Natalie L. Catlett, Bee-Na Lee, O. Yoder, B. Turgeon
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引用次数: 401
摘要
真菌基因缺失的一种常用方法是引入线性DNA,该线性DNA由一个可选择的标记基因组成,两侧是针对感兴趣基因的短段DNA (W irsel等人,1996 Curr)。麝猫29:241 - 249)。这种方法在异养耳蜗和玉米赤霉素中可以有效地进行基因缺失。为了便于缺失构建体的合成,我们采用了先前为酿酒酵母开发的“分裂标记”缺失策略(Fairhead et al. 1996 Y east 12:1439-57;Fairhead et al. 1998,基因223:33-46)。在这里,我们描述了基于融合pcr和基于质粒的删除方法,使用这种策略与peg介导的原生质体转化(Turgeon et al ., 1985)。热内将军。2011:450-453)。预计这些方法可以很好地用于任何在染色体和引入的DNA序列之间进行同源重组的可转化真菌。
Split-Marker Recombination for Efficient Targeted Deletion of Fungal Genes
A commonly used method for fungal gene deletion is introduction of linear DNA consisting of a selectable marker gene flanked on both sides by short stretches of DNA that target a gene of interest (W irsel et al 1996 Curr. Genet 29:241-249). Gene deletion in Cochliobolus heterostrophus and Gibberella zeae occurs efficiently with this approach. To facilitate deletion construct synthesis, we have applied the "split-marker” deletion strategy previously developed for Saccharomyces cerevisiae (Fairhead et al. 1996 Y east 12:1439-57; Fairhead et al. 1998 Gene 223:33-46). Here, we describe both fusion PCR-based and plasmid-based deletion methods using this strategy with PEG-mediated protoplast transformation (Turgeon et al, 1985 M ol. Gen. Genet. 201:450-453). These methods are predicted to work well with any transformable fungus that undergoes homologous recombination between chromosomal and introduced DNA sequences.
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