Scanning EM of freeze-fractured cells also revealed globules within cytoplasmic bridges traversing the chloroplast, presumably representing the pathway of migration. Close alignments of globules with endoplasmic reticulum (ER) membranes were also NVP-BGJ398 in vivo observed following VHL illumination. We propose that light-induced globule migration is regulated by the redox state of the photosynthetic electron transport system. Possible mechanisms of actin-based globule migration are discussed. “
“The LI818 proteins and their Lhcx homologs in diatoms are a subgroup of the light-harvesting (LHC) antenna family, suspected of being involved in photoprotection
and stress resistance. In this work, we report that the transcription
of three LI818–like genes in Thalassiosira pseudonana Hasle et Heimdal (Lhcx1, Lhcx5, and Lhcx6) was down-regulated under iron or copper deprivation and when both trace metals were limiting, as was the case for Lhcf4, one of the standard light-harvesting genes. By contrast, the protein encoded by Lhcx1 was clearly up-regulated under iron limitation, suggesting that this gene is independently regulated at transcriptional and translational levels. In general, copper starvation had less effect on the expression of light-harvesting protein genes than iron deprivation, reflecting the different roles of iron and copper in photosynthetic check details function, that is, as an essential part of the electron transport chain versus as a cofactor for enzymes required to
deal with the reactive oxygen species that result from inhibition of electron flow. Our results suggest that the Lhcx1 protein may be involved in stabilizing the photosynthetic apparatus when decreased nonphotochemical quenching (NPQ) results from Fe deficiency. “
“Fifty-three strains of the genus Aphanizomenon isolated from Chinese waters were employed to conduct morphological examination and sequencing of the 16S rRNA gene, rbcLX (RUBISCO), and cpcBA-IGS gene regions. Based on morphological characteristics, the examined strains were divided into three morphotypes [Aph. flos-aquae Bréb. ex Bornet et Flahault, MCE Aph. gracile Lemmerm., and Aph. issatchenkoi (Usacer) Proshk.-Lavr.]. Phylogenetic analysis based on 16S rRNA and rbcLX showed that Aphanizomenon strains could be divided into three main clades (Clade A of Aph. flos-aquae, Clade B of Aph. gracile, and Clade C of Aph. issatchenkoi), but two additional clades formed by Aph. ovalisporum and Aph. aphanizomenoides were detected in the 16S rDNA-based topology. All Aph. issatchenkoi strains contained an additional 175 nucleotides from the 779 to 954 nucleotide location in rbcLX region, compared with strains of Aph. flos-aquae and Aph. gracile. The cpcBA-IGS-based phylogenetic tree revealed that Aph. issatchenkoi strains were not discriminated from Aph.