gene Protocols

Category: RNAi Technology Protocols: RNAi Drosophila Protocols

Protocol describes how subcellular-sized particles are accelerated to high velocity to carry double-stranded RNA (dsRNA) into Drosophila embryos.  The major advantage of this procedure over microinjection (Microinjection of dsRNA into Drosophila Embryos) is that particle bombardment is easier and faster to perform.  In addition, the mechanical trauma received is far less than by microinjection, allowing better survival of embryos and fewer phenotypic artifacts. - [Read Delivery of dsRNA into Drosophila Embryos by Gene Gun Protocol]

Category: Plant Biology Protocols: Plant Genetics Protocols

Virus-induced gene silencing (VIGS) uses a virus to deliver a sequence from a gene of interest into a host plant. The virus carrying the fragment of the gene of interest must be capable of replication if dsRNA is to be produced. One or two leaves are inoculated with Agrobacterium strains carrying the VIGS vector possessing the gene fragment. The virus then replicates and spreads throughout the plant, mediating silencing. - [Read Delivery of dsRNA into Plants by VIGS Methodology]

Category: Fungi Protocols: Fungi Genetics Protocols

Standard operating procedure for the determination of tissue fungal burden utilizing quantitative real time polymerase chain reaction (QPCR). This standard operating procedure will provide information on how to assess fungal tissue burden of infected animals by use of a single copy (FKS) or multicopy gene (18s RNA) to assess the number of fungal cell nuclei present. - [Read Determination of Tissue Fungal Burden Utilizing Quantitative Real Time Polymerase Chain Reaction]

Category: DNA Protocols: DNA Cloning

Agarose gel purification, Annealing and extending, oligonucleotides, Ethanol Precipitation, Ligation Miniprep, Oligonucleotide purification, Recovering DNA bands, Restriction digest Gene Clean. The Hu Lab. - [Read DNA cloning Procedures]

Category: Microinjection Protocols: Microinjection of DNA Protocols

For microinjection into cells, high-quality plasmid DNA is purified using standard procedures. The resulting preparation is then delivered into the microinjection needle by either a back-filling or a forward-filling approach. - [Read DNA Preparation and Needle Loading for Gene Delivery by Microinjection Protocol]

Category: Transfection Protocols

Protocol should be viewed as a starting point for systematic optimization of transfection mediated by lipofecting agents. Once a positive signal has been obtained from a transfected plasmid carrying a standard reporter gene, optimal conditions for transfection can be established by systematic variation of parameters such as the initial cell density, the amount and purity of DNA, the media and serum, and the time of exposure of the cells to the cationic-lipid-DNA complex. - [Read DNA Transfection Mediated by Lipofection Protocol]

Category: Reporter Gene Assays

Protocol describing ecdysone as regulator of inducible gene expression in mammalian cells. - [Read Ecdysone as Regulator of Inducible Gene Expression in Mammalian Cells]

Category: Mouse Protocols: Mouse Genetics Protocols

Protocol describes a method for electroporating DNA into ES cells, as well as selection methods. Pilot studies should be performed to optimize the conditions for each DNA construct. The selection method described here is one of the most complex. It involves targeting constructs in which the bacterial neomycin-resistance gene disrupts the coding sequence of the mouse gene. - [Read Electroporating DNA into Embryonic Stem (ES) Cells and Selection Methods Protocol]

Category: Cell Biology and Cell Culture: Cell Electroporation Protocols

The protocol uses a Bio-Rad Gene Pulser II apparatus to electroporate DNA into human cell lines. Dr. Frank, Arthritis and Immunology Program, Oklahoma City Medical Research Foundation - [Read Electroporation of Eukaryotic Cells]

Category: Cell Biology and Cell Culture: ES Stem Cell Biology and Culture: ES Cell Growth Media and Requirements

Reference: Michael P. Matise, Wotjek Auerbach and Alexandra L. Joyner (2000). Gene targeting: a practical approach. Protocol excerpted from Chapter 3, Production of targeted embryonic stem cell clones. Alexandra L. Joyner (ed.), 2nd edition, Oxford Unive - [Read Embryonic Stem Cell growth media Requirements - Taconic Transgenics]

Category: DNA Microarray Protocols

This protocol describes the steps required to produce a cDNA microarray. Gene-specific DNA is produced by PCR amplification of purified template plasmid DNAs from cloned ESTs. The PCR product is purified by ethanol precipitation, thoroughly resuspended in - [Read Fabrication Protocol for DNA Microarrays]

Category: PCR Protocols: cDNA Synthesis Protocols

This method of first strand cDNA synthesis is more efficient than Ready-to-Go beads.  You can use as little as 100ng total RNA and still detect you gene expression in PCR. - [Read First strand cDNA synthesis with Super Script II Protocol]

Category: Microbiology: Bacterial Competent Cells Preparation E.Coli

Frozen Competent E.Coli Cells. Methods and protocol for freezing E.Coli Bacteria Competent Cells in aliquots for later use re-use. (Inoue et al., 1990 Gene 96:23). Koshland. - [Read Frozen Competent E.Coli Cells]

Category: Microinjection Protocols: Microinjection of DNA Protocols

This protocol describes a method for constant-flow microinjection using the Pneumatic PicoPump (World Precision Instruments). This type of system is very simple and can be assembled on a relatively low budget. In this method, a constant flow of sample is delivered from the tip of the pipette, and the amount of sample injected into the cell is determined by how long the pipette remains in the cell. - [Read Gene Delivery by Direct Injection (Microinjection) Using a Controlled-Flow System Protocol]

Category: Microinjection Protocols: Microinjection of DNA Protocols

This protocol describes a method for pulsed-flow microinjection using the Eppendorf FemtoJet injector and Eppendorf InjectMan; this is the most common type of pulsed-flow microinjection system currently being used. The advantage of this type of system over a controlled-flow system is that much more control is available over the injection parameters, reducing variability in injections. In addition, the system allows a diagonal insertion of the needle into the cell. - [Read Gene Delivery by Direct Injection (Microinjection) Using a Pulsed-Flow System 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: Yeast Protocols: Yeast Nucleic Acid Protocols: Yeast PCR Protocols

Protocol for gene disruption via PCR. - [Read Gene Disruption via PCR Protocol]

Category: Plant Biology Protocols: Arabidopsis Genetics Protocols

Protocols for gene expression and protein localization in Arabidopsis. Includes: Detection of the native protein; Detection of a recombinant version; Immunofluorescence detection in Arabidopsis protoplasts; Isolation of Arabidopsis seedling protoplasts; Subcellular localization of GUS-fusion proteins in Arabidopsis seedlings; Localization of Arabidopsis proteins with GUS in situ enzyme assay. - [Read Gene Expression and Protein Localization in Arabidopsis Protocols]

Category: RNA Protocols: RT-PCR and cDNA synthesis

Gene-specific RT-PCR. Used for microdissected RNA, but may apply to other conditions. Molecular Profiling Initiative, NCI. - [Read Gene-specific RT-PCR]

Category: RNA Protocols: RT-PCR and cDNA synthesis

Gene-specific RT-PCR. Cancer Gene Anatomy Project NCI - [Read Gene-specific RT-PCR NCI]

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: 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: 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: DNA Protocols: DNA Extraction Protocols: Agarose Gel DNA Extraction Protocols

Isolation of DNA fragments using glass milk (GENE-CLEAN). Glass Milk Agarose Gel DNA Extracton Protocol. Minion Lab, College of Veterinary Medicine at Iowa State University. - [Read Glass Milk Agarose Gel DNA Extracton Protocol]

Category: Reporter Gene Assays

Protocol for GUS reporter gene assay. Includes: Protein isolation; Alternative method for small (<1g) quantities of tissue; GUS assays; Bradford protein concentration determination assays - [Read GUS Reporter Gene Assay Protocol]