Project description:Chlorophyll a synthase (ChlG) is the enzyme responsible for attaching either a geranygeranyl or phytyl group to the chlorophyllide macrocycle during chlorophyll biosynthesis. Previous co-immunoprecipitation assays using FLAG-tagged ChlG identified the high light inducible protein HliD and the photosystem II assembly factor Ycf39 among the interaction partners. Non-protein components of this complex are the carotenoids zeaxanthin and myxoxanthophyll. To elucidate the function of these carotenoids in the association of ChlG/HliD/Ycf39, knockout strains of Synechocystis were produced to disrupt carotenoid biosynthesis. The abundances of HliD and Ycf39 relative to FLAG-tagged ChlG were compared in the different strains by proteomic analysis.

Project description:Prochlorococcus marinus is a highly abundant picocyanobacterium in Earth’s oceans and therefore a significant contributor to global primary production. This organism exists as different ecotypes, each occupying particular environments in the euphotic zone that differ in both solar penetration and nutrient levels. The ecotypes analysed here were isolated from depths of 5 m (MED4), 135 m (MIT9313) and 120 m (SS120) and cultured at low illumination. MED4, adapted to high light levels closer to the surface, was compared at both low and high illumination. In contrast to other cyanobacteria such as Synechocystis with a dominance of photosystem I (PSI) over photosystem II (PSII) complexes in the thylakoid membranes, MED4 and MIT9313 showed about equal levels. In MED4, the relative levels were almost the same in both the high and low light cultures. SS120 thylakoids contained a lower cytochrome b6f content and around two-fold more PSII than PSI. Additionally a significantly higher abundance of light-harvesting Pcb proteins was found in SS120 than the other ecotypes. This proteomic comparison was employed in conjunction with thylakoid membrane AFM imaging to rationalize the strategies these ecotypes use to survive in the different oceanic environments.

Project description:Regulation of gene expression is a sophisticated process leading to the activation or suppression of genes due to adaptation to environmental stimuli. The membrane-embedded FtsH proteases conserved in bacteria, chloroplasts and mitochondria, are involved in such regulation. The genome of the cyanobacterium Synechocystis sp. PCC 6803 encodes four FtsH homologues FtsH1-4, functioning in the form of oligomeric complexes. Homologue FtsH3 is bound in two hetero-oligomeric complexes, FtsH1/FstH3 and/or FtsH2/FtsH3, respectively. Previous data showed that the FtsH1/FtsH3 complex is involved in the acclimation of cells to iron deficiency by controlling the availability of the transcriptional regulator Fur (Sll0567). To gain more comprehensive insight into the physiological role of FtsH hetero-complexes, we carried out genome-wide expression profiling of a mutant conditionally depleted in FtsH3, grown under nutrient sufficiency and iron depletion. Our results show, that besides Fur, also the SufR and Pho regulons belong to the set of genes controlled by FtsH. Moreover, by combining the transcriptome data with in silico prediction we identified novel targets of Fur in Synechocystis PCC 6803. Fur tends to evoke mostly repression, but also appears to activate some target genes. We monitored the global gene expression in a conditional Synechocystis PCC6083 ftsH knockdown strain (FtsHdown) (Boehm et al., 2012) and a control strain (WT) at standard conditions and at iron depletion. The presence of ammonia to induced the conditional knockdown. Each sample was done in biological replicates.

Project description:FtsH Zn-metalloproteinases are multimeric, membrane-intrinsic and universally conserved in bacteria, chloroplasts and mitochondria. FtsHs function in protein turnover and processing: activities that are essential in maintaining cellular homeostasis. In phototrophic organisms, FtsHs are additionally involved in the biogenesis and repair of the photosystem complexes. The cyanobacterium Synechocystis synthesizes 4 homologous FtsHs: FtsH1, 2, 3, and 4. While the first 3 are known to function as hetero-oligomers FtsH1/3 and FtsH2/3, interactions involving FtsH4 are not fully characterized. Here, we determined the relative amounts of the 4 FtsHs in wild-type Synechocystis thylakoid membranes using the iBAQ method. In conjunction with FLAG-affinity pulldown experiments, FtsH4 was found not to associate with the other FtsHs. However, the uncharacterized protein Sll1106 was identified as an FtsH interaction partner.

Project description:Chroococcidiopsis thermalis is an extremophilic cyanobacterium that is adaptable to a widerange of environments including deserts, where it can maintain viability after desiccation. This species is also capable of photoautotrophic growth under far-red light (FRL, 750 nm) The proteomic comparison in this study, in conjunction with topographical imaging of thylakoid membranes by atomic force microscopy, supports earlier findings that FRL growth is accompanied by the synthesis of alternative photosynthesis-related proteins. Under white light (WL), a number of phycobilisome (PBS) and photosystem (PS) subunits were predominant at levels 2 - 14-fold greater compared to FRL growth. Two antenna family proteins were markedly more abundant under WL, with a fold-difference of approximately 80. While WL-associated proteins persisted at relatively low abundance under FRL, an exclusive set of PBS and PS subunit isoforms was expressed under FRL. These proteins were undetectable under WL, in many cases encoded in a discrete FRL-associated gene cluster. In line with the expected higher energy capture rate under WL, complexes associated with electron transport (eg. cytochrome b6f) and the ATP synthase were 1.2 – 3.4 times more abundant than under FRL.

Project description:Regulation of gene expression is a sophisticated process leading to the activation or suppression of genes due to adaptation to environmental stimuli. The membrane-embedded FtsH proteases conserved in bacteria, chloroplasts and mitochondria, are involved in such regulation. The genome of the cyanobacterium Synechocystis sp. PCC 6803 encodes four FtsH homologues FtsH1-4, functioning in the form of oligomeric complexes. Homologue FtsH3 is bound in two hetero-oligomeric complexes, FtsH1/FstH3 and/or FtsH2/FtsH3, respectively. Previous data showed that the FtsH1/FtsH3 complex is involved in the acclimation of cells to iron deficiency by controlling the availability of the transcriptional regulator Fur (Sll0567). To gain more comprehensive insight into the physiological role of FtsH hetero-complexes, we carried out genome-wide expression profiling of a mutant conditionally depleted in FtsH3, grown under nutrient sufficiency and iron depletion. Our results show, that besides Fur, also the SufR and Pho regulons belong to the set of genes controlled by FtsH. Moreover, by combining the transcriptome data with in silico prediction we identified novel targets of Fur in Synechocystis PCC 6803. Fur tends to evoke mostly repression, but also appears to activate some target genes.

Project description:We quantified proteins in the model cyanobacterium Synechocystis sp. PCC 6803 given the general importance of cyanobacteria for global photosynthesis, for synthetic biology and biotechnology research, and their ancestral relationship to the chloroplasts of plants. Four mass spectrometry methods were used to quantify 97 cellular components involved in the biosynthesis of chlorophyll, carotenoid and bilin pigments, membrane assembly, the light reactions of photosynthesis, fixation of carbon dioxide and nitrogen, and hydrogen and sulfur metabolism. One quantification method was calibrated with artificial 15N-labelled proteins comprising concatenated proteotypic tryptic peptides and the other three methods were label-free (DDA-iBAQ, DDA-Top3, DIA-Top3) calibrated with the Sigma UPS2 standard protein mixture. As expected, the quantification methods gave individual distributions of abundance levels for each target protein that, for statistical validity, were not combined into single central tendency and variation metrics. Instead, overlapping distributions were merged to provide consensus abundance ranges. Quantification, expressed as copy numbers per cell (cpc), spanned four orders of magnitude, representing the complete abundance range from <1000 to >100,000 cpc of the proteins representing the complexes and pathways that were the focus of this study.

Project description:Integrated breeding strategies are used to increase both the yield potential and stability of crops. Most of these approaches have a direct genetic basis. The utility of epigenetics in breeding to improve complex traits such as yield and stress tolerance is not clear. A better understanding of the status of the epigenome and its contribution to the agronomic performance would help in developing strategies to incorporate the epigenetic component of complex traits in breeding,Starting from isogenic canola lines, epilines were generated by selecting recursively during three generations for lines with a higher energy use efficiency and drought tolerance. These epilines were more energy use efficient, drought tolerant, high nitrogen use efficient, and higher yielding under suboptimal conditions. Moreover, these characteristics were transgenerational inheritable. Transcriptome comparison with a line selected for energy use efficiency only revealed common differentially expressed genes related to the onset of signaling events regulating stress tolerance. Genes related to salt, osmotic, abscisic acid and drought were specifically differentially expressed in the drought tolerant epilines. The status of the epigenome, scored as differential trimethylation of lysine 4 of histone 3, supports the energy use efficient and drought tolerant phenotype by facilitating transcription of the genes that are found to be differentially expressed.From these results it can be concluded that the epigenome can be shaped by selection to increase yield and stress tolerance. This acquired knowledge will support further development of strategies to incorporate epigenetics in breeding. SRA study accession: SRP052946, Bioproject: PRJNA273932. Two canola (Brassica napus L. spp. oleifera (Metzg) Sinsk. f. biennis) epilines with low respiration and high NAD(P)H content were selected. Grinded leaf material from 26 day-old control and both epilines was collected in triplicate and served as input for deep sequencing on Illumina GAIIx.

Project description:Using Mycoplasma pneumoniae as a model organism, we conditionally depleted the two essential ATP-dependent proteases (Lon and FtsH) of this bacterium, by engineering three strains carrying a Lon and/or FtsH inducible expression locus. An integrative comparative study combining label-free shotgun proteomics and RNA-seq allowed us to decipher the global cellular response to Lon and FtsH depletion and to define protease substrates in this genome-reduced organism.

Project description:We report the transcriptome of cultures of WT pMSP3535-PnisA-6his-ftsH(H456Y) and WT pMSP3535-PnisA-6his-ftsH following overnight induction with 125 ng/mL nisin