genes Protocols

Category: Plant Biology Protocols: Plant Genetics Protocols

AFLP was designed as a highly sensitive method for DNA fingerprinting to be used in a variety of fields. We are using this technology to generate DNA based markers for cloning genes involved in phototropic responses in higher plants that have only been identified genetically by mutant phenotype. Protocol includes: Generate polymorphic recombinant F2 (or F3) population; Isolate genomic DNA; Restriction of DNA; Ligation of adapters; Pre-amplification of template DNA; AFLP-PCR; etc. - [Read AFLP For Positional Cloning]

Category: PCR Protocols: AFLP PCR

Mannie Liscum and Paul Oeller. Department of Plant Biology. Carnegie Institution of Washington, Stanford. AFLP technology is used here to generate DNA based markers for cloning genes involved in phototropic responses in higher plants that have only been i - [Read AFLP: not only for fingerprinting, but for positional cloning]

Category: Cytogenetics Protocols: Spectral Karyotyping SKY Protocols

SKY has been applied to various tumor groups including hematological malignancies, sarcomas, carcinomas and brain tumors, with the intent of identifying specific chromosomal abnormalities that may provide insight to the genes involved in the disease process as well as identifying recurrent cytogenetic markers for clinical diagnosis and prognostic assessment. - [Read Applications of SKY in Cancer Cytogenetics]

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

The procedure is to mutagenize a large population of worms with trimethylpsoralen and UV irradiation, set up 1152 subpopulations, screen DNA made from this library for deletions in specific genes by nested PCR, and then to recover single worms carrying the deletions through a sib-selection process. - [Read C. elegans Gene Knockout Protocol]

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

Protocol for cloning genes from a phage library. Includes: Titer and plate out phage; Lift plaques onto filters and prepare them for screening; Make a probe; Hybridize the probe to the filters; Wash the filters and expose to film; Purify putative plaques; Excise plasmid from the desired phage. - [Read Clone Genes From a Phage Library Protocol]

Category: E Coli Protocols: E coli Genetics Protocols

Protocol for Colorimetric Assay to Identify Putative Ribofuranosylaminobenzene 5'-Phosphate Synthase Genes. The production of active RFAP synthase from Methanothermobacter thermautotrophicus was achieved by coexpression of the gene MTH0830 with a molecular chaperone. This is the first direct biochemical identification of a methanogen gene that codes for an active RFAP synthase. - [Read Colorimetric Assay to Identify Putative Ribofuranosylaminobenzene 5'-Phosphate Synthase Genes]

Category: Cytogenetics Protocols: In Situ Hybridization Tissue Sections Protocols

Protocol for detection of even-skipped transcripts in drosophila embryos with PCR/DIG-labeled DNA probes. This protocol has been used to detect the transcript distribution of a number of genes by in situ hybridization, including evenskipped and seven-up, in whole mount Drosophila embryos, and engrailed Antennapedia in whole mount grasshopper embryos. Includes: Probe labeling; Evaluation of labeling reaction; Preparation of embryos, hybridization and detection.
 - [Read Detection of Even-Skipped Transcripts in Drosophila Embryos with PCR/DIG-Labeled DNA Probes Protocol]

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

The goal of this method is to identify transcriptionally active genes in cloned segments of genomic DNA. The protocol uses hybridization and affinity purification to recover biotin-labeled cDNAs that bind to a 500-kb segment of human DNA cloned in a BAC vector. However, the method can be easily adapted to other clones of genomic DNAs cloned in high-capacity vectors. - [Read Direct Selection of cDNAs with Large Genomic DNA Clones 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: E Coli Protocols: E coli Protein Protocols

Protocol for the expression of cloned genes in E. coli using IPTG-inducible promoters. Protocol describes how (1) to clone cloned sequences encoding open reading frames in plasmids carrying IPTG-inducible promoters, (2) to optimize expression of target proteins in transformants carrying these recombinants, and (3) to scale-up production of foreign proteins. - [Read Expression of Cloned Genes in E. coli Using IPTG-inducible Promoters Protocol]

Category: Viral Manipulation Protocols: Phage Lamda Manipulation Protocols

Protocol describes how (1) to clone cloned sequences encoding open reading frames in plasmids carrying bacteriophage {lambda} pL promoters, (2) to optimize expression of target proteins in transformants carrying these recombinants, and (3) to scale-up production of foreign proteins. - [Read Expression of Cloned Genes in E. coli Using the Bacteriophage lambda pL Promoter Protocol]

Category: E Coli Protocols: E coli Protein Protocols

Protocol for expression of cloned genes in E. coli using the bacteriophage lambda pL promoter. Protocol describes how (1) to clone cloned sequences encoding open reading frames in plasmids carrying bacteriophage lambda pL promoters, (2) to optimize expression of target proteins in transformants carrying these recombinants, and (3) to scale-up production of foreign proteins. - [Read Expression of Cloned Genes in E. coli Using the Bacteriophage lambda pL Promoter Protocol]

Category: E Coli Protocols: E coli Protein Protocols

Protocol for the expression of cloned genes in E. coli using the bacteriophage T7 promoter. Protocol describes how (1) to clone cloned sequences encoding open reading frames in plasmids carrying bacteriophage T7 promoters, (2) to optimize expression of target proteins in transformants carrying these recombinants, and (3) to scale-up production of foreign proteins. - [Read Expression of Cloned Genes in E. coli Using the Bacteriophage T7 Promoter Protocol]

Category: Plant Biology Protocols: Arabidopsis Genetics Protocols

Forward genetics is used to identify genes that are involved in particular biological processes. For example, genes required for disease resistance can be found by identifying mutants with reduced or increased disease resistance, genes that control flower development can be identified by searching for mutants with altered flower morphology, and genes encoding enzymes for tryptophan biosynthesis can be identified by searching for mutants that require exogenous tryptophan for growth. - [Read Forward Genetics in Arabidopsis: Finding Mutations that Cause Particular Phenotypes 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: 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: E Coli Protocols: E coli Genetics Protocols

Protocol for the generation of gene deletions and gene replacements in Escherichia coli O157:H7 using a temperature sensitive allelic exchange system. Technology requires flanking DNA to be cloned into a temperature sensitive vector but the resulting clone allows great flexibility for further modification of the target sequence. It is therefore highly suited to the study of genes in which several rounds of changes are envisaged. - [Read Generation of Gene Deletions and Gene Replacements in Escherichia coli Protocol]

Category: Microarray Protocols: Microarray Analysis Protocols

Genome-wide analysis of data generated on the Affymetrix 10K Xba 142 arrays for identification of regions with high probability to contain genes responsible for Micronodular (non-pigmented) Adrenocortical Hyperplasia. - [Read Genome-Wide Analysis Protocol]

Category: Real Time PCR

Genotyping Ts65Dn mice is based on doing simultaneous quantitative PCR amplification of a gene or genes in the Ts65Dn chromosome and a control gene on another chromosome (in this case Apob) and comparing the average change (delta) in threshold cycle (CT) - [Read Genotyping Mice Using Real Time]

Category: Primary Cell Isolation and Culture Protocols: Mammalian Cell Culture Protocols

The procedures involve the isolation and growth of primary cell cultures from rodent and human tissue as well as the use of viral vectors for the introduction and expression of mammalian genes in cells in culture and in live rodents. - [Read Growth of Primary Cell Culture and Viral Vector Handling Protocols]

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 identify and score genes that confer vegetative (heterokaryon) incompatibility. - [Read How to Identify and Score Genes that Confer Vegetative (Heterokaryon) Incompatibility]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to introgress genes from one species to another. - [Read How to Introgress Genes From one Species to Another]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to name and symbolize genes at previously unnamed loci. - [Read How to Name and Symbolize Genes at Previously Unnamed Loci]

Category: Fungi Protocols: Neurospora Protocols

Information and tips on how to use asci for obtaining double mutants of genes that show epistasis or are phenotypically similar. - [Read How to Use Asci for Obtaining Double Mutants]