Title
Use of the bleomycin resistance gene to generate tagged insertional mutants of Chlamydomonas reinhardtii that require elevated CO2 for optimal growth
Document Type
Article
Publication Date
4-1-2002
Abstract
Chlamydomonas reinhardtii Dangeard possesses a CO2 concentrating mechanism (CCM) that enables it to grow at very low CO2 concentrations. In previous studies, insertional mutagenesis was successfully used to identify genes required for growth at low CO2 in C. reinhardtii. These earlier studies used the C. reinhardtii genes, Nit1 and Arg7 to complement nit1 or arg7 strains, thereby randomly inserting a second copy of Nit1 or Arg7 into the genome. Because these genes are already present in the C. reinhardtii genome, it was often difficult to identify the location of the inserted DNA and the gene disrupted by the insertion. We have developed a transformation protocol using the Ble gene, which confers resistance to the antibiotic Zeocin. The insertion of this gene allows one to use a variety of existing polymerase chain reaction (PCR) methodologies to identify the disrupted gene. In this study the D66 strain (nit2, cw15, mt) was transformed by electroporation using a plasmid containing the Ble gene. Primary transformants (42 000) were obtained after growth in the dark on acetate plus Zeocin medium. Colonies were then tested for their ability to grow photosynthetically on elevated CO2 or low levels of CO2 (100 ppm). About 120 mutants were identified which grew on elevated CO2 but were unable to grow well at low CO2 concentrations. About 50% of these mutants had low affinities for inorganic carbon as assessed by K0.5(CO2), indicating a potential defect in the CCM. The location of the inserted DNA is being determined using inverse PCR (iPCR) and thermal asymmetric interlaced (TAIL) PCR. Using these methods, one can rapidly locate the inserted DNA in the genome and identify the gene that has been disrupted by the insertion.
Publication Source (Journal or Book title)
Functional plant biology : FPB
First Page
231
Last Page
241
Recommended Citation
Colombo, S. L., Pollock, S. V., Eger, K. A., Godfrey, A. C., Adams, J. E., Mason, C. B., & Moroney, J. V. (2002). Use of the bleomycin resistance gene to generate tagged insertional mutants of Chlamydomonas reinhardtii that require elevated CO2 for optimal growth. Functional plant biology : FPB, 29 (3), 231-241. https://doi.org/10.1071/PP01189