Ammonium is the preferred nitrogen source and chemoattractant for the unicellular green alga Chlamydomonas reinhardtii. Here we describe that chemotaxis to methylammonium, a non-metabolizable analogue to ammonium, that occurs only in vegetative cells and pregametes but not in gametes. A new methylammonium-resistant mutant, hat1 that was generated by insertional mutagenesis, has been isolated and found to be affected at multiple loci. At the physiological level, hat1 showed altered K (m) and V (max) for high-affinity ammonium and methylammonium transport. Transcript levels of the ammonium transporter genes CrAmt1.(1-8) were similar to the wild type except for a lower expression level of CrAmt1.5, 6 and 8. Treatment with the potassium-channel inhibitor tetraethylammonium (TEA) blocked chemotaxis to ammonium/methylammonium and [(14)C]-methylammonium uptake. Our results suggest that the hat1 mutant could be affected in genes encoding regulatory elements of AMT1 transporter activities and that chemotaxis to ammonium/methylammonium is mediated by ammonium transporters sensitive to the potassium-channel inhibitor TEA.
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