Joseph A. Sorge scite author profile

A lambda insertion type cDNA cloning vector, Lambda ZAP, has been constructed. In E. coli a phagemid, pBluescript SK(-), contained within the vector, can be excised by f1 or M13 helper phage. The excision process eliminates the need to subclone DNA inserts from the lambda phage into a plasmid by restriction digestion and ligation. This is possible because Lambda ZAP incorporates the signals for both initiation and termination of DNA synthesis from the f1 bacteriophage origin of replication (1). Six of 21 restriction sites in the excised pBluescript SK polylinker, contained within the NH2-portion of the lacZ gene, are unique in lambda ZAP. Coding sequences inserted into these restriction sites, in the appropriate reading frame, can be expressed from the lacZ promoter as fusion proteins. The features of this vector significantly increase the rate at which clones can be isolated and analyzed. The lambda ZAP vector was tested by the preparation of a chicken liver cDNA library and the isolation of actin clones by screening with oligonucleotide probes. Putative actin clones were excised from the lambda vector and identified by DNA sequencing. The ability of lambda ZAP to serve as a vector for the construction of cDNA expression libraries was determined by detecting fusion proteins from clones containing glucocerbrosidase cDNA's using rabbit IgG anti-glucocerbrosidase antibodies.

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High-fidelity amplification using a thermostable DNA polymerase isolated from Pyrococcus furiosus

Lundberg¹,

Shoemaker²,

Adams

et al. 1991

Gene

512

223

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Spectra of spontaneous and mutagen-induced mutations in the lacI gene in transgenic mice.

Kohler¹,

Provost²,

Fieck³

et al. 1991

Proc. Natl. Acad. Sci. U.S.A.

411

182

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Transgenic nmice with a A shuttle vector containing a lacI target gene were generated for use as a shortterm, in vivo mutagenesis assay. The gene is recovered from the treated mice by exposing mouse genomic DNA to in vitro packaging extracts and plating the rescued phage on agar plates containing 5-bromo-4-chloro-3-indolyl (3-D-galactopyranoside (X-Gal). Phage with mutations in the lacl gene form blue plaques, whereas phage with a nonmutated lacl form colorless plaques. Spontaneous background mutant rates using this system range from 0.6 x 10-S to 1.7 x i0-0, depending upon tissue analyzed, with germ cells exhibiting less than one-third the background rate of somatic tissue. Treatment of the miceor cyclophosphamide caused an induction of mutations over background. Recovery of the lacI target for sequence analysis was performed by genetic excision of a plasmid from the phage using partial filamentous phage origins. The predominant mutations identified from untreated and treated populations were base substitutions. Although it has been shown by others that 70% of all spontaneous mutations within the laI gene, when replicated in Escherichia cohi, occur at a hot spot located at bases 620-632, only 1 of 21 spontaneous mutations has been identified in this region in the transgenic mouse system. In addition, 5 of 9 spontaneous transitions analyzed occur at CpG dinucleotides, whereas no transition mutations were identified at the prokaryotic deamination hot spots occurring at dcm sites (CCA/TGG) within the WaI gene. For EtNU, approximately equal amounts of transitions and transversions were observed, contrasting with B[a]P-induced mutations, in which only transversions were obtained. In addition, B[a]P mutagenesis showed a predominance ofmutations (81 %) involving cytosines and/or guanines, consistent with its known mode of action. The discovery of a spontaneous mutation spectrum different from that of bacterial assays, coupled with the concordance of EtNU and B[a]P base mutations with the known mechanisms of activity for these mutagens, suggests that this transgenic system will be useful as a short-term, in vivo system for mutagen assessment and analysis of mechanisms leading to mutations.The lacd gene has been used extensively as a target for the identification and analysis of spontaneous and induced mutations, due in part to the ease of using a calorimetric assay to rapidly screen for mutations. Genetic and sequence analysis of spontaneous and induced mutations detected in several systems utilizing lacd (1-5) has resulted in an extensive accumulation of data regarding the sequence specificity of spontaneous and induced mutations in lacd, which can be of considerable comparative value through the use of the lacd target gene in whole animal assay systems.To combine the cost-saving aspects of short-term assays with the predictive power of whole animal assays, we previously described the development of a system that depends upon efficient recovery of a A phage shuttle vector from transgenic mouse genomic DNA thro...

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Prediction of Severity of Gaucher's Disease by Identification of Mutations at Dna Level

Gross²,

et al. 1989

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Analysis of spontaneous and induced mutations in transgenic mice using a lambda ZAP/lacl shuttle vector

Kohler¹,

Provost²,

Fieck³

et al. 1991

Environ and Mol Mutagen

200

104

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A short term, in vivo mutagenesis assay has been developed utilizing a lacl target gene contained within a lambda ZAP shuttle vector which has been incorporated into transgenic mice. Following chemical exposure, the target gene was recovered from mouse genomic DNA by mixing the DNA with in vitro lambda phage packaging extract. Mutations within the lacl target were identified by infecting host E. coli with the packaged phage and plating on indicator plates containing Xgal. Phage plaques with mutations in the lacl appeared blue, while intact phage were colorless. The ratio of blue plaques to colorless plaques is a measure of the mutagenicity of the compound. This system was used to obtain significant induction (up to 74-fold) over background levels for a variety of compounds, including N-ethyl-N-nitrosourea, benzo(a)pyrene (BaP), cyclophosphamide, and methylnitrosourea. Sequence analysis of selected mutant clones derived from this system was accomplished through the use of partial filamentous phage origins which allow rapid transfer of the target gene from phage to plasmid. Sequence analysis of spontaneous mutants derived from the mice primarily found of base substitutions, differing markedly from the previous data for spontaneous mutations in lacl derived from E. coli, where the preponderance of mutations were found at a single site, a repeated tetramer sequence. Upon sequence analysis of BaP derived base substitutions, only transversions were obtained, consistent with the known mechanism of BaP mutagenesis. Use of the well-characterized lacl gene in transgenic mice should allow for extrapolation of the extensive pool of in vitro data to whole animals, as well as provide insight into the tissue specific effects of mutagenic compounds.

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Joseph A. Sorge

λ ZAP: a bacteriophage λ expression vector within vivoexcision properties

High-fidelity amplification using a thermostable DNA polymerase isolated from Pyrococcus furiosus

Spectra of spontaneous and mutagen-induced mutations in the lacI gene in transgenic mice.

Prediction of Severity of Gaucher's Disease by Identification of Mutations at Dna Level

Analysis of spontaneous and induced mutations in transgenic mice using a lambda ZAP/lacl shuttle vector

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