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Bacteria are generally assumed to be monoploid (haploid). This assumption is mainly based on generalization of the results obtained with the most intensely studied model bacterium, Escherichia coli (a gamma-proteobacterium), which is monoploid during very slow growth. However, several species of proteobacteria are oligo- or polyploid, respectively. To get a better overview of the distribution of ploidy levels, genome copy numbers were quantified in four species of three different groups of proteobacteria. A recently developed Real Time PCR approach, which had been used to determine the ploidy levels of halophilic archaea, was optimized for the quantification of genome copy numbers of bacteria. Slow-growing (doubling time 103 minutes) and fast-growing (doubling time 25 minutes) E. coli cultures were used as a positive control. The copy numbers of the origin and terminus region of the chromosome were determined and the results were in excellent agreement with published data. The approach was also used to determine the ploidy levels of Caulobacter crescentus (an alpha-proteobacterium) and Wolinella succinogenes (an epsilon-proteobacterium), both of which are monoploid. In contrast, Pseudomonas putida (a gamma-proteobacterium) contains 20 genome copies and is thus polyploid. A survey of the proteobacteria with experimentally-determined genome copy numbers revealed that only three to four of 11 species are monoploid and thus monoploidy is not typical for proteobacteria. The ploidy level is not conserved within the groups of proteobacteria, and there are no obvious correlations between the ploidy levels with other parameters like genome size, optimal growth temperature or mode of life.
The retrograde response constitutes an important signalling pathway from mitochondria to the nucleus which induces several genes to allow compensation of mitochondrial impairments. In the filamentous ascomycete Podospora anserina, an example for such a response is the induction of a nuclear-encoded and iron-dependent alternative oxidase (AOX) occurring when cytochrome-c oxidase (COX) dependent respiration is affected. Several long-lived mutants are known which predominantly or exclusively respire via AOX. Here we show that two AOX-utilising mutants, grisea and PaCox17::ble, are able to compensate partially for lowered OXPHOS efficiency resulting from AOX-dependent respiration by increasing mitochondrial content. At the physiological level this is demonstrated by an elevated oxygen consumption and increased heat production. However, in the two mutants, ATP levels do not reach WT levels. Interestingly, mutant PaCox17::ble is characterized by a highly increased release of the reactive oxygen species (ROS) hydrogen peroxide. Both grisea and PaCox17::ble contain elevated levels of mitochondrial proteins involved in quality control, i. e. LON protease and the molecular chaperone HSP60. Taken together, our work demonstrates that AOX-dependent respiration in two mutants of the ageing model P. anserina is linked to a novel mechanism involved in the retrograde response pathway, mitochondrial biogenesis, which might also play an important role for cellular maintenance in other organisms.
Background: Metabolic engineering is an attractive approach in order to improve the microbial production of drugs. Triterpenes is a chemically diverse class of compounds and many among them are of interest from a human health perspective. A systematic experimental or computational survey of all feasible gene modifications to determine the genotype yielding the optimal triterpene production phenotype is a laborious and time-consuming process. Methodology/Principal Findings: Based on the recent genome-wide sequencing of Saccharomyces cerevisiae CEN.PK 113-7D and its phenotypic differences with the S288C strain, we implemented a strategy for the construction of a beta-amyrin production platform. The genes Erg8, Erg9 and HFA1 contained non-silent SNPs that were computationally analyzed to evaluate the changes that cause in the respective protein structures. Subsequently, Erg8, Erg9 and HFA1 were correlated with the increased levels of ergosterol and fatty acids in CEN.PK 113-7D and single, double, and triple gene over-expression strains were constructed. Conclusions: The six out of seven gene over-expression constructs had a considerable impact on both ergosterol and beta-amyrin production. In the case of beta-amyrin formation the triple over-expression construct exhibited a nearly 500% increase over the control strain making our metabolic engineering strategy the most successful design of triterpene microbial producers.
This study comprises a survey on ecology, morphology and taxonomy of parasitic fungi infecting Pteridophytes and Orchidaceae found by the author on several field trips to Western Panama as part of the project plant parasitic micro-fungi of Western Panama (ppMP). In Panama, approximately 9500 species of vascular plants are found. Of these, Orchidaceae are with ca. 1150 (ca. 12%) species by far the most speciose family. The Pteridophytes in Panama comprise ca. 940 species in 31 families. Most fungal pathogens on Orchidaceae in tropical regions were described from plants in culture or from material intercepted at borders by plant quarantine services and not from their natural habitats. Therefore, little is known about distribution and ecology of these pathogens in their natural range. The author determined and classified several hundred Orchidaceae-species and Pteridophytes at the sites selected in the context of the project. This work facilitated the identification of many host plants (at least to genus-level) even in sterile condition in the field. About 65 species of Pucciniales are known to infest Orchidaceae and ca. 38% of them are described from tropical America. All available types of Pucciniales on Orchidaceae in tropical America were studied and compared with 91 specimens of rust fungi on orchids collected by the author in Panama. Several hundred additional specimens housed in the BPI, almost all intercepted from plant quarantine services, were used for comparison. As result of this work, it is suggested to combine Uromyces stenorrhynchi Henn. to Sphenospora and, as this is the oldest epithet, to synonymize S. kevorkianii Linder, S. mera Cumm. and S. saphena Cumm. with it. Further, it could be demonstrated that Uredo aurantiaca Montemartini, U. cyrtopodii Syd. & P. Syd., U. epidendri Henn., U. guacae Mayor, U. gynandrearum Corda, U. lynchii (Berk.) Plowr., U. neopustulata Cumm. (≡U. pustulata Henn.), U. nigropuncta Henn., U. oncidii Henn., U. ornithidii F. Kern., Cif. & Thurst., and presumably U. scabies Cke., are anamorphs of this variable species. U. gynandrearum is the oldest anamorph-name for all these taxa. Therefore, it can be established that this rust infects more than 80 species of Orchidaceae in three subfamilies. In total, the anamorph of this species was collected by the author on 17 different species of Orchidaceae in Panama which, apart from one species, are all new hosts to science. The molecular data obtained by the author confirm this view, although more data, especially from material from the whole range of distribution of U. gynandrearum, are necessary. Puccinia spiranthicola Cumm. was found to be a synonym of P. cinnamomea Diet. & Holw. and was found by the author on three different Orchidaceae in two subfamilies. Uredo pleurothallidis Keissl. is now considered a synonym of U. wittmackiana Henn. and the latter as the anamorph of Puccinia oncidii Cumm. In the anamorph genus Uredo, a new species was found infecting at least five different species of Sobralia and Elleanthus (Sobraliinae) at different localities. Molecular data indicate it to be related to the currently polyphyletic Phakopsoraceae. For the rusts with suprastomatal sori on Orchidaceae, now separated from Hemileia and placed in the genus Desmosorus (nom. inval.), the current concept with only one taxon is rejected and the establishment of three subspecies is suggested. The complicated taxonomy is discussed and makes it necessary to validate the genus-name and make a new combination. Another Hemileia-anamorph species was found by the author and is considered to be new to science. This is the first species of this alliance in America on Orchidaceae. Molecular data obtained by the author confirm the separation of Desmosorus from Hemileia and the position of the new species. For rusts on Pteridophytes, a new species of Milesia, (teleomorph: Milesina) and a new anamorphic species of Uredinopsis was found, both on hosts hitherto not known. In Calidion, the presumable anamorph-genus of Uncol, the species C. cf. cenicafeae Salazar & Buriticá was found on several new hosts. Further, the teleomorph was found. Morphologically, this teleomorph did not agree with the description of Uncol by the author of the genus, although the anamorph characteristics left no doubt that it is Calidion. Apparently, the description of Uncol is inadequate, but cannot be improved, as the type is unavailable. Molecular data obtained by the author show this species to be closest to Desmosorus. For Uredo superficialis Speg., the anamorph of Desmella, nine new hosts in eight different fern families were found by the author and the collaborators of the ppMP-project. Ecological data indicate that this species includes different host specific races, which, however could not be distinguished morphologically. For all these rusts, a thorough discussion of the ecology in their habitats is given. In total, 21 LSU rDNA sequences from 6 different rust species on Orchidaceae and Pteridophytes were obtained and analyzed with the Maximum Parsimony and Minimum Evolution method. Here, the position of several groups could be confirmed, and some anamorphs could be assigned to different teleomorphic relationships. Within the Ascomycota and their anamorphs, several hitherto unknown species and species not known from these hosts or not known from Panama were found and analyzed. On Orchidaceae, the following fungi belonging to the Ascomycota are described, illustrated and discussed: In the Phyllachorales, a hitherto not known Phyllachora sp. was found on Oncidium warszewiczii Rchb. f. and was compared with the other species of this order currently known from Orchidaceae. In the Asterinaceae s. l. Lembosia cf. epidendri Meir. Silva & O. R. Pereia was found on Maxillaria crassifolia (Lindl.) Rchb. f., which is a new host and new host alliance for this fungus hitherto only known from Brazil. The fungus is described and compared with all species of Asterinaceae currently known on Orchidaceae. In the Meliolaceae, Meliola orchidacearum Cif. was found on Camaridium biolleyi (Schltr.) Schltr. and an Epidendrum sp. which are new hosts and new host alliances of this fungus which was hitherto only known from the Caribbean Islands. It is described, illustrated and compared with the type. In the Glomerellaceae, Glomerella cingulata and its anamorph Colletotrichum gloeosporioides were found on several hosts. The species is illustrated, described and compared with data from literature. In the anamorphic Mycosphaerellaceae, Pseudocercospora odontoglossii (Prill. & Delacr.) U. Braun, a species currently only known from culture, was found on the new host Pleurothallis imraei Lindl. It is illustrated, described and compared with data from literature. On ferns, the following other fungi are described, illustrated and discussed: A conspicuous undescribed form of Polycyclus was found by the author on Elaphoglossum ciliatum (C. Presl.) T. Moore (Dryopteridaceae) and Serpocaulon loriceum (L.) A. R. Sm. (Polypodiaceae). A conspectus of Parmulariaceae infecting ferns is given and demonstrated that Polycyclina should be synonymized under Polycyclus. Summing up, it can be assessed, especially for the Pucciniales, that the most speciose plant family in Panama carries remarkable few species of specific parasites, and that many of them seem to be distributed over a wide range of species which often are not closely related. One reason amongst others seems to be that parasites need a minimum density of host plants in a habitat to survive. As orchid species often occur with only few (and often small) individual plants at a given locality, the probability for a specific pathogen to infect a plant gets too low, hence high diversity by low abundance of hosts might be an impediment for specific pathogens. In this case, unspecific parasites, or such which are infecting larger alliances, are in advantage. Other reasons could be specific traits of orchids, like succulence and mycotrophy which might hamper fungal infections.
Riboswitch RNAs fold into complex tertiary structures upon binding to their cognate ligand. Ligand recognition is accomplished by key residues in the binding pocket. In addition, it often crucially depends on the stability of peripheral structural elements. The ligand-bound complex of the guanine-sensing riboswitch from Bacillus subtilis, for example, is stabilized by extensive interactions between apical loop regions of the aptamer domain. Previously, we have shown that destabilization of this tertiary loop–loop interaction abrogates ligand binding of the G37A/C61U-mutant aptamer domain (Gswloop) in the absence of Mg2+. However, if Mg2+ is available, ligand-binding capability is restored by a population shift of the ground-state RNA ensemble toward RNA conformations with pre-formed loop–loop interactions. Here, we characterize the striking influence of long-range tertiary structure on RNA folding kinetics and on ligand-bound complex structure, both by X-ray crystallography and time-resolved NMR. The X-ray structure of the ligand-bound complex reveals that the global architecture is almost identical to the wild-type aptamer domain. The population of ligand-binding competent conformations in the ground-state ensemble of Gswloop is tunable through variation of the Mg2+ concentration. We quantitatively describe the influence of distinct Mg2+ concentrations on ligand-induced folding trajectories both by equilibrium and time-resolved NMR spectroscopy at single-residue resolution.
We found that the HMTase G9a, that catalyzes H3K9me2 in euchromatin, plays a key modulatory role in type I IFN expression. This finding raises the possibility of targeted intervention with type I IFN expression by using small synthetic inhibitors of G9a. Given the overall minimal negative effect of G9a-deficiency on differentiated cells, the short-term suppression of G9a could be used to potentiate type I IFN expression during chronic viral diseases such as hepatitis C. Accordingly, pharmacological enhancement of methylation, for example by inhibition of the H3K9me2 specific demethylases, could be potentially used to attenuate type I IFN expression and help to control chronic inflammatory and autoimmune conditions. The mechanism responsible for canvassing the epigenetic profile of type I IFN expressing cells are not known. It is plausible, that similar to neurons, where G9a is targeted to specific loci with the help of noncoding RNAs, IFN expressing cells possess similar mechanisms to target H3K9me2 demethylating enzymes to type I IFN loci, thus keeping these loci accessible for IFN-inducing transcription factors. Identification of non-coding RNAs that may contribute to the establishment of the epigenetic state of IFN producing cells will provide a further opportunity for targeted manipulation of IFN expression.
In my thesis, I describe the collaborative experiments that show the ability of synthetic compounds that interfere with the histone readers to suppress inflammation. Our results present a novel concept for the regulation of inflammatory gene expression. The diversity of histone readers and the combinatorial nature of regulation of gene transcription may provide an opportunity for highly selective interference with disease associated transcriptional programs by interfering with specific readers. In the future we plan to address the therapeutic potential of BET antagonists in autoimmune and chronic inflammatory conditions.In summary, the experiments described in my thesis provide an example of how the understanding of the basic mechanisms of chromatin control of gene expression can facilitate novel therapeutic approaches that target chromatin.
The translocation of nuclear-encoded precursor proteins into chloroplasts is a highly ordered process involving the action of several components to regulate this molecular ensemble. Not only GTP hydrolysis and GDP release but also the phosphorylation of TOC GTPases is a widely discussed mechanism to regulate protein import. The receptor component (Toc34) and its isoform of A. thaliana (atToc33) were found to be regulated by phosphorylation. Although the phosphorylation of Toc33 is already known for several years, several questions regarding the molecular components involved in the regulation of the phosphorylation process, precisely what is the protein kinase and where this kinase is initially localized, so far remained unclear.
This thesis aimed at the defining of the phosphorylation status of TOC GTPases in monomeric and/or dimeric states, the identification of the nature of Toc33-PK (protein kinase), and in the same context it aimed at gaining first insights into the physiological significance of Toc33 phosphorylation. To this end, (I) An in vitro and in vivo system for investigating of TOC GTPases Phosphorylation (in monomeric or dimeric state) was developed. Since no information is available about the phosphorylation status of the Toc159 isoforms, the second receptor of the TOC complex, it was interesting to investigate whether these isoforms undergo phosphorylation or not. The results indicated that atToc159 isoforms are able to be phosphorylated by the kinase activity in purified outer envelope membranes (OEMs) of pea, but not atToc132. Moreover, an artificial dimer of psToc34 based on the interaction of a C-terminally fused leucine zipper was not phosphorylated. This result reflected the inability of the OEM kinase to phosphorylate the dimers of TOC GTPases. Also, In vivo labeling of atToc33 was developed and occurred in a dose-dependent manner. Therefore, this results evidenced that in vitro phosphorylation of atToc33 (both endogenous wild type and recombinant expressed proteins) is not artificial labeling but represents a physiological relevance. CD (circular dichroism) measurements revealed that recombinant GTPase domain of atToc33 is preferentially phosphorylated in its folded state. Therefore, it could be suggested that folding of atToc33rec is a prerequisite for its phosphorylation and the phosphorylation event occurs as a posttranslational modification most likely after insertion of Toc33 (Toc34) into the OE of chloroplasts.
Secondly, (II) Isolation and identification of Toc33-PK from OEMs of chloroplasts was performed. Four independent strategies were developed to identify the Toc33-protein kinase: UV-induced and chemically-based crosslinking, different applied chromatographic techniques, identification of PK-Toc33 interaction by means of HDN-PAGE (histidine- and deoxycholate-based native PAGE), and finally mass spectrometric approaches were performed on fractions including the potential kinase activity. UV-induced crosslinking procedure was developed and resulted in covalent bonding of nine proteins to [a-32P] ATP, while chemically-based one was not significant. The applied chromatographic and HDN-PAGE approaches, including mass spectrometry, have revealed the identification of 13 protein kinases. Of these identified kinases, phototropin2 (Phot2, AT5G58140), leucine-rich repeat PK (LRR-PK, AT4G28650.1), and receptor-like transmembrane PK (RLK, AT5G56040.2) were selected as the most promising candidates (ca. kinase type and one transmembrane helix for membrane localization).
(III) The physiological significance of Toc33 phosphoryation was shown to link this process with the environmental changes (especially, the light conditions). Identification of chloroplast OE-located PKs performed by nLC-MALDI-MS/MS resulted in the detection of Phot2. Furthermore, the subcellular localization of Phot2 in OEM of chloroplasts was confirmed by immunoblotting experiments using a-Phot2 antibody. The kinase activity of Phot2 towards TOC GTPases was characterized and revealed that fused GST-KD (kinase domain) protein able to specifically phosphorylate atToc33rec, but not atToc159rec. Also, endogenous atPhot2 was upregulated and heavily detected in the ppi1-S181A plant line (where serine to alanine exchange was performed to abolish the phosphorylation of atToc33). Hence, we suggested that certain signal cascades may directly or indirectly link Toc33 receptor phosphorylation, protein levels of Phot2 (as promising PK candidate), and irradiation conditions (as an inducing signal of the subsequent phosphorylation events). Light-dependent phosphorylation of Toc33 was shown either after de-etiolation conditions or after high light intensities of blue light was performed. Therefore, phosphorylation of Toc33 might be identified as an external regulatory signal to regulate preproteins import into chloroplasts in response to environmental conditions (e.g. light changes) or as a signal of chloroplast biogenesis.