The exponential
phase growth defect of the hfq mutant is not growth medium specific, as we observe slow exponential phase growth in both complex and defined media. In addition, we observe this defect when cells are grown under both aerobic and anaerobic conditions. It is not yet clear buy Eltanexor why the hfq mutant grows slowly when nutrients are plentiful. It is possible that the hfq mutant growth phenotype is a result of a defect in nutrient acquisition, a possibility suggested by the fact that hfq mutants in a variety of bacteria express lower levels of genes involved in nutrient uptake [6, 24–26]. It is also possible that the hfq mutant has more general set of metabolic defects that underlie its slow growth phenotype, which may explain why the hfq mutant is less efficient in Cr(VI) reduction. this website Alternatively, hfq may have a more specific role in utilization of Cr(VI) as a terminal electron acceptor. A second notable hfq mutant growth
phenotype is the failure of mutant cultures to achieve a terminal cell density as high as those seen in wild type cultures. Though it is not yet clear what underlies this mutant phenotype, it is possible that the hfq mutant is unable to fully utilize the available nutrients in the medium or that it exhausts a nutrient that is rate limiting for growth more rapidly than wild type cells. Alternatively, the hfq mutant may produce more of, or be more sensitive to, at least one growth-suppressing product produced during S. oneidensis growth. Strikingly, S. oneidensis hfq mutant cultures exhibit a severe loss of colony forming units in stationary phase, with cultures often displaying no check details detectable CFU. One possibility is that Hfq promotes cell survival in stationary phase, and thus loss of hfq results in loss of culture viability. An alternative explanation is that Hfq functions to prevent cells from entering a viable but not culturable (VBNC) state [27], and thus reduced CFU/ml counts in hfq∆ mutant cultures are due to hfq∆ www.selleck.co.jp/products/forskolin.html cells precociously assuming VBNC status. Both of these models are supported by the fact that moderate overexpression
of Hfq results in higher CFU/ml counts during stationary phase when compared to cells with wild type Hfq protein levels. Further experimentation will be required to differentiate between these two possible explanations for the greatly reduced CFU/ml counts in hfq∆ stationary phase cultures. Because the hfq mutant is highly sensitive to oxidative stress, it is possible that the stationary phase survival defect in hfq mutant cells is a consequence of poor resistance to oxidative stress. Multiple Hfq-dependent sRNAs (arcZ, dsrA, and rprA) positively regulate expression of the stationary phase sigma factor RpoS in other systems [28–30]. Thus, it is possible that loss of Hfq in S. oneidensis causes low rpoS expression, resulting in poor induction of the rpoS regulon.