elongatus ortholog ( Axmann et al., 2009 and Terauchi
LY294002 order et al., 2007). As shown for the S. elongatus system, KaiB influenced the ATPase activity. This proves an interplay of the MED4-Kai proteins and suggests that regulation of ATPase activity rather than generation of phosphorylation and dephosphorylation cycles might be the main function of the KaiBC system in MED4 ( Axmann et al., 2009). Besides the core clock, the input and output pathways of the timing system seem to be reduced in MED4 as well: The cikA gene was lost most likely between 1050 and 600 Ma ago ( Baca et al., 2010) and no labA as well as pex homologs can be found ( Axmann et al., 2009 and Holtzendorff et al., 2008). Contrarily, ldpA, sasA and rpaA are present, which implies that at least one functional input and one functional output pathway remain in this genus ( Axmann et al., 2009, Dvornyk et al., 2004 and Holtzendorff et al., 2008). Fig. 1B illustrates how the reduced Selleck Ipilimumab network present in MED4 might contribute to temporal organization: An input signal might be transmitted via the LdpA homolog, PMM1560, which is likely sensitive to the redox state of the cell ( Ivleva et al., 2005), into the central
timer consisting of KaiB and KaiC, thereby refining the putative ATPase cycle of KaiC. Besides, KaiC might sense changes in the internal ATP/ADP ratio during day–night cycle to synchronize with the environment like in S. elongatus. However this still needs to be proven in the cell. The timing signal Meloxicam stored in KaiC could be forwarded via homologs of SasA (PMM1077), and RpaA (PMM0128), to drive global gene expression, including kaiBC transcription. Apart from MED4, we analyzed clock-related genes conserved in genomes of eight primarily marine
cyanobacterial strains: T. erythraeum IMS 101 (Trichodesmium), Nodularia spumigena CCY 9414 (Nodularia), Unicellular cyanobacterium UCYN-A (UCYN-A), Cyanothece sp. ATCC 51142 (Cyanothece), C. watsonii WH 8501 (Crocosphaera), Synechococcus sp. PCC 7002 (S. PCC 7002), Synechococcus sp. WH 7803 (S. WH 7803), Acaryochloris marina MBIC 11017 (Acaryochloris) in comparison to the model system of S. elongatus. The primitive cyanobacterium Gloeobacter violaceus PCC 7421 (Gloeobacter) that was isolated from a rock surface ( Rippka et al., 1974) was also included for comparison. Table 1 shows these species divided into subsections as designated by Rippka et al. (1979): I, unicellular; II, baeocystous; III, filamentous; IV, able to form differentiated cells; V, able to form branching filaments. Almost all species we have chosen belong to Subsection I with two exceptions: Trichodesmium has been assigned to subsection III and Nodularia to subsection IV. We observed a large diversity of the composition of the putative clock components. On the one hand, there are strains which harbor multiple copies of kaiB, like Trichodesmium, Nodularia, S.