cloned Protocols

Category: DNA Protocols: Cosmid Library Protocols

Amplification of cosmid libraries may result in distorted representation of cloned genomic sequences and should be avoided wherever possible. If amplification should become necessary, it is best to expand the library by growth in liquid medium. - [Read Amplification and Storage of a Cosmid Library: Amplification in Liquid Culture Protocol]

Category: DNA Protocols: Cosmid Library Protocols

Amplification of cosmid libraries may result in distorted representation of cloned genomic sequences and should be avoided wherever possible. In this method of amplification, distortion of the library is rarely a problem because at no stage are bacteria containing different recombinant cosmids grown in competition with one another. - [Read Amplification and Storage of a Cosmid Library: Amplification on Filters Protocol]

Category: PCR Protocols: Colony PCR

Protocol describes the use of PCR to screen for bacteria that carry recombinant plasmids.  The PCR can be carried out using the same primers as for amplification of the cloned insert.  To determine the orientation of the insert, a third, insert-specific primer that is asymmetrically distanced from the clonal insertion site can be used. - [Read Colony PCR Protocol II]

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: DNA Protocols: DNA Sequencing Protocols

Direct sequencing from amplified bacterial and large insert cloned human or mouse genomic DNA via an improved MultiPlex PCR-based method. Includes: Preparing primers for MP-PCR; Amplification; PCR Product Clean-up; Sequencing. - [Read Direct Sequencing Using MultiPlex PCR-Based Method]

Category: Cloning Protocols: Vector Protocols

Directional cloning requires that the plasmid vector be cleaved with two restriction enzymes that generate incompatible termini and that the fragment of DNA to be cloned carries termini that are compatible with those of the doubly cleaved vector. - [Read Directional Cloning into Plasmid Vectors Protocol]

Category: DNA Protocols: Genomic DNA Library Protocols

Protocol describes how to construct and amplify a genomic DNA library in a plasmid vector (pSPL3) equipped to express cloned exons in transfected mammalian cells. - [Read Exon Trapping and Amplification for Construction of the Library 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: 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: DNA Protocols: cDNA Library Protocols: cDNA Library Construction Protocols

Shotgun sequencing of a large segment of DNA involves random fragmentation of the target region into smaller segments that are subsequently cloned into a bacteriophage M13 vector. The goal is to create a library of overlapping clones that provide at least fivefold coverage over the entire length of the target fragment. - [Read Generation of a Library of Randomly Overlapping DNA Inserts Protocol]

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

In this method, the nuclease BAL 31 is used to make uni- or bidirectional deletions in a segment of cloned DNA. BAL 31 is a complex enzyme and tends to digest a population of double-stranded DNA targets in an asynchronous fashion, Deletions created by BAL 31 are therefore far more heterogeneous in size than those created by processive enzymes such as exonuclease III. - [Read Generation of Bidirectional Sets of Deletion Mutants by Digestion with BAL 31 Nuclease 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: Fungi Protocols: Neurospora Protocols

Information and tips on how to use RFLP for mapping cloned genes. - [Read How to Use RFLP for Mapping Cloned Genes]

Category: Viral Manipulation Protocols: Phage Lamda Manipulation Protocols

Protocol describes how to identify cloned cDNAs encoding proteins that bind to specific DNA sequences. The methods used are very similar to those used for immunological screening of expression libraries except that the nitrocellulose filters carrying immobilized proteins are screened with 32P-labeled double-stranded DNA rather than with antibodies. - [Read Identifying DNA-binding Proteins in Bacteriophage ambda Expression Libraries Protocol]

Category: PCR Protocols: PCR Cloning Protocols

Protocol describes the use of vectorette PCR and single-site PCR to amplify the terminal sequences of genomic sequences cloned in high-capacity vectors such as PACs and YACs. - [Read Isolating the Ends of Genomic DNA Fragments Cloned in High-capacity Vectors]

Category: Nucleic Acid Purification Protocols

Preparations of RNA containing an mRNA of interest are hybridized to a complementary single-stranded DNA probe.  At the end of the reaction nuclease S1 is used to degrade unhybridized regions of the probe, and the surviving DNA-RNA hybrids are then separated by gel electrophoresis and visualized by autoradiography or Southern hybridization.  Method used to quantitate RNAs, to map the positions of introns, and to identify the locations of 5' and 3' ends of mRNAs on cloned DNA templates. - [Read Mapping RNA with Nuclease S1 Protocol]

Category: Nucleic Acid Modification Protocols: Nucleic Acid Radiolabeling Protocols

Preparations of RNA containing an mRNA of interest are hybridized to a radiolabeled single-stranded RNA probe. The method can be used to quantitate RNAs, to map the positions of introns, and to identify the locations of 5' and 3' ends of mRNAs on cloned DNA templates. - [Read Mapping RNA with Ribonuclease and Radiolabeled RNA Probes Protocol]

Category: Reporter Gene Assays: GFP Assay Protocols

Green fluorescent protein is commonly used to monitor gene expression and protein trafficking within intact cells. The Monster Green® Fluorescent Protein is encoded by an improved synthetic version of the green fluorescent protein gene originally cloned from Montastrea cavernosa (Great Star Coral). - [Read Monster Green® Fluorescent Protein Assay]

Category: Avian Bird Protocols

Protocol describes the production of double-stranded RNA (dsRNA) from fragments of cDNAs of candidate genes. The cDNA fragments must be cloned in plasmids with a flanking SP6 and T7 promoter (e.g., pSP72 or pCRII). The plasmid is linearized and sense and antisense RNAs are produced separately by in vitro transcription. After purification, the RNA strands are annealed to yield a dsRNA molecule suitable for RNAi in avian embryos. - [Read Production of dsRNA for RNAi in Avian Embryos Protocol]

Category: RNAi Technology Protocols: RNAi Avian Embryos Protocols

Protocol describes the production of double-stranded RNA (dsRNA) from fragments of cDNAs of candidate genes.  The cDNA fragments must be cloned in plasmids with a flanking SP6 and T7 promoter (e.g., pSP72 or pCRII).  The plasmid is linearized and sense and antisense RNAs are produced separately by in vitro transcription. - [Read Production of dsRNA for RNAi in Avian Embryos Protocol]

Category: Immunology: T Cell Protocols

T cell hybridomas can be obtained by fusing activated T cells with tumor cells. A heterogeneous population of hybridomas can be cloned by limiting dilution to obtain hybridomas that express specificity to one T cell receptor (TCR). Protocol describes cell fusion and selection of T cell hybridomas. A protocol is provided for screening of T cell hybridomas for expression of the CD3-TCR complex by flow cytometry analysis. - [Read Production of Mouse T Cell Hybridomas Protocol]

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

This protocol produces RNA transcripts from a cloned gene that can then be used in an in vitro translation assay. - [Read Protocol for In Vitro Transcription of RNA]