Therefore, the observed decrease in abundance might be related to the increased availability of acetyl-CoA for carotenoid biosynthesis.
Although most of the carbohydrate and lipid metabolism proteins showed similar levels during growth, we observed that several proteins related to acetyl-CoA synthesis showed maximal abundance in the lag phase, prior to the induction of carotenogenesis (Table 1), including acetyl-CoA synthetase, alcohol dehydrogenase and ATP-citrate lyase (See additional file 4, Fig. S2) [37, 38]. This result indicates that carbon flux to the biosynthetic pathways, including carotenogenesis, is tightly regulated to maintain cell activity in X. dendrorhous. Redox and stress response proteins Carotenoid accumulation is thought to be a survival strategy mTOR inhibitor not only for the alga H. pluvialis but also for other microorganisms, including X. dendrorhous [39]. It has been observed GNS-1480 chemical structure that carotenoid biosynthesis in carotenoid-producing microorganisms is stimulated by oxidative stress [40, 41]. Cellular antioxidant mechanisms include both non-enzymatic molecules, such as glutathione and several vitamins, and
ROS scavenger enzymes, such as superoxide dismutase (SOD), catalase and glutathione peroxidase [42]. Apparently, X. dendrorhous lacks these enzymatic defense systems [3]; in fact, we identified only the mitochondrial MnSOD protein (see additional file 2, Table S1). This protein showed a higher abundance at the end of the GW-572016 manufacturer exponential phase and continued to decrease during growth (Table
1 and additional file 4, Fig. S2). A proteomic study of H. pluvialis found that this protein is constitutively highly expressed and is progressively down-regulated after stress induction (see additional file 3, Table S2). In contrast, cytosolic CuSOD was found to be present in trace amounts and only up-regulated 48 h after stress induction [43]. Thus, an increase in the level of CuSOD and modulation of the level of MnSOD were found in response to stress in this carotenogenic alga. Moreover, in a comparative analysis of C. albicans grown on glucose-supplemented media, Sod21p (cytosolic manganese-dependent) was detected only in the stationary phase, whereas the Sod1p isoenzyme (Cu and Zn superoxide dismutase) was found only during exponential growth Resveratrol [24] (see additional file 3, Table S2). Taken together, these results suggest that the regulation of SOD is species-specific and depends on the growth phase. In the specific case of X. dendrorhous, we observed an increased level of MnSOD that coincided with the induction of carotenogenesis, which reinforces the antioxidant role of astaxanthin in the absence of other enzymatic antioxidant mechanisms. For the redox and stress response proteins, we observed distinct abundance patterns occurring before or during the induction of carotenogenesis.