Daniel V. Savatin
  • Post-Doc, VIB-UGent Center for Plant Systems Biology
Research fields
  • Plant science
Multiplexed GuideRNA-expression to Efficiently Mutagenize Multiple Loci in Arabidopsis by CRISPR-Cas9
Authors:  Julia Schumacher, Kerstin Kaufmann and Wenhao Yan, date: 03/05/2017, view: 11517, Q&A: 0
Since the discovery of the CRISPR (clustered regularly interspaced short palindromic repeats)-associated protein (Cas) as an efficient tool for genome editing in plants (Li et al., 2013; Shan et al., 2013; Nekrasov et al., 2013), a large variety of applications, such as gene knock-out, knock-in or transcriptional regulation, has been published. So far, the generation of multiple mutants in plants involved tedious crossing or mutagenesis followed by time-consuming screening of huge populations and the use of the Cas9-system appeared a promising method to overcome these issues. We designed a binary vector that combines both the coding sequence of the codon optimized Streptococcus pyogenes Cas9 nuclease under the control of the Arabidopsis thaliana UBIQUITIN10 (UBQ10)-promoter and guide RNA (gRNA) expression cassettes driven by the A. thaliana U6-promoter for efficient multiplex editing in Arabidopsis (Yan et al., 2016). Here, we describe a step-by-step protocol to cost-efficiently generate the binary vector containing multiple gRNAs and the Cas9 nuclease based on classic cloning procedure.
Vacuole Structure Analysis during Cell Death Subsequent to Application of Erwinia carotovora Culture Filtrates to Cell Cultures of Nicotiana tabacum
Authors:  Yumi Hirakawa, Seiichiro Hasezawa and Takumi Higaki, date: 10/20/2015, view: 7493, Q&A: 1
We recently established an experimental model system for efficient defense-related cell death using tobacco BY-2 cultured cells treated with culture filtrates of the pathogenic bacterium Erwinia carotovora (E. carotovora) (Hirakawa et al., 2015). Applying this experimental system to transgenic BY-2 cells stably expressing the vacuolar membrane marker GFP-VAM3 (Kutsuna and Hasezawa, 2002) allowed us to monitor changes in vacuolar membrane structures including a decrease of transvacuolar strands during cell death (Hirakawa et al., 2015). Our model system can help to investigate organelle dynamics in defense-related cell death. Here, we show protocol for applying E. carotovora filtrates to BY-2 cells and confocal observation of vacuolar membrane dynamics and subsequent cell death. We used cell cycle synchronized BY-2 cells to effectively monitor invaginated vacuolar membranes such as transvacuolar strands in our recent report (Hirakawa et al., 2015); however, we do not describe the protocol for cell cycle synchronization in this article. For the step-by-step protocol for BY-2 cell synchronization, please refer to previous protocol papers (Nagata and Kumagai, 1999; Kumagai-Sano et al., 2006).
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