A simple and efficient procedure for generating stable expression libraries by cDNA cloning in a retroviral vector.

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Mol Cell Biol. 1994 February; 14(2): 880-887

A simple and efficient procedure for generating stable expression libraries by cDNA cloning in a retroviral vector.

J R Rayner and T J Gonda

Hanson Centre for Cancer Research, Institute of Medical and Veterinary Science, Adelaide, Australia.

ABSTRACT

cDNA expression cloning is a powerful method for the rescueand identification of genes that are able to confer a readilyidentifiable phenotype on specific cell types. Retroviral vectorsprovide several advantages over DNA-mediated gene transfer forthe introduction of expression libraries into eukaryotic cellssince they can be used to express genes in a wide range of celltypes, including those that form important experimental systemssuch as the hemopoietic system. We describe here a straightforwardand efficient method for generating expression libraries byusing a murine retroviral vector. Essentially, the method involvesthe directional cloning of cDNA into the retroviral vector andthe generation of pools of stable ecotropic virus producingcells from this DNA. The cells so derived constitute the library,and the virus they yield is used to infect appropriate targetcells for subsequent functional screening. We have demonstratedthe feasibility of this procedure by constructing several largeretroviral libraries (10(5) to 10(6) individual clones) andthen using one of these libraries to isolate cDNAs for interleukin-3and granulocyte-macrophage colony-stimulating factor on thebasis of the ability of these factors to confer autonomous growthon the factor-dependent hemopoietic cell line FDC-P1. Moreover,the frequency at which these factor-independent clones wereisolated approximated the frequency at which they were representedin the original plasmid library. These results suggest thatexpression cloning with retroviruses is a practical and efficientprocedure and should be a valuable method for the isolationof important regulatory genes.

Mol Cell Biol. 1994 February; 14(2): 880-887

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