Nourseothricin N-acetyl transferase (NAT), a new selectable marker for nuclear gene expression in Chlamydomonas

Abstract

AbstractBackgroundChlamydomonas reinhardtiiis a unicellular green alga, which is a most commonly used model organism for basic research and biotechnological applications. Generation of transgenic strains, which usually requires selectable markers, is instrumental in such studies/applications. Compared to other organisms, the number of selectable markers is limited in this organism. Nourseothricin (NTC) N-acetyl transferase (NAT) has been reported as a selectable marker in a variety of organisms but not includingC. reinhardtii. Thus, we investigated whetherNATwas useful and effective for selection of transgenic strains inC. reinhardtii. The successful use ofNATwould provide alterative choice for selectable markers in this organism and likely in other microalgae.ResultsC. reinhardtiiwas sensitive to NTC at concentrations as low as 5 µg/ml. There was no cross-resistance to nourseothricin in strains that had been transformed with hygromycin B and/or paromomycin resistance genes. A codon-optimizedNATfromStreptomyces nourseiwas synthesized and assembled into different expression vectors followed by transformation intoChlamydomonas. Around 500 transformants could be obtained by using 50 ng DNA on selection with 10 µg/ml NTC. The transformants exhibited normal growth rate and were stable at least for 10 months on conditions even without selection. We successfully tested thatNATcould be used as a selectable marker for ectopic expression ofIFT54-HA in strains with paromomycin and hygromycin B resistance markers. We further showed that the selection rate forIFT54-HA positive clones was greatly increased by fusingIFT54-HA toNATand processing with the FMDV 2A peptide.ConclusionsThis work represents the first demonstration of stable expression ofNATin the nuclear genome ofC. reinhardtiiand provides evidence thatNATcan be used as an effective selectable marker for transgenic strains. It provides alterative choice for selectable markers inC. reinhardtii.NATis compatible with paromomycin and hygromycin B resistance genes, which allows for multiple selections.