Physiologic, morphologic and behavioral responses of perpetual cultures ofCaulobacter crescentus to carbon, nitrogen and phosphorus limitations

Abstract

Perpetual cultures ofCaulobacter crescentus were maintained in a chemostat and provided with media that provided glucose, glutamate, ammonium chloride, and Na/K phosphate as sources, respectively, of C, of C and N, of N and of P. All cultures were maintained at the same relative flow rate, f/V, so that reproductive rate was constant. As the C∶N∶P ratio was shifted from a balanced ratio of 100 μg C∶9–10 μg N∶1 μg P, the cells modulated their rates of uptake, reducing the rates of uptake of excess element-sources and accelerating the uptake of potential sources of the limiting element. The change in N-limited cells was the greatest, resulting in a nearly 150-fold increase in rate of uptake of amino acids. Poly-β-hydroxybutyrate or polyphosphate was stored whenever C or P, respectively, was not the limiting element. Direct measurement of cell and stalk surface areas on purified peptidoglycan sacculi of P-limited cells revealed that the surface of both swarmer and stalked cells, as well as the stalk surface, participated in the accelerated rate of phosphate uptake. Swarmers from N-limited populations were the only cells that exhibited chemotactic responsiveness-to methionine, NH4Cl and glutamate, but not to glucose or phosphate-sufficient to be detectable in a microcapillary assay. In populations that were C-limited and provided with ammonium ions as the principal source of N, morphogenesis and reproduction deteriorated and a steady state could not be maintained. Generally, the responses ofC. crescentus were appropriate to manage unbalanced nutrient supplies, but this oligoheterotrophic organism did not tolerate excesses of inorganic nutrients when limited for its sources of C, of energy, and of ammonium acceptor.