recombinant Protocols

Category: Cell Culture Protocols

Information on the methods used to cultivate large amounts of cells for the purpose of obtaining an endogenous or recombinant product. - [Read Large-Scale Cell Culture Protocol]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

Protocol used chiefly to generate large stocks of double-stranded DNA of strains of M13 that are routinely used as cloning vectors. Large amounts of single-stranded DNA of an individual recombinant may occasionally be needed for specific purposes, e.g., to generate many preparations of a particular radiolabeled probe or to construct large numbers of site-directed mutants. - [Read Large-scale Preparation of Single-stranded and Double-stranded Bacteriophage M13 DNA Protocol]

Category: Cloning Protocols

Protocol for ligating plasmid and target DNAs in low-melting-temperature agarose. Ligation in low-melting-temperature agarose is much less efficient than ligation with purified DNA in free solution and requires a large amount of DNA ligase. The method is used chiefly for rapid subcloning of segments of DNA in dephosphorylated vectors and assembling recombinant constructs. - [Read Ligating Plasmid and Target DNAs in Low-melting-temperature Agarose Protocol]

Category: DNA Protocols: cDNA Library Protocols

The final stage of cDNA library construction involves optimizing ligation of the size-fractionated cDNA to bacteriophage {lambda} arms, followed by packaging and plating of the recombinant bacteriophages. - [Read Ligation of cDNA to Bacteriophage lambda Arms for the Construction of cDNA Libraries]

Category: Viral Manipulation Protocols: Phage Lamda Manipulation Protocols

Bacteriophage {lambda} vectors that allow genetic selection of recombinant bacteriophages (e.g., the EMBL series, {lambda}2001, {lambda}DASH, {lambda}ZAP, and {lambda}gt10) can be prepared for cloning by simple digestion by one or more restriction enzymes. - [Read Preparation of Bacteriophage lambda DNA Cleaved with a Single Restriction Enzyme Protocol]

Category: Viral Culture and Isolation Protocols: Viral Culture Protocols

In this protocol, a bacterial lysogen is constructed from a recombinant bacteriophage {lambda} encoding a fusion protein of interest. The resulting lysogenic colonies are induced to synthesize the fusion protein, which is then isolated in preparation for functional and biochemical analyses. - [Read Preparation of Lysates Containing Fusion Proteins Encoded by Bacteriophage {lambda} Lysogens]

Category: Viral Manipulation Protocols: Phage Protocols

Protocol describes methods to superinfect bacteria carrying a recombinant phagemid with a high-titer stock of an appropriate helper virus and to assay the yield of filamentous virus particles that carry single-stranded copies of the phagemid DNA. The key to success in using phagemids is to prepare a stock of helper virus whose titer is accurately known. - [Read Producing Single-stranded DNA with Phagemid Vectors Protocol]

Category: Cell Culture Protocols: Insect Cell Culture Protocols

Production of recombinant protein using the baculovirus expression vector system (BEVS). - [Read Production of Recombinant Protein Using the Baculovirus Expression Vector System (BEVS)]

Category: Stem Cell Protocols: Feeder Cell Preparation Protocols

This protocol describes the culture of embryonic stem (ES) cells using mitotically inactivating primary mouse embryonic fibroblast (MEF) cells as a feeder layer (preparation described in Preparation of Mouse Embryonic Fibroblast (MEF) Feeder Plates). The ES culture medium is supplemented with recombinant leukemia inhibitory factor (LIF) to help maintain the cells as pluripotent stem cells. This protocol has been optimized for the ES-D3 cell line. - [Read Propagation of Pluripotent Mouse Embryonic Stem (ES) Cells Protocol]

Category: Stem Cell Protocols: Mouse Embryonic Fibroblasts Protocols

This protocol describes the culture of embryonic stem (ES) cells using mitotically inactivating primary mouse embryonic fibroblast (MEF) cells as a feeder layer (preparation described in Preparation of Mouse Embryonic Fibroblast (MEF) Feeder Plates). The ES culture medium is supplemented with recombinant leukemia inhibitory factor (LIF) to help maintain the cells as pluripotent stem cells. This protocol has been optimized for the ES-D3 cell line. - [Read Propagation of Pluripotent Mouse Embryonic Stem (ES) Cells Protocol]

Category: Chromatography Protocols: Immobilized Metal Ion Affinity Chromatography Protocols

Perform this protocol after determining the imidazole concentration that yields the best purification of the recombinant protein of interest. - [Read Protein Purification Using Immobilized Metal-Ion Affinity Chromatography under Optimized Imidazole]

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

In vitro transcription reactions employing T3, T7 or SP6 phage-encoded RNA polymerases are widely used to synthesize RNA from recombinant vectors containing appropriate promoters. Production of large amounts of specific RNA is valuable in the preparation of hybridization probes and in vitro translation studies; in the synthesis of ribozymes, rRNA, SRP, antisense RNA and substrates for RNA splicing; and in RNA-protein interaction studies. - [Read Protocol: Purification of In Vitro Synthesized mRNA with Microcon or Centricon Centrifugal Filters]

Category: Cell Culture Protocols: Insect Cell Culture Protocols

Includes protocols: Direct Adaptation to HyQ© SFX-Insect™ Medium; Sequential Adaptation to HyQ© SFX-Insect™ Medium; Adaptation of High Five™ Cells to HyQ© SFX-Insect™; Production of Recombinant Protein Using the Baculovirus Expression Vector System; Culturing Insect Cells and Production of Baculovirus Expressed Proteins in 2.8 L Fernbach Systems. Production of Autographa californica Multiple Capsid Nuclear Polyhedrosis Virus (rAcMNPV) Stock - [Read Protocols for Insect Cell Culture]

Category: DNA Protocols: DNA Cloning

Protocols for Recombinant DNA Isolation, Cloning, and Sequencing. Roe and Crabtree. - [Read Protocols for Recombinant DNA Isolation, Cloning, and Sequencing.]

Category: Chromatography Protocols: Affinity Chromatography Protocols

Recombinant proteins, constructed in pGEX vectors, are fused to glutathione S-transferase (GST) and can be purified to near homogeneity by affinity chromatography on glutathione-agarose.  Bound GST-fusion proteins are readily displaced from the column by elution with buffers containing free glutathione. - [Read Purification of Fusion Proteins by Affinity Chromatography on Glutathione Agarose Protocol]

Category: Chromatography Protocols: Affinity Chromatography Protocols

Recombinant proteins engineered to have a polyhistidine tail at either the carboxyl or amino terminus can easily be purified in one step by affinity chromatography on a resin carrying chelated nickel ions.  Chromatography can be carried out in column or batch formats.  After unbound proteins are washed away, the target protein is eluted using imidazole, which typically preserves the antigenic and functional features of the protein. - [Read Purification of Histidine-tagged Proteins by Immobilized Ni2+ Absorption Chromatography Protocol]

Category: Viral Protocols

Protocol for the purification of recombinant adeno-associated virus (rAAV) and parvovirus in pre-formed iodixanol gradients. - [Read Purification of Recombinant Adeno-Associated Virus (rAAV) and Parovirus Protocol]

Category: Viral Culture and Isolation Protocols: Viral Culture Protocols

This protocol is used to purify small amounts of recombinant DNAs cloned in robust strains of bacteriophage {lambda} such as {lambda}gt10, {lambda}gt11, {lambda}ZAP, or ZipLox. The DNAs are suitable for use as substrates for restriction enzymes and templates for DNA and RNA polymerases. - [Read Rapid Analysis of Bacteriophage {lambda} Isolates: Purification of {lambda} DNA from Liquid Cultures]

Category: Signalling Signal Transduction Protocols

CHIESA et al 2001. J Biochem. Calcium-sensitive photoprotein aequorin used to analyse Ca2+ homoeostasis at the subcellular level. GFP chimaeras for studying the recruitment of protein kinase C isoforms and the activity of intracellular proteases. - [Read Recombinant aequorin and green fluorescent protein as valuable tools in the study of cell signalling]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

Plaques formed by M13 bacteriophages or bacterial colonies transformed by plasmids carrying specific mutations can be detected by hybridization, using a radiolabeled oligonucleotide that forms a perfect duplex with the mutant sequence. Hybridization is carried out under conditions of low stringency that allow the radiolabeled oligonucleotide to anneal to both mutant and wild-type DNAs. - [Read Screening Recombinant Clones for Site-directed Mutagenesis by Hybridization to Radiolabeled Oligos]

Category: General Research Protocols and Methods: Sterile Technique

Sterile technique is one of the most important steps in insuring consistent results when employing recombinant DNA and protein expression techniques. Dr. Chazin Lab, Center for Structural Biology, Vanderbilt Univ. - [Read Sterile Technique for DNA and Protein Expression]

Category: Viral Manipulation Protocols: M13 Phage Manipulation Protocols

A synthetic oligonucleotide annealed to single-stranded DNA derived from a recombinant bacteriophage M13 or phagemid template is used to prime the synthesis of complementary radiolabeled DNA. Synthesis is catalyzed by the Klenow fragment of E. coli DNA polymerase I, which extends the annealed primer for various distances along the single-stranded template DNA. - [Read Synthesis of Single-stranded DNA Probes of Defined Length from Bacteriophage M13 Templates Protocol]

Category: Viral Manipulation Protocols: Phage Protocols

Protocol describes methods for recovery and purification of recombinant clones of bacteriophage P1 or PAC DNAs from bacteria. Because of their large size, these DNAs are sensitive to shearing forces and must be handled carefully. This protocol generally yields P1 DNA that works well as a substrate or template in enzymatic reactions. - [Read Working with Bacteriophage P1 and Its Cloning Systems Protocol]