E coli Protocol]

Category: Plant Biology Protocols: Plant Genetics Protocols

Describe the basis for homologous recombination cloning in E. coli, the available tools and resources, together with a protocol for long range cloning and manipulation of an Arabidopsis thaliana gene locus, to create constructs co-ordinately driven by locus-specific regulatory elements. - [Read Precision Engineering of Plant Gene Loci by Homologous Recombination Cloning in Escherichia Coli]

Category: Plant Biology Protocols: Arabidopsis Genetics Protocols

Protocol for precision engineering of plant gene loci by homologous recombination cloning in Escherichia coli. Includes: Key steps in the EL250 RED-HR locus rescue and engineering procedure; Primer design and plasmid constructs; AtSTM gap-repair construct; Targeting construct backbone; Preparation of electrocompetent EL250 cells; Transformation of BAC F24o1 and induction of recombinogenic function in EL250; AtSTM locus rescue from BAC F24o1 by gap-repair HR. - [Read Precision Engineering of Plant Gene Loci by Homologous Recombination Cloning in Escherichia Coli]

Category: Yeast Protocols: Yeast Genetics Protocols: YACs Protocols

Protocol for the subcloning of Yeast artificial chromosome into phage lambda. To subclone the large insert fragment of human DNA contained within a YAC into a bacteriophage lambda vector. The subclones are 15 to 23 kb in size, and can be used to identify new polymorphic markers from a known region of the genome, to map a specific locus, and/or to screen other libraries. - [Read Subcloning of Yeast Artificial Chromosomes into Phage Lambda Protocol]