AI Article Synopsis
- The unicellular red alga has a simple cellular structure with basic organelles and a compact nuclear genome of 16.5 Mbp and 4,775 genes, which makes it suitable for genetic studies.
- New molecular genetic tools have been developed, but the limited availability of transformation markers has restricted the ability to alter genetics effectively.
- The study reports a new nuclear targeting method using chloramphenicol and demonstrates that specific homologous arm lengths are required for successful genetic modifications, leading to a strain expressing important proteins for research.
Article Abstract
The unicellular red alga possesses a simple cellular architecture that consists of one mitochondrion, one chloroplast, one peroxisome, one Golgi apparatus, and several lysosomes. The nuclear genome content is also simple, with very little genetic redundancy (16.5 Mbp, 4,775 genes). In addition, molecular genetic tools such as gene targeting and inducible gene expression systems have been recently developed. These cytological features and genetic tractability have facilitated various omics analyses. However, only a single transformation selection marker has been made available and thus the application of genetic modification has been limited. Here, we report the development of a nuclear targeting method by using chloramphenicol and the chloramphenicol acetyltransferase () gene. In addition, we found that at least 200-bp homologous arms are required and 500-bp arms are sufficient for a targeted single-copy insertion of the selection marker into the nuclear genome. By means of a combination of the and transformation systems, we succeeded in producing a strain that expresses HA-cyclin 1 and FLAG-CDKA from the chromosomal and loci, respectively. These methods of multiple nuclear targeting will facilitate genetic manipulation of .
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5348525 | PMC |
| http://dx.doi.org/10.3389/fpls.2017.00343 | DOI Listing |
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