expressing Protocols

Category: Fungi Protocols: Aspergillus Protocols

The technique makes use of an Escherichia coli strain expressing the redΑßΓ operon under the control of an inducible promoter. This enables the strain to carry out homologous recombination with only 50-60 bp of homologous sequence. The procedure does not require any DNA ligation and is very rapid. It allows a single gene or region on a cosmid to be replaced by a bi-functional selectable marker (having both an E. coli and an A. fumigatus marker). - [Read A Rapid Method for Generating Gene Deletions in Aspergillus fumigatus Protocol]

Category: RNAi Technology Protocols

Protocol describes the preparation of an shRNA-expressing Gateway entry vector.  This process is preceded by the design and synthesis of target gene-specific sense and antisense oligonucleotides which, when annealed, will constitute an shRNA cassette. - [Read Annealing, Cloning, and Sequencing of shRNA Linkers into pEN_H1 Plasmids Protocol]

Category: Reporter Gene Assays: GFP Assay Protocols

The following protocol can be used for the development of stable cell lines expressing GFP fusion proteins. Although optimal transfection procedures (e.g., calcium phosphate, electroporation, or FuGENE 6 [Roche Applied Science]) vary depending on cell type, this general transfection procedure has been successful for stable transfection of HeLa, A-431, U2OS, BHK, and HT1080 cells. - [Read Constructing and Expressing GFP Fusion Proteins]

Category: Yeast Protocols: Yeast Protein Protocols

This assay is performed to detect ubiquitylated proteins in yeast. Yeast that have been transformed with a vector expressing polyhistidine-tagged ubiquitin (Ub) under the control of a copper-inducible promoter are grown, induced with copper, and harvested. Total ubiquitylated proteins are then recovered by nickel-affinity chromatography, and specific proteins are detected by Western blotting. - [Read Detection of Ubiquitylated Proteins in Yeast Protocol]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition and processing of confocal fluorescent and bright field images of live cells, expressing cyan fluorescent protein(CFP) and/or yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope. This procedure is used to help determine if N- or Cterminal tagging of signaling molecules alters the steady state localization pattern of the signaling protein in question. - [Read Live Cell Spinning Disk Confocal Fluore Imaging of Cells- Colocalization of Fluorescent Protein Tags]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition and processing of confocal fluorescent and bright field images of live cells expressing yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope when three planes along the z-axis of the cell are acquired. Protocol includes: Description of Microscope and Imaging Setup; Description of Acquisition Parameters; Image Processing. - [Read Live Cell Spinning Disk Confocal Fluorescence Imaging of Cells- YFP & Bright Field—Three Z Axis]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition and processing of confocal fluorescent and bright field images of live cells expressing yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope. Protocol includes: Description of Microscope and Imaging Setup; Description of Acquisition Parameters; Image Processing. - [Read Live Cell Spinning Disk Confocal Fluorescence Imaging of Cells- YFP and Bright Field Images]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition and processing of confocal fluorescent images of live cells expressing yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope. Protocol includes: Description of Microscope and Imaging Setup; Description of Acquisition Parameters; Movie Processing. - [Read Live Cell Spinning Disk Confocal Fluorescence Imaging of Cells- YFP Time Series for Markers]

Category: Developmental Biology: Utilizing Model Organisms Protocols

Nonviral, DNA-mediated gene transfer is an alternative to viral delivery systems for expressing new genes in cells and tissues. The Sleeping Beauty (SB) transposon system combines the advantages of viruses and naked DNA molecules for gene therapy purposes; however, efficacious delivery of DNA molecules to animal tissues can still be problematic. Here we describe the hydrodynamic delivery procedure for the SB transposon system that allows efficient delivery to the liver in the mouse. - [Read Preferential Delivery of the Sleeping Beauty transposon System to Livers of Mice by Hydrodynamic i]

Category: Cell Biology and Cell Culture

This protocol focuses on the interactions between L-selectin expressed on neutrophils and PNAd coated onto the plastic surface. The main purpose of the flow chamber assay is to visualize and measure interactions between flowing cells expressing a given adhesion molecule on their surface, and their receptor, either directly coated on the flow chamber lower wall or expressed on a cell monolayer. - [Read Protocol for L-selectin-PNAd Interactions under Flow Conditions.]

Category: Microscopy Protocols: Confocal Microscopy Protocols

Protocol describes the acquisition of confocal fluorescent and bright field images of live cells, expressing cyan fluorescent protein (CFP) and/or yellow fluorescent protein (YFP), with a spinning disk confocal head on a Zeiss Axiovert 200 M microscope. Protocol includes: Description of Microscope and Imaging Setup; Description of Acquisition Parameters; Image Processing; Movie Processing. - [Read Protocol for Live Cell Spinning Disk Confocal Fluorescence Imaging of Cells on a Zeiss]

Category: Cell Biology and Cell Culture: In Vitro Reconstitution Protocols

In this protocol nuclei isolated from cells expressing the gene of interest are incubated with radiolabeled UTP which is incorporated into nascent RNA transcripts by RNA polymerase molecules that were actively transcribing at the time the cells were harvested. Because very little denovo initiation of RNA synthesis occurs in isolated nuclei, transcription of the target gene can be measured by hybridizing the radiolabeled RNA to an excess of the target gene immobilized on a nitrocellulose or nylon - [Read Protocol for Transcriptional Run- On Assays]

Category: Primary Cell Isolation and Culture Protocols

Slide Preparation for Manual Microdissection for Subsequent DNA, RNA, and Protein Analysis. Manual microdissection and subsequent molecular analysis can be carried out on slides stained using standard hematoxylin and eosin methods. However, if cell types that are (or are not) expressing a specific protein are required for a study, then more advanced slide preparation methods such as Immuno-LCM may be utilized. - [Read Slide Preparation for Manual Microdissection Protocol]

Category: Cell Biology and Cell Culture: Flow Cytometry Protocols: Cell Sorting Protocols

Describes how FACSort can be used to enrich for transfected mouse cells expressing high levels of the human thrombin receptor. The sorted fraction can then be cultured in vivo and reanalyzed 12 days later to show that it remains enriched for thrombin receptor-expressing cells. - [Read Sorting Transfected Cells Based on Gene Expression, Followed by Culture in Vivo]

Category: Reporter Gene Assays: Luciferase Assay Protocols

Protocol describes a split luciferase complementation assay that can be used to repetitively and noninvasively study the interaction of proteins in small living animals. After the expression of the appropriate vectors has been checked in cell culture in vivo, studies can be performed either by implanting transiently transfected cells for short-term analysis (maximum of 7 days), or with tumor models grown from tumor cells stably expressing the complete reporter system. - [Read Split Luciferase Complementation Assay for Studying Interaction of Proteins X and Y in Living Mice]

Category: Transfection Protocols: Stable Transfection Protocols

This stage of the procedure describes the transfection with target genes of cell lines already expressing inducible tTA. In this example, the target genes are transfected on a plasmid that carries puromycin resistance as a selectable marker. - [Read Tetracycline as Regulator of Inducible Gene Expression Protocol II]

Category: Transfection Protocols: Calcium Phosphate Transfection Protocols

This protocol describes two transfection methods for expressing GFP-tagged actin in primary neurons. The lipid reagent DOTAP (Roche Diagnostics) method produces actin-GFP-expressing hippocampal neurons that survive well during long periods in culture. The calcium phosphate method can be used to transfect neurons that have already been growing on coverslips in vitro. Transfected cells suitable for imaging can be obtained in cultures up to 15 days in vitro. - [Read Transfecting Cultured Hippocampal Neurons with an Actin-GFP Plasmid]

Category: Neuroscience Protocols: Neuronal Cell Culture Protocols

Protocol describes two transfection methods for expressing GFP-tagged actin in primary neurons.  The lipid reagent DOTAP (Roche Diagnostics) method produces actin-GFP-expressing hippocampal neurons that survive well during long periods in culture. - [Read Transfecting Cultured Hippocampal Neurons with an Actin-GFP Plasmid Protocol]

Category: Plant Biology Protocols: Plant Genetics Protocols

This procedure, which uses a root transformation protocol, provides a rapid method for assessing gene expression in Arabidopsis roots. It is useful for testing promoter:reporter gene constructs, for expressing genes, the overexpression of which is lethal in whole plants, and for transforming the roots of plants that are recalcitrant to conventional transformation techniques. The protocol has been used successfully with Ws, No-0, and RLD ecotypes. - [Read Transgene Expression in Regenerated Roots]