Achim Wach scite author profile

An important recent advance in the functional analysis of Saccharomyces cerevisiae genes is the development of the one-step PCR-mediated technique for deletion and modification of chromosomal genes. This method allows very rapid gene manipulations without requiring plasmid clones of the gene of interest. We describe here a new set of plasmids that serve as templates for the PCR synthesis of fragments that allow a variety of gene modifications. Using as selectable marker the S. cerevisiae TRP1 gene or modules containing the heterologous Schizosaccharomyces pombe his5 + or Escherichia coli kan r gene, these plasmids allow gene deletion, gene overexpression (using the regulatable GAL1 promoter), C-or N-terminal protein tagging [with GFP(S65T), GST, or the 3HA or 13Myc epitope], and partial N-or C-terminal deletions (with or without concomitant protein tagging). Because of the modular nature of the plasmids, they allow efficient and economical use of a small number of PCR primers for a wide variety of gene manipulations. Thus, these plasmids should further facilitate the rapid analysis of gene function in

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New heterologous modules for classical or PCR‐based gene disruptions in Saccharomyces cerevisiae

Wach

Brachat

Pöhlmann

et al. 1994

Yeast

2,504

2,252

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We have constructed and tested a dominant resistance module, for selection of S. cerevisiae transformants, which entirely consists of heterologous DNA. This kanMX module contains the known kanr open reading-frame of the E. coli transposon Tn903 fused to transcriptional and translational control sequences of the TEF gene of the filamentous fungus Ashbya gossypii. This hybrid module permits efficient selection of transformants resistant against geneticin (G418). We also constructed a lacZMT reporter module in which the open reading-frame of the E. coli lacZ gene (lacking the first 9 codons) is fused at its 3' end to the S. cerevisiae ADH1 terminator. KanMX and the lacZMT module, or both modules together, were cloned in the center of a new multiple cloning sequence comprising 18 unique restriction sites flanked by Not I sites. Using the double module for constructions of in-frame substitutions of genes, only one transformation experiment is necessary to test the activity of the promotor and to search for phenotypes due to inactivation of this gene. To allow for repeated use of the G418 selection some kanMX modules are flanked by 470 bp direct repeats, promoting in vivo excision with frequencies of 10(-3)-10(-4). The 1.4 kb kanMX module was also shown to be very useful for PCR based gene disruptions. In an experiment in which a gene disruption was done with DNA molecules carrying PCR-added terminal sequences of only 35 bases homology to each target site, all twelve tested geneticin-resistant colonies carried the correctly integrated kanMX module.

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Heterologous modules for efficient and versatile PCR‐based gene targeting in Schizosaccharomyces pombe

Bähler¹,

Wu²,

Longtine³

et al. 1998

Yeast

929

1,318

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We describe a straightforward PCR-based approach to the deletion, tagging, and overexpression of genes in their normal chromosomal locations in the fission yeast Schizosaccharomyces pombe. Using this approach and the S. pombe ura4+ gene as a marker, nine genes were deleted with efficiencies of homologous integration ranging from 6 to 63%. We also constructed a series of plasmids containing the kanMX6 module, which allows selection of G418-resistant cells and thus provides a new heterologous marker for use in S. pombe. The modular nature of these constructs allows a small number of PCR primers to be used for a wide variety of gene manipulations, including deletion, overexpression (using the regulatable nmt1 promoter), C- or N-terminal protein tagging (with HA, Myc, GST, or GFP), and partial C- or N-terminal deletions with or without tagging. Nine genes were manipulated using these kanMX6 constructs as templates for PCR. The PCR primers included 60 to 80 bp of flanking sequences homologous to target sequences in the genome. Transformants were screened for homologous integration by PCR. In most cases, the efficiency of homologous integration was > or = 50%, and the lowest efficiency encountered was 17%. The methodology and constructs described here should greatly facilitate analysis of gene function in S. pombe.

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Additional modules for versatile and economical PCR‐based gene deletion and modification in Saccharomyces cerevisiae

Longtine

Mckenzie

DeMarini

et al. 1998

Yeast

510

665

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PCR-synthesis of marker cassettes with long flanking homology regions for gene disruptions in S. cerevisiae

Wach

1996

Yeast

821

559

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A PCR‐method for fast production of disruption cassettes is introduced, that allows the addition of long flanking homology regions of several hundred base pairs (LFH‐PCR) to a marker module. Such a disruption cassette was made by linking two PCR fragments produced from genomic DNA to kanMX6, a modification of dominant resistance marker making S. cerevisiae resistant to geneticin (G418). In a first step, two several hundred base pairs long DNA fragments from the 5′‐ and 3′‐region of a S. cerevisiae gene were amplified in such a way that 26 base pairs extensions homologous to the kanMX6 marker were added to one of their end. In a second step, one strand of each of these molecules then served as a long primer in a PCR using kanMX6 as template. When such a LFH‐PCR‐generated disruption cassette was used instead of a PCR‐made disruption cassette flanked by short homology regions, transformation efficiencies were increased by at least a factor of thirty. This modification will therefore also help to apply PCR‐mediated gene manipulations to strains with decreased transformability and/or unpredictable sequence deviations.

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Achim Wach

Additional modules for versatile and economical PCR-based gene deletion and modification in Saccharomyces cerevisiae

New heterologous modules for classical or PCR‐based gene disruptions in Saccharomyces cerevisiae

Heterologous modules for efficient and versatile PCR‐based gene targeting in Schizosaccharomyces pombe

Additional modules for versatile and economical PCR‐based gene deletion and modification in Saccharomyces cerevisiae

PCR-synthesis of marker cassettes with long flanking homology regions for gene disruptions in S. cerevisiae

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