Correlation Engine 2.0
Clear Search sequence regions

  • cellular (1)
  • chromosomes fungal (1)
  • copies (1)
  • factor (1)
  • fungal proteins (2)
  • gene (13)
  • host cells (1)
  • KU70 (2)
  • native (1)
  • och1 (6)
  • pichia (2)
  • plasmid (2)
  • process gene (1)
  • research (1)
  • SGS1 (2)
  • yeasts (6)
  • Sizes of these terms reflect their relevance to your search.

    In contrast to model yeasts, gene targeting efficiencies of non-conventional yeasts are usually low, which greatly limits the research and applications of these organisms. In this study, we aimed to enhance the gene targeting efficiency of non-conventional yeasts by improving the fitness of mutant strains, particularly by increasing the genetic redundancy of host cells. To demonstrate this process, OCH1 gene deletion in Pichia pastoris was performed. Extra copies of the OCH1 gene on a helper plasmid were provided for the P. pastoris GS115 strain before the native OCH1 gene in the genomic DNA was knocked out. The redundancy in OCH1 gene significantly eliminated the growth defects of the och1 mutant and increased the deletion efficiency of the OCH1 gene by two orders of magnitude with the same length of homologous flanks. The same strategy was used to delete the KU70 and SGS1 genes. The targeting efficiencies of KU70 and SGS1 were increased by 1- and 23-fold, respectively. Therefore, this study provided an efficient strategy for the deletion of "stubborn" genes in non-conventional yeasts. This study further showed that cellular fitness is potentially an important factor that can limit the efficiency of gene targeting.


    Zao Chen, Hongbing Sun, Pengfei Li, Ning He, Taicheng Zhu, Yin Li. Enhancement of the gene targeting efficiency of non-conventional yeasts by increasing genetic redundancy. PloS one. 2013;8(3):e57952

    Expand section icon Mesh Tags

    Expand section icon Substances

    PMID: 23505447

    View Full Text