| 1. |
- Caputo, Andrea, 1988-
(författare)
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Genomic and morphological diversity of marine planktonic diatom-diazotroph associations : a continuum of integration and diversification through geological time
- 2019
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Symbioses between eukaryotes and nitrogen (N2)-fixing cyanobacteria (or diazotrophs) are quite common in the plankton community. A few genera of diatoms (Bacillariophyceae) such as Rhizosolenia, Hemiaulus and Chaetoceros are well known to form symbioses with the heterocystous diazotrophic cyanobacteria Richelia intracellularis and Calothrix rhizosoleniae. The latter are also called diatom-diazotroph associations, or DDAs. Up to now, the prokaryotic partners have been morphologically and genetically characterized, and the phylogenetic reconstruction of the well conserved nifH gene (encodes for the nitrogenase enzyme) placed the symbionts in 3 clusters based on their host-specificity, i.e. het-1 (Rhizosolenia-R. intracellularis), het-2 (Hemiaulus-R. intracellularis), and het-3 (Chaetoceros-C- rhizosoleniae). Conversely, the diatom-hosts, major representative of the phytoplankton community and crucial contributors to the carbon (C) biogeochemical cycle, have been understudied.The first aim of this thesis was to genetically and morphologically characterize the diatom-hosts, and to reconstruct the evolutionary background of the partnerships and the symbiont integration in the host. The molecular-clock analysis reconstruction showed the ancient appearance of the DDAs, and the traits characterizing the ancestors. In addition, diatom-hosts bearing internal symbionts (with more eroded draft genomes) appeared earlier than diatom-hosts with external symbionts. Finally a blast survey highlighted a broader distribution of the DDAs than expected.The second aim of this thesis was to compare genetic and physiological characteristics of the DDAs symbionts with the other eukaryote-diazotroph symbiosis, i.e. prymnesiophyte-UCYN-A (or Candidatus Atelocyanobacterium thalassa). The genome comparison highlighted more genes for transporters in het-3 (external symbiont) and in the UCYN-A based symbiosis, suggesting that symbiont location might be relevant also for metabolic exchanges and interactions with the host and/or environment. Moreover, a summary of methodological biases that brought to an underestimation of the DDAs is reported.The third aim of this thesis was to determine the distribution of the DDAs in the South Pacific Ocean using a quantitative polymerase chain reaction (qPCR) approach and to outline the environmental drivers of such distribution. Among the het-groups, het-1 was the most abundant/detected and co-occurred with the other 2 symbiotic strains, all responding similarly to the influence of abiotic factors, such as temperature and salinity (positive and negative correlation, respectively). Globally, Trichodesmium dominated the qPCR detections, followed by UCYN-B. UCYN-A phylotypes (A-1, A-2) were detected without their proposed hosts, for which new oligonucleotides were designed. The latter suggested a facultative symbiosis. Finally, microscopy observations of the het-groups highlighted a discrepancy with the qPCR counts (i.e. the former were several order of magnitudes lower), leading to the idea of developing a new approach to quantify the DDAs. The fourth aim of this thesis was to develop highly specific in situ hybridization assays (CARD-FISH) to determine the presence of alternative life-stages and/or free-living partners. The new assays were applied to samples collected in the South China Sea and compared with abundance estimates from qPCR assays for the 3 symbiotic strains. Free-living cells were indeed detected along the transect, mainly at deeper depths. Free-living symbionts had two morphotypes: trichomes and single-cells. The latter were interpreted as temporary life-stages. Consistent co-occurrence of the 3 het-groups was also found in the SCS and application of a SEM model predicted positive interactions between the het groups. We interpreted the positive interaction as absence of intra-specific competition, and consistent with the previous study, temperature and salinity were predicted as major drivers of the DDAs distribution.
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| 2. |
- Tapani, Sofia, 1982
(författare)
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Stochastic modelling and analysis of early mouse development
- 2011
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- The aim of this thesis is to model and describe dynamical events for biological cells using statistical and mathematical tools. The thesis includes five papers that all relate to stochastic modelling of cells. In order to understand the development and patterning of the early mammalian embryo, stochastic modelling has become a more important tool than ever. It allows for studying the processes that mediate the transition from pluripotency of the embryonic cells to their differentiation. It is still unclear whether the positions of cells determine their future fates. One alternative possibility is that cells are pre-specified at random positions and then sort according to a already set fate. Mouse embryonic cells are thought to be equivalent in their developmental properties until approaching the eight-cell stage. Some biological studies show, in comparison, that patterning can be present already at sperm entry and in the pronuclei migration. We investigate in Paper I the dynamics of the pronuclei migration by analysing their trajectories and find that not only do the pronuclei follow a noise corrupted path towards the centre of the egg but they also have some attraction to each other which affects their dynamics. Continuing in Paper II and III, we use these results to model this behaviour with a coupled stochastic differential equation model. This enables us to simulate distributions that describe the meeting plane between pronuclei which in turn can be related to the orientation of the first cleavage of the egg. Our results show that adding randomness in sperm entry point is different from the randomness added through the environment of the egg. We are also able to show that data sets with normal eggs and eggs treated with an actin growth inhibitor give rise to considerably different model dynamics, suggesting that the treatment is affecting the migration in an invasive way. Altering the pronuclei dynamics can alter the polarity of the egg and may transfer into the later axis-formation process. Invasiveness of experimental procedures is a difficult issue to handle. The alternative to invasive procedures is not appealing since it means that important developmental features may not be discovered because of individual variability and noise, leading to guesswork of the underlying mechanisms. The embryonic cells are easily affected by treatments performed to make the measuring, made by hand, easier or by the light exposure of the microscope. Treatments as such are used for example for producing flourescent proteins in membranes or slowing processes down. Paper IV and Paper V serve to analyse how light induced stress affects yeast cells and we employ a method for analysing the noisy non-stationary time series, which are a result of the yeast experiments, using wavelet decomposition.
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| 3. |
- Edelbroek, Bart
(författare)
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Function and Evolution of Small Regulatory RNAs and their Associated Proteins : A Journey from Genome to Proteome
- 2024
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Organisms throughout the tree of life have evolved distinct ways to regulate gene expression. Some of these processes involve non-coding RNAs (ncRNAs), which are not translated but functional nonetheless. These ncRNAs are of utmost importance, with dysregulation of some causing severe developmental effects or even being lethal.In order to get a better fundamental understanding of gene regulation, and the ncRNAs that evolved to regulate gene expression, we study this in Amoebozoa. Members of this taxon vary greatly in lifestyle and organismal complexity. Some are strictly unicellular, free-living, whereas others, such as the social amoeba Dictyostelium discoideum can transition between unicellular and multicellular lifestyles. D. discoideum features a variety of small ncRNAs. Among these are the microRNAs. microRNAs have mostly been studied in plants and animals, where they are believed to have evolved convergently, and hypothesized to have played a role when these taxa evolved multicellular lifestyles. At what point the D. discoideum microRNAs evolved, how they function, and if they are involved in its multicellular lifestyle are fundamental questions addressed in this thesis. Here, we studied the evolution and function of microRNAs in a broad set of species belonging to Amoebozoa. We could identify microRNAs in all studied amoebae, and concluded that they are probably not involved in the evolution of multicellularity. To in detail investigate the evolution of microRNAs, we performed comparative genomics using D. discoideum and the close relative Dictyostelium firmibasis. For this, we sequenced, assembled and annotated the genome of the latter. At this point, our findings suggest that the microRNAs evolved several times in Amoebozoa, although we cannot rule out if they have a deep evolutionary history.The Class I RNAs are another type of ncRNAs. These, on the other hand, are only present in the social amoebae. They are hypothesized to regulate the transition from unicellular to multicellular in these species, potentially in a post-transcriptional manner. In order to investigate this, it is essential to understand to what extent the proteome and transcriptome correlate. Hence, we performed paired transcriptomics and proteomics in a time-series during multicellular development. By including a strain in which a specific Class I RNA is knocked out, we have initiated studies of its role during the transition to multicellularity.In conclusion, we were able to answer broad evolutionary and functional questions about gene regulation and ncRNAs by studying Amoebozoa from genome to proteome.
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| 4. |
- Hong, Kuk-ki, 1976
(författare)
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Advancing Metabolic Engineering through Combination of Systems Biology and Adaptive Evolution
- 2012
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Understanding evolutionary strategies of microorganisms may provide opportunities foradvanced strain development with the aim to produce valuable bio-products from renewablebiomass resources. Through evolutionary processes, microorganisms can attain new traitsassociated with genetic changes that may be useful for the construction of improved strains.Therefore, the characterization of evolutionary strategies may result in identification of themolecular and genetic changes underlying newly obtained traits, and can hereby become anessential step in strain development. However, so far the depth of analysis has limited the rangeof comprehension. This thesis applied genome-wide analyses such as transcriptome, metabolomeand whole-genome sequencing to investigate the evolutionary strategies of the yeastSaccharomyces cerevisiae. Three evolved mutants were independently generated by adaptiveevolution on galactose minimal media to obtain the trait of improved galactose utilization byyeast. Those strains expressed higher galactose utilization rates than a reference strain in terms ofboth maximum specific growth rate and specific galactose uptake rate. Application of thegenome-scale comparative analyses employing engineered strains as controls elucidated uniquechanges obtained by adaptive evolution. Molecular bases referred from the changes oftranscriptome and metabolome were located around galactose metabolism, while genetic basesfrom whole-genome sequencing showed no mutations in those changes. Common mutationsamong the evolved mutants were identified in the Ras/PKA signaling pathway. Those mutationswere placed on the reference strain background and their effects were evaluated by comparisonwith the evolved mutants. One of the site-directed mutants showed even higher specific galactoseuptake rate than the evolved mutants, and just few number of genetic and molecular changes wereenough to recover complete the adaptive phenotype. These results indicate that identification ofkey mutations provide new strategies for further metabolic engineering of strains. In addition, thepleiotropy of obtained phenotype that is improved galactose availability was tested. When thegalactose-evolved mutants were cultured on glucose that is the most favorite carbon source ofyeast, those mutants showed reduction of glucose utilization. Genome-wide analyses and sitedirectedmutagenesis were applied again to understand underlying molecular and genetic bases ofthis trade-off in carbon utilization. The results indicated that loosening of tight glucose regulationwas likely the reason of increased galactose availability. The implications of evolutionarystrategies and the impact of genome-scale analyses on characterization of evolved mutants arediscussed.
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| 5. |
- Nandakumar, Mridula
(författare)
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Pathogen-mediated selection in the immune system of rodents : Exploring selection targets, functional effects and trade-offs
- 2024
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Pathogens cause disease and play an important role in shaping evolution of the host immune system. They create pressure on host immunity to evolve in numerous ways, most commonly by increasing divergence between species (positive selection) or increasing polymorphisms within a population (balancing selection). Especially with balancing selection, trade-offs between different traits, for example responses to different pathogens, are essential. Across five papers, questions related to what immune genes are under selection, how this translates to an effect on the immune response and what trade-offs occur, are addressed using rodents as study system. Paper I utilised genomes from 30 rodent species to identify signatures of positive selection in immune genes. In general, function of immune genes was a significant determinant for signs of positive selection. This effect was significant even after accounting for potential confounding factors like gene expression and protein-protein interactions. In Paper II, the focus is on a local population of bank voles in Sweden, to look for signatures of balancing selection in the complement system – a branch of innate immunity. One complement gene, FCNA, was found to be under strong balancing selection. In Paper III, FCNA polymorphism was linked to associations with natural infections of Borrelia afzelii, a common pathogen for bank voles. Papers IV and V look at how the immune response of bank voles of various genotypes differ on stimulation with B. afzelii and the human pathogen Streptococcus pyogenes, captured with transcriptome sequencing of spleen cells. In Paper IV, the analysis is focused on various genotypes of TLR2, an immune gene under balancing selection in bank voles and associated with infection prevalence of B. afzelii in the wild. A stimulation-specific effect of TLR2 on immune response was found, where the magnitude of immune response to B. afzelii, but not S. pyogenes, depends on TLR2 expression level in a TLR2 genotype-specific way. In Paper V, tradeoffs at the cis-regulatory level between the response to B. afzelii and S. pyogenes was tested by searching for polymorphisms where the alleles are expressed differently to these two stimulations. Abundant cis-regulatory variation for responses to the two bacteria was found, but there was no evidence for trade-offs. In summary, this work pushes our knowledge of what immune genes can be expected to be under pathogen-mediated selection, as heretofore understudied categories of immune function showed signs of selection. A novel basis – the combination of genotype and expression – was uncovered for functional effects of polymorphic genes. Finally, there was no evidence for trade-offs between responses to different pathogens. Investigating the nature of trade-offs in the immune system further would be necessary towards understanding the causes and consequences of pathogen-mediated selection.
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| 6. |
- Bélteky, Johan
(författare)
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Chicken domestication : Effects of tameness on brain gene expression and DNA methylation
- 2016
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Domestication greatly increases phenotypic variation in a short time span, with selection for a single phenotype and a plethora of associated phenotypic changes as an outcome of the process. The domestication process influences the underlying genomic architecture of a species, and the success and speed of the process is likely influenced by it. The main aims of my thesis was to study how domestication affects the brain of chickens: specifically changes in morphology, gene expression, and DNA methylation. Differences in gene expression and DNA methylation between White Leghorn and Red Junglefowl chickens were mapped, and inheritance of these patterns were quantified, indicating a faithful transmission of breed-specific epigenetic markers. Selection on the behavioral trait fearfulness, generated high and low fearful lines of Red Junglefowl. Both the parental population and the fifth selected generation were used for the analyses in this thesis. One experiment studied morphological changes in the brain and other vital organs, and found that relative total brain size increased in high fearful birds, as a consequence of an increase in cerebral hemisphere size in high fearful birds and not in low fearful birds. Also, the relative heart, liver, spleen and testis size increased in high fearful birds, indicating correlated morphological changes with selection for fearfulness. Two additional experiments examined differential gene expression in the hypothalamus and the anterior cerebral hemisphere. The hypothalamus differed in expression of genes with reproductive and immunological functions, whilst the cerebral hemisphere differed in expression of genes related to social behaviors and neurological functions especially those upregulated in low fearful birds. These results indicate the occurrence of tissue- and species-specific changes in gene expression as overlap with other domestication events were nearly nonexistent. A fourth experiment sought to associate the change in fear levels and gene expression differences with DNA methylation. Chromosomal regions with differential DNA methylation between high and low fearful birds were identified, and genes in these regions had annotated functions relevant to phenotypic differences between the selection lines. This thesis is the first to study the genetic alterations of domestication using the wild ancestor of an already domesticated species to repeat the domestication process selecting against fear of humans. The findings corroborate results from previous comparisons of wild and domestic animals, and further support the theory that rigorous selection for a behavioral trait can cause a cascade of genetic and epigenetic changes facilitating the domestication of a population.
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| 7. |
- Nilsson, R. Henrik, 1976
(författare)
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Fungal taxonomy and systematics in the digital era, with an outlook on the cantharelloid clade (Basidiomycota)
- 2007
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Fungi form a large and ubiquitous group of organisms where species identification and delimitation on morphological grounds often fall short. DNA sequences have proved an invaluable information source for these pursuits and are now routinely used in most mycological laboratories. Newl generated DNA sequences are typically compared with the entries of the large INSD sequence database for inference of taxonomic affiliations and other properties using the sequence similarity search tool BLAST. This thesis highlights some practical difficulties in using BLAST for these purposes it is for example very sensitive to the length of the sequences - and shows that improper use of BLAST appears to have had considerable repercussion on the general level of taxonomic reliability of the fungal sequences in INSD, more than 10% of which may be incorrectly identified to species level. An initiative to build a new DNA sequence database for taxonomically reliable DNA-based identification of mycorrhizal (plant-mutualistic) fungi is described. The database differs from similar initiatives in that its entries are determined to species level by pertinent experts; it allows for integrative sequence annotations, including photos and morphological descriptions; and it employs new, phylogeny-based tools for sequence identification to alleviate the concerns with simplistic, similarity-based tools as arbiters of taxonomic affiliation. That phylogenetic analyses can be beneficial also to classification and nomenclatural projects is shown in the mor enterprise, which is a weekly automaton of Agaricomycetes (mushroom-forming fungi) phylogeny. All fungal sequences from the nuclear ribosomal large subunit gene are assembled on a weekly basis; automated phylogenetic analyses are undertaken; and the resulting phylogenetic trees are displayed and analyzed for changes in clade topology and inclusiveness. The enigmatic cantharelloid clade of the Agaricomycetes is studied using a four-gene phylogenetic approach. While this heterogeneous assembly of mushroom-like, resupinate, clavarioid, and lichen-forming fungi defies any morphological attempt at indicating a close relatedness for its species, the results from the molecular analyses show that there is indeed strong evidence to support that these fungi form a monophyletic group; a restrictive circumscription of the clade to include the genera Botryobasidium, Sistotrema, Multiclavula, Membranomyces, Hydnum, Clavulina, Cantharellus, and Craterellus is advocated. Stichic basidia, and to a lesser extent parenthesome ultrastructure, are found to be characteristic of the clade, and the previously reported divergent rates of evolution for the genera Cantharellus and Craterellus are shown to be limited to the nuclear ribosomal genes. The largely resupinate, and purportedly wood-decaying, genus Sistotrema is demonstrated to hold mycorrhizal lineages, and the molecular evidence to consider the genus polyphyletic is found to be very convincing.
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| 8. |
- Bag, Pushan, 1993-
(författare)
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How could Christmas trees remain evergreen? : photosynthetic acclimation of Scots pine and Norway spruce needles during winter
- 2022
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Plants and other green organisms harvest sunlight by green chlorophyll pigments and covertit to chemical energy (sugars) and oxygen in a process called photosynthesis providing the foundation for life on Earth. Although it is unanimously believed that oceanic phytoplanktons are the main contributors to the global photosynthesis, the contribution of coniferous boreal forests distributed across vast regions of the northern hemisphere cannot be undermined. Hence boreal forests account signifificantly for social, economical and environmental sustainability. Not only do conifers thrive in the tundra regions with extreme climate, but they also maintain their needles green over the boreal winter. A question remains; what makes them so resilient? In this respect, we aimed to understand the remarkable winter adaptation strategies in two dominant boreal coniferous species,i.e., Pinus sylvestris and Picea abies. First, we mapped the transcriptional landscape in Norway spruce (Picea abies) needles over the annual cycle. Transcriptional changes in the nascent needles reflflected a sequence of developmental processes and active vegetative growth during early summer and summer. Later after maturation, transcriptome reflflected activated defense against biotic factors and acclimationin response to abiotic environmental cues such as freezing temperatures during winter. Secondly, by monitoring the photosynthetic performance of Scot pine needles, we found that the trees face extreme stress during the early spring (Feb-Mar) when sub-zero temperatures are accompanied by high solar radiation. At this time, drastic changes occur in the thylakoid membranes of the chloroplast that allows the mixing of photosystem I and photosystem II that typically remain laterally segregated. This triggers direct energy transfer from PSII to PSI and thus protects PSII from damage. Furthermore, we found that this loss of lateral segregation may be a consequence of triple phosphorylationof Lhcb1 (Light harvesting complex1 of photosystem II). The structural changes in thylakoid membranes also lead to changes inthe thylakoid macro domain organisationand pigment protein composition. Furthermore, we discovered that while PSII is protected by direct energy transfer, the protection of PSI is provided through photoreduction of oxygen by flavodiiron proteins, which in turn allows P700 to stay in an oxidised state necessary for direct energy transfer. These coordinated cascades of changes concomitantly protect both PSI and PSII to maintain the needles green over the winter.
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| 9. |
- Wieloch, Thomas, 1979-
(författare)
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Intramolecular isotope analysis reveals plant ecophysiological signals covering multiple timescales
- 2019
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Our societies' wellbeing relies on stable and healthy environments. However, our current lifestyles, growth-oriented economic policies and the population explosion are leading to potentially catastrophic degradation of ecosystems and progressive disruption of food chains. Hopefully, more clarity about what the future holds in store will trigger stronger efforts to find, and adopt, problem-focused coping strategies and encourage environmentally friendly lifestyles.Forecasting environmental change/destruction is complicated (inter alia) by lack of complete understanding of plant-environment interactions, particularly those involved in slow processes such as plant acclimatisation and adaptation. This stems from deficiencies in tools to analyse such slow processes. The present work aims at developing tools that can provide retrospective ecophysiological information covering timescales from days to millennia.Natural archives, such as tree-rings, preserve plant metabolites over long timescales. Analyses of intramolecular isotope abundances in plant metabolites have the potential to provide retrospective information about metabolic processes and underlying environmental controls. Thus, my colleagues and I (hereafter we) analysed intramolecular isotope patterns in tree rings to develop analytical tools that can convey information about clearly-defined plant metabolic processes over multiple timescales. Such tools might help (inter alia) to constrain plants' capacities to sequester excess amounts of anthropogenic CO2; the so-called CO2 fertilisation effect. This, in turn, might shed light on plants' sink strength for the greenhouse gas CO2, and future plant performance and growth under climate change.In the first of three studies, reported in appended papers, we analysed intramolecular 13C/12C ratios in tree-ring glucose. In six angiosperm and six gymnosperm species we found pronounced intramolecular 13C/12C differences, exceeding 10‰. These differences are transmitted into major global C pools, such as soil organic matter. Taking intramolecular 13C/12C differences into account might improve isotopic characterisation of soil metabolic processes and soil CO2 effluxes. In addition, we analysed intramolecular 13C/12C ratios in a Pinus nigra tree-ring archive spanning the period 1961 to 1995. These data revealed new ecophysiological 13C/12C signals, which can facilitate climate reconstructions and assessments of plant-environment interactions at higher resolution; thus providing higher quality information. We proposed that 13C/12C signals at glucose C-1 to C-2 derive from carbon injection into the Calvin-Benson cycle via the oxidative pentose phosphate pathway. We concluded that intramolecular 13C/12C measurements provide valuable new information about long-term metabolic dynamics for application in biogeochemistry, plant physiology, plant breeding, and paleoclimatology.In the second study, we developed a comprehensive theory on the metabolic and ecophysiological origins of 13C/12C signals at tree-ring glucose C-5 and C-6. According to this theory and theoretical implications of the first study on signals at C-1 to C-3, analysis of such intramolecular signals can provide information about several metabolic processes. At C-3, a well-known signal reflecting CO2 uptake is preserved. The glucose-6-phosphate shunt around the Calvin-Benson cycle affects 13C/12C compositions at C-1 and C-2, while the 13C/12C signals at C-5 and C-6 reflect carbon fluxes into downstream metabolism. This theoretical framework enables further experimental studies to be conducted in a hypothesis-driven manner. In conclusion, the intramolecular approach provides information about carbon allocation in plant leaves. Thus, it gives access to long-term information on key ecophysiological processes, which could not be acquired by previous approaches.The abundance of the hydrogen isotope deuterium, δD, is important for linking the water cycle with plant ecophysiology. The main factors affecting δD in plant organic matter are commonly assumed to be the δD in source water and leaf-level evaporative enrichment. Current δD models incorporate biochemical D fractionations as constants. In the third study we showed that biochemical D fractionations respond strongly to low ambient CO2 levels and low light intensity. Thus, models of δD values in plant organic matter should incorporate biochemical fractionations as variables. In addition, we found pronounced leaf-level δD differences between α-cellulose and wax n-alkanes. We explained this by metabolite-specific contributions of distinct hydrogen sources during biosynthesis.Overall, this work advances our understanding of isotope distributions and isotope fractionations in plants. It reveals the immense potential of intramolecular isotope analyses for retrospective assessment of plant metabolism and associated environmental controls.
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| 10. |
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