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- Biowissenschaften (199) (remove)
In recent years, the popularity of rock-climbing has grown tremendously, setting an increasing pressure on cliff habitats. Climbing may be particularly harmful in the Mediterranean biome due to its appropriate environmental conditions for climbing. A few studies have identified the effect of climbing on plant diversity at a small-scale (namely locally or even just in specific climbing areas). However, no studies exist assessing the potential risk of rock-climbing on a broad-scale (e.g., regional or national). The study aims to identify the priority locations and priority cliff plant species in Spain to focus future study efforts. Spain was selected because it is a plant biodiversity hotspot, with a great diversity of endemic and endangered species, and one of the most popular destinations for climbers. We used a geographic information system-based approach to model the spatial concurrence among Spanish climbing areas (and climbing intensity), natural protected areas (NPAs), and distribution of threatened cliff plants (and their IUCN threat category). We found that 53.5% of climbing areas in Spain are located within a NPA, most of them falling into NPAs of medium protection level. We mapped 151 threatened cliff plants, identifying four medium priority Mediterranean locations and eight priority species in which future research efforts should be focused. High-priority study locations are absent in Spain according to our spatial modeling. For the first time on a national scale, this study identifies areas in which climbing represents a potential threat for cliff habitats and threatened plants. These findings contribute to designing field studies on the effects of rock-climbing on Mediterranean cliffs, laying the groundwork for a sustainable, yet challenging, balance between the protection of these unique habitats and rock-climbing.
Until quite recently, stem cell technology mainly focused on pure populations of embryonic stem cells (ES) derived from the inner cell mass of the blastocyst and induced pluripotent stem cells (iPS). Using organoids, a newly established culture technique, it is now possible to culture also organ and patient-specific adult stem (AS) and induced pluripotent stem (IPS) cells in vitro. Furthermore, it has been shown that adult stem cells, grown as organoids, are genetically stable, proliferate and maintain their multi-potency (often a bi-potency) for months. This is possible by providing conditions that recapitulate the stem cell niche of the corresponding organ. Particularly, defined growth factors and a physiological scaffold, which is provided by an extracellular matrix (ECM). Because of increasing research activities, organoids became influential in the recent years. Wide-ranging interest also led to a clearer definition: organoids must contain multiple organ-specific cell types, must be able to recapitulate some organ specific functions, and the cells must be spatially organized in a way similar to the organ they are derived from. The excitement about organoids is based on their high potential as a model to understand wound healing, cellular behaviour and differentiation processes in organogenesis. Furthermore, high potential in the drug development and in personalized stem cell therapeutic approaches has been shown. Specifically, for personalized stem cell therapy, one potential application is for chronic autoimmune diseases such as Diabetes type 1 (T1D). T1D is characterized by the immune-mediated destruction of ß-cells in the Pancreas that leads to absolute insulin deficiency. In T1D the first-line therapeutic approach is exogenous insulin replacement therapy, which always implicates the risk of high fluctuations in blood-sugar levels and therefore the risk of hypoglycaemia. Another therapeutic approach is the xenotransplantation of islets from human donors. A successful islet transplantation allows patients a years-long insulin independence. However, the therapeutic value of islet transplantation is highly limited by the availability of organ donors and by the need for chronic administration of immune suppressive medication. The use of pancreas organoids offers a promising alternative as a personalized cell therapeutic approach to treat T1D without the hypoglycaemia risks of the established therapies. In 2013 Meritxell Huch and colleagues established for the first-time organoids from the exocrine, ductal part of the pancreas. These pancreas organoids are characterized by a monolayered, spherical cell epithelium which comprises a liquid filled lumen. In addition, they showed that after transplantation of these cells into immunodeficient mice, they differentiate into ß-cells and cure T1D. However, basic knowledge of the culture growth behaviour is still lacking: to date, no growth parameters are defined and reliable and robust investigation approaches are still missing. Furthermore, basic knowledge about the organoid development and biochemical/biophysical mechanisms that generate the phenotypic structure are not identified. For a clinical approach these parameters are fundamental and therefore must be defined pre-clinically.
The aim of this study is the preclinical characterization of the hPOs...
Coupling between epidermis and amphid morphogenesis during embryonic development of C. elegans
(2021)
Sensory organs are fundamental for survival of animal populations, since the detection of environmental stimuli is crucial for localization of nourishment, predators or mating partners. In nematodes, the amphid (AM) sensilla are the largest sensory organs for detection of chemical compounds.
This study investigates how the AM sensilla acquire their special elongated shape during lima-bean to 1.5-fold embryonic stages of C. elegans head development. The dissertation also examines events facilitating the morphogenesis of other head sensilla (IL/OL/CEP) and addresses aspects of general embryonic head morphogenesis. Using high resolution live-cell imaging techniques with different combinations of markers highlighting specific tissues, this study shows that epidermal head enclosure, migration of AM socket cells (pores) and translocation of AM dendrite tips are coupled processes, facilitating the elongation of AM dendrites. Importantly, during AM dendrite elongation the AM neural cell bodies are staying stationary. Manipulation through conducting UV-Laser ablation (epidermis close to pore/pore) and RPN-6.1 dsRNA interference resulted in compromised AM pore migration and impaired dendrite elongation. This leads to the conclusion that AM pores need to be physically attached (through C. elegans apical junctions, CeAJ) to the migrating epidermal sheet and to AM dendrite tips for successful AM morphogenesis. This study infers that RPN-6.1 plays an important role for correct AM pore morphogenesis and AM pore to AM dendrite tip attachment. Our results lead to the conclusion that head enclosure drives AM pore migration and AM dendrite elongation with AM neural cell bodies staying stationary. Thereby, CeAJ are interconnecting AM dendrite tips to AM pores and CeAJ link the sensillar ending to the migrating epidermis. Thus, migration of attached target tissue (pore), with neural cell bodies staying stationary (constituting an abutment), creates a pulling force facilitating AM dendrite elongation. This passive neurite elongation procedure is coined dendrite towing in this study.
Additionally, this study discovers that translocation of IL, OL and CEP head sensilla pores is influenced by apical constriction. This conclusion was made based on the findings that IL/OL/CEP pores migrate towards the prospective mouth anterior to the epidermal leading edge, separated from AM pores and irrespective of highly impaired AM sensilla morphogenesis after strong RPN-6.1 depletion. Also, concurrent with translocation of IL/OL/CEP pores, bottle-shaped cells occur and non-muscle-myosin and apical polarity factors are getting enriched at the anterior most part of the head, indicating de-novo manifestation of apical constriction. It is furthermore assumed that apical constriction in arcade cells might contribute to early pharynx development. All in all, this study reveals two force-generating events: Head enclosure-driven AM sensilla morphogenesis via dendrite towing and, otherwise, apical constriction-facilitated translocation of IL/OL/CEP sensilla pores. These events can get separated by graded depletion of the proteasome activator RPN-6.1.
Eine große Gruppe von Aptameren sind die Guanosintriphosphat (GTP) Aptamere. Diese zeigt sehr eindrücklich, wie RNA unterschiedliche Strategien nutzt, um denselben Liganden zu erkennen. Die komplette Struktur des GTP Klasse II Aptamers wird in der ersten Publikation gezeigt. Interessanterweise zeichnet die Struktur ein stabil protoniertes Adenine unterhalb der GTP-Bindestelle aus. Dieses wurde durch eine Kombination aus weiterführenden NMR- und ITC-Experimente untersucht und charakterisiert. Es zeigte sich, dass die protonierte Base einen pKs-Wert hat, der weit von der Neutralität verschoben ist. Die Protonierung ist auch noch bei sehr basischen Puffern stabil.
Eine Art der funktionellen Protonierung wird von den zyklischen di-Nukleotiden (CDN) bindenden Riboswitches genutzt, um zwei CDN mit ähnlicher Affinität zu binden. c-di-GMP Riboswitches wurden als regulatorische Einheit beschrieben und deren Kristallstruktur aufgeklärt. Mutationsexperimente führten dazu, dass bei einer G-zu-A Mutation an der Gα-Bindestelle die Selektivität des Riboswitches verändert wurde. Die Mutante bindet sowohl c-di-GMP als auch cGAMP mit ähnlichen Bindungsaffinitäten. Riboswitche, die cGAMP binden wurden auch in der bakteriellen Genomen gefunden. Hierbei ist die Promiskuität unterschiedlich stark ausgeprägt. Die Untersuchung des Bindungsmodus und der damit verbundenen Promiskuität ist in der zweiten Publikation beschrieben. Hier wurde gezeigt, dass die Riboswitche beide Liganden nur binden können, wenn zur Bindung von c-di-GMP das Ligand bindende A protoniert vorliegt. Auch diese Protonierung konnte mit weiterführenden NMR- und ITC-Experimenten charakterisiert werden. Die Untersuchungen einer solch großen RNA sind mit NMR Spektroskopie herausfordernd. Hierbei wurde ausgenutzt, dass die Kristallstruktur bereits bekannt war, welche allerdings die Protonierung nicht zeigte. Auch diese Protonierung zeigt einen pKs-Wert, der weit von der Neutralität verschoben ist und außerdem bei unterschiedlichen pH stabil ist.
In den beiden untersuchten Beispielen wurden zwei verschiedene Arten von Protonierung gezeigt: eine strukturelle und eine funktionelle. Das GTP Klasse II Aptamer benutzt die Protonierung als strukturelle Basis für die Basis der Ligandenbindungsstelle. Hierbei werden durch die Protonierung des Adenines mehr nutzbare Wasserstoffbrücken ausgebildet und damit die Tertiärstruktur stabilisiert. Im Unterschied dazu nutzen die promiskuitiven CDN Ribsowicthes die Protonierung, um verschiedene Liganden binden zu können und es kommt damit zu einer Verschiebung der Funktionalität. Der regulatorische Nutzen dafür ist allerdings noch unbekannt.
Auch bei den SAM Riboswitches wurde ein promiskuitiver Vertreter beschrieben. SAM Riboswitches gehören zu den am längsten bekannten Klassen der Riboswitches. Bis heute sind hier die meisten unterschiedlichen Klassen bekannt. SAM wird häufig als Donor für funktionelle Gruppen benutzt, besonders häufig als Methlygruppendonor für die Methylierung einer Reihe unterschiedlicher Substrate (z.B. DNA, Proteine, Metabolite etc.). Bei dieser Reaktion entsteht SAH als Nebenprodukt. Zusätzlich ist SAH zelltoxisch, da es affin an Methyltransferasen bindet und damit diese essenzielle Reaktion inhibiert. Eine enge Kontrolle der SAH-Konzentration ist daher kritisch. SAM bindende Riboswitches haben zu SAM eine bis zu 1000-fach höhere Bindungsaffinität im Vergleich zu SAH. Die Beschreibung eines translationalen OFF-Riboswitches, der SAM und SAH mit ähnlicher Affinität bindet, ist daher überraschend. Zumal seine Genassoziation fast ausschließlich zu SAM Synthetasen ist, deren Regulation durch SAH wenig sinnvoll erscheint. Um ein besseres Verständnis für die Funktion des SAM/SAH Riboswitches zu erhalten, wurde seine 3D-Struktur mittels NMR-Spektroskopie aufgeklärt, wie in der vierten Publikation beschrieben. Dafür mussten zunächst alle Resonanzen der Sequenz und dem Liganden zugeordnet werden, wie in der dritten Publikation beschrieben. Dabei wurde als Ligand SAH gewählt, da dieser chemisch stabiler und damit für die teils tagelangen NMR-Messungen besser geeignet ist. Zusätzlich wurden Mutanten bzw. verwandte Liganden mittels ITC Experimente auf ihre Bindungseigenschaften untersucht, um die Bedeutung der Linkerlänge, einzelner Basenpaare und funktionelle Gruppen des Liganden zu untersuchen. Bei anderen bekannten SAM Riboswitches umschließt die RNA den Liganden fast komplett. Dabei wird zum einem das Sulfoniumion spezifisch durch die Carboxylgruppen verschiedener Uracil-Nukleotide erkennt und koordiniert. Außerdem bildet sich eine Bindetasche aus, die genug Platz für die stabile Bindung der Methylgruppe hat. Beim SAH Riboswitch wird die Selektivität für SAH dadurch erreicht, dass die Bindetasche sterisch keinen Platz für die Methylgruppe von SAM bereitstellt.
Zusammenfassend wurden in dieser Arbeit drei verschiedene Ligand bindende RNA-Strukturen untersucht, die alle sehr unterschiedliche Strategien zur Bindung der Liganden nutzen. Obwohl Portionierungen bei Aptameren und Riboswitches selten beschrieben wurden, haben sie eine maßgebliche Funktion in den beiden zuerst untersuchten Strukturen. Obwohl bisher im Hinblick auf alle bekannten RNA Strukturen eher selten beschrieben, gibt es doch neben den genannten zwei, einige Beispiele für strukturelle oder funktionelle Protonierungen. Auch in Hinblick auf zukünftige bzw. Verbesserung bestehender RNA-Strukturvorhersage-Programme ähnlich wie sie für Proteine schon lange nutzt werden, müssen protonierte Nukleobasen ernsthaft in Betracht gezogen werden. Außerdem konnte gezeigt werden, dass zwei der untersuchten Riboswitches zwei Liganden mit ähnlicher Affinität binden. Die genutzte Strategie ist hierbei unterschiedlich. Während bei den promiskuitiven CDN Riboswitches der regulatorische Nutzen noch unbekannt ist, konnte für den SAM/SAH Ribsowitch gezeigt werden, dass SAH nur zufällig aufgrund der wahrscheinlich sehr niedrigen intrazellulären Konzentration gebunden wird und dieser daher wahrscheinlich später in der evolutionären Entwicklung entstanden ist. Riboswitches halten es weiterhin spannend.
Despite all advancements in cancer research and clinical practice, cancer remains a life- threatening disease with an increasing incidence. According to a 2018 WHO forecast, cancer incidence will double to approximately 37 million new cancer cases by 2040. Today, clinical management of cancer is based on a "one-fits-all" strategy. Most cancers are still treated by surgical therapy followed by adjuvant or neoadjuvant chemotherapy based on rather strict guidelines (S3 guidelines in Europe) which are based on studies of large cohorts of patients with the same tumor entity. While this approach has led to substantial increases in progression-free survival and overall patient survival, most patients do not benefit from the administered treatment regimen. One reason for this is intra-tumor heterogeneity, which results from clonal evolution between cancer cells and their environment. This means that cancer patients may respond differently to a particular drug due to the different mutation patterns of their tumor cells. Therefore, patients should be screened in advance for reliable cancer biomarkers that definitively predict whether they will respond to a particular therapy. This would increase the probability of a successful treatment.
Colorectal cancer (CRC) is the third most diagnosed cancer and the second leading cause of cancer deaths worldwide. The main cause of death in CRC is a metastatic disease, which is presented in 20 % of patients and eventually develops in more than 30 % of early-stage patients. Despite the significant increase (to more than 30 months) in median survival with the development of cytotoxic agents and the introduction of targeted therapy, the progression-free survival in the first-line setting has remained largely unchanged over the past decade.
The heterogeneity in CRC is characterized by alterations in multiple signaling pathways that affect cellular functions such as cell proliferation or apoptosis. Commonly affected signaling pathways include the mitogen-activated protein kinase (MAPK)- and the transforming growth factor-β/bone morphogenetic protein (TGF-β/BMP)-pathway. Alterations in the TGF-β/BMP pathway, due to mutations in the SMAD4 gene (mothers against decapentaplegic homolog 4), are associated with different drug response and promote resistance to chemotherapy. In addition, they are associated with a higher recurrence rate.
SMAD4 is one of the most common cancer driver genes, and mutations occur in up to 15 % of CRC cases. Therefore, there is an urgent need for therapeutic agents that can specifically target SMAD4-mutated tumors.
The aim of the present study was the identification of the clinical relevance of the SMAD4 gene and the investigation of its suitability as a potential biomarker in CRC.
For this purpose, I investigated sibling patient-derived organoids (PDOs) derived from different regions of a chemo-naïve CRC tumor. PDOs are 3D cell cultures that reliably recapitulate the architecture of the tissue of origin, as well as preserve the genomic background and intra-tumor heterogeneity. The sibling PDOs (R1R361H and R4wt) shared the most common CRC mutations, such as KRASG12D (kirsten rat sarcoma), PIK3CAH1047R (phosphatidylinositol-4,5-bisphosphate 3-kinase, catalytic subunit alpha), and TP53C242F (tumor protein 53), but differed in a SMAD4R361H mutation and showed a different drug response. The single nucleotide variant R361H of the SMAD4 gene is among the most common pathogenic alterations in various cancers, including CRC.
The sibling PDOs showed significant differences in response to the MEK-inhibitors cobimetinib, trametinib, and selumetinib. MEK-inhibitors are antineoplastic agents that inhibit the function of MEK1 and MEK2, preventing phosphorylation of transcription factors, which leads to inhibition of tumor cell proliferation. MEK-inhibitors are approved for the treatment of malignant melanoma. Currently, they are in phase-III clinical trials for the treatment of patients with metastatic CRC.
To investigate whether SMAD4R361H is responsible for sensitivity to MEK-inhibitors, Iestablished three syngeneic PDOs harboring a SMAD4R361H mutation using the CRISPR/Cas9 genome editing system. All CRISPR-PDOs were significantly more sensitive to the MEK-inhibitors, compared to R4wt. I have shown that the SMAD4R361H mutation is responsible for sensitivity to MEK inhibition in CRC models and may be a predictive biomarker.
To test this hypothesis, I examined 62 CRC PDO models and treated them with the MEK-inhibitors cobimetinib, trametinib, and selumetinib. All models that had a pathogenic mutation or deletion in the SMAD4 gene (15 %) were sensitive to cobimetinib, 10 % of models were sensitive to trametinib, and 8 % were sensitive to selumetinib.
I performed transcriptome (RNA sequencing) and proteome analyses using the DigiWest® method to investigate the mechanism underlying MEK-inhibitor sensitivity.
DigiWest® is a Luminex® bead-based analysis that allows the simultaneous analysis of over 100 (phospho-)proteins. The transcriptome and proteome data support the observation that MEK inhibition primarily affects SMAD4R361H PDOs. Furthermore, I have shown that activation of the BMP signaling pathway in organoids with wild-type SMAD4 appears to be responsible for resistance to MEK-inhibitors. Thus, a genetic alteration in the BMP signaling pathway, beyond SMAD4, could lead to sensitivity to MEK-inhibitors.
I identified four genes involved in the TGF-β/BMP signaling pathway that are frequently mutated in CRC and grouped them into the so-called SFAB-signature (SMAD4, FBXW7 (F-box/WD repeat-containing protein 7), ARID1A (AT-rich interactive domain-containing protein 1A), or BMPR2 (Bone morphogenetic protein receptor type II). Clinical data show that approximately 36 % of CRC patients have at least one pathogenic mutation in these genes.
I tested all 62 CRC PDO models and found a significant positive prediction for sensitivity to cobimetinib (95 %) and selumetinib (70 %) for the SFAB-signature. Trametinib and the newly approved MEK-inhibitor binimetinib showed a similar trend. Therefore, the SFAB-signature has high predictive power for response to MEK-inhibitors and could be used as a predictive biomarker panel.
The current clinically used biomarkers for CRC are based on the mutation status of driver genes KRAS and BRAF, which are present in up to 50 % and 10 % of CRC, respectively. Investigation of molecular alterations in CRC revealed that mutations in the KRAS gene, which is downstream of EGFR (epidermal growth factor receptor) in the MAPK-pathway, interfere with an anti-EGFR-antibody therapy (e.g., cetuximab). Therefore, cetuximab is only relevant for RAS wild-type tumors. However, approximately 40 % of patients with RAS wild-type status do not respond to this treatment.
About 53 % of CRC PDO models carry a pathogenic RAS mutation, about 10 % harbor a pathogenic BRAF mutation. Both, the RAS and RAF status alone as well as the combination of RAS and RAF status with SFAB-signature did not provide a better prediction of sensitivity to MEK inhibition.
Climatic niches describe the climatic conditions in which species can persist. Shifts in climatic niches have been observed to coincide with major climatic change, suggesting that species adapt to new conditions. We test the relationship between rates of climatic niche evolution and paleoclimatic conditions through time for 65 Old-World flycatcher species (Aves: Muscicapidae). We combine niche quantification for all species with dated phylogenies to infer past changes in the rates of niche evolution for temperature and precipitation niches. Paleoclimatic conditions were inferred independently using two datasets: a paleoelevation reconstruction and the mammal fossil record. We find changes in climatic niches through time, but no or weak support for a relationship between niche evolution rates and rates of paleoclimatic change for both temperature and precipitation niche and for both reconstruction methods. In contrast, the inferred relationship between climatic conditions and niche evolution rates depends on paleoclimatic reconstruction method: rates of temperature niche evolution are significantly negatively related to absolute temperatures inferred using the paleoelevation model but not those reconstructed from the fossil record. We suggest that paleoclimatic change might be a weak driver of climatic niche evolution in birds and highlight the need for greater integration of different paleoclimate reconstructions.
Thermoanaerobacter kivui ist ein thermophiles acetogenes Bakterium, das chemolithoautotroph auf CO2 unter Verwendung von molekularem H2 als Elektronendonor wächst und Acetat als Produkt über den Wood-Ljungdahl-Weg (WLP) bildet. Im WLP werden 2 Mol CO2 reduziert, um ein Mol Acetyl-CoA zu bilden. Erste Studien wurden durchgeführt, um die Physiologie von T. kivui zu verstehen. T. kivui wächst autotroph auf H2 + CO2 und nach Adaptation auch auf CO oder Syngas. T. kivui wächst ebenfalls auch in Minimalmedium ohne weitere Zugabe von Vitaminen, was es zu einem Biokatalysator mit hohem Potenzial für die Produktion von Chemikalien mit hohem Mehrwert macht. Heterotroph wächst T. kivui auf Glucose, Fructose, Mannose, Pyruvat oder Formiat. Kürzlich wurde beschrieben, dass T. kivui in der Lage ist, auf dem Zuckeralkohol Mannitol in Gegenwart und Abwesenheit von HCO3- (oder externem CO2) zu wachsen. Allerdings war das Wachstum in Abwesenheit von externem CO2 deutlich verlangsamt. Daher wurde in dieser Studie getestet, ob eine Zugabe von externem Formiat das "fehlende" CO2 kompensieren kann. In Kombination mit Formiat wurde das Wachstum auf Mannitol in CO2 und HCO3- freien definierten Medien bis zu einer maximalen OD600 von 2,34 und mit einer Verdopplungszeit von 2,0 ± 0,0 stimuliert, was dem Wachstumsverhalten auf Mannitol in Anwesenheit von CO2/HCO3- entsprach. In Abwesenheit von Formiat (oder CO2) erreichte T. kivui nur eine endgültige optische Dichte von bis zu 0,7 mit einer verlängerten Verdoppelungszeit von 5,2 ± 0,2 Stunden. Dieses Experiment zeigte die höhe metabolische Flexibilität von T. kivui durch die Nutzung von Formiat als Elektronenakzeptor, wenn kein oder nur wenig CO2 vorhanden ist.
Genomanalysen ergaben, dass T. kivui ein Trehalose- und Maltose-Transportsystem-Permeaseprotein (MalF) besitzt. Darüber hinaus verfügt T. kivui über Trehalose- und Maltosehydrolase-Gene, die als Kojibiose-Phosphorylase annotiert sind. Obwohl in der Originalveröffentlichung beschrieben wurde, dass der Organismus nicht auf Maltose oder Trehalose wachsen kann, konnte T. kivui im Laufe dieser Arbeit an das Wachstum auf Maltose und Trehalose adaptiert werden. Nach dem Transfer von einer Glukose-Vorkultur auf ein Medium mit 25 mM Maltose oder 25 mM Trehalose als alleinige C-Quelle wurde kein Wachstum erzielt. Bei Verwendung der gleichen Vorkultur in einem Medium mit höherer Konzentration (50 mM) Maltose oder Trehalose, begannen die Zellen zu wachsen. Bei Verwendung dieser adaptierten kulturen als Vorkultur wuchsen die Zellen in Gegenwart von in 25 mM Maltose oder Trehalose bis zu einer maximalen OD600 von 1,12 bzw. 0,73. Die Adaptation hing mit der Tatsache zusammen, dass der Organismus eine höhere Konzentration benötigt, um sich an diese Kohlenstoffquellen zu gewöhnen. Durch diese Daten wird das heterotrophe Potenzial von T. kivui erhöht.
Um die Bedeutung der wasserstoffabhängigen Kohlendioxidreduktase (HDCR) während des Wachstums auf Formiat oder auf H2 + CO2 im Stoffwechsel von T. kivui zu verstehen, wurden Studien auf molekularer Ebene durchgeführt. Die HDCR nutzt H2 direkt für die Reduktion von CO2 zu Formiat im ersten Schritt des Wood-Ljungdahl-Wegs (WLP). Um die Rolle der HDCR in dieser Reaktion zu untersuchen, wurde das hdcr-Gencluster mit Hilfe des kürzlich entwickelten Mutagenesytems für T. kivui deletiert. In Wachstumstudien konnte anschliessend gezeigt werden, dass die ߡhdcr-Deletionsmutante nicht mehr auf Formiat oder H2 + CO2 als alleiniger Kohlenstoffquelle wachsen konnte. Nach Komplementation der Mutante mit dem hdcr-Gene in cis wuchsen die Kulture wieder auf Formiat oder H2 + CO2. Diese Experimente zeigten, dass die HDCR für das Wachstum auf H2 + CO2 oder Formiat essentiell ist. Interessanterweise konnte in der ߡhdcr-Mutante ebenfalls ein verändertes Wachstum auf Glukose als alleiniger C-Quelle festgestellt werden. Die T. kivui ߡhdcr-Mutante wuchs nur bis zu einer OD600 von 0,2, während der Wildtyp und der hdcr-komplementierte Stamm bis zu einer OD600 von 2,64 bzw. 2,4 wuchsen. Damit wurde bewiesen, dass die HDCR auch für die vollständige Glukoseoxidation in T. kivui erforderlich ist. Durch die Zugabe von Formiat wurde das Wachstum vollständig wiederhergestellt, ähnlich wie beim Wildtyp. Dies belegt wieder die Nutzung Formiat als terminalen Elektronenakzeptor. Auch auf Mannitol oder Pyruvat konnte die Mutanten nur in Gegenwart von Formiat wachsen. Der Substratverbrauch und die Produktbildung der T. kivui ߡhdcr-Mutante wurden in einem Zellsuspensionsexperiment untersucht. Die Zellen verbrauchten Formiat nur in Gegenwart von Glukose und produzierten Acetat mit einem Acetat/Substrat-Verhältnis von etwas mehr als 3,0, während die Acetatproduktion nur 12 mM betrug, wenn Glukose als alleiniges Substrat verwendet wurde. Diese Ergebnisse zeigen eine enge Kopplung der Oxidation von Multikohlenstoffsubstraten an den WLP.
T. kivui ist eines der wenigen Acetogenen, die CO als einzige Kohlenstoff- und Energiequelle nutzen können. ...
In times of global warming caused by the extensive use of fossil fuels, the need to capture gaseous carbon compounds is growing bigger. Several groups of microorganisms can fix the greenhouse gas CO2. Out of these, acetogenic bacteria are role models in their ability to reduce CO2 with hydrogen to acetate, which makes acetogens prime candidates for genetic modification towards biotechnological production of value-added compounds from CO2, such as biofuels. However, growth of acetogens on gaseous substrates is strongly energy-limited, and successful metabolic engineering requires a detailed knowledge of the bioenergetics. In 1939, Clostridium aceticum was the first acetogen to be described. A recent genomic study revealed that this organism contains cytochromes and therefore may use a proton gradient in its respiratory chain. We have followed up these studies and will present data that C. aceticum does not use a H+ but a Na+ gradient for ATP synthesis, established by a Na+-Rnf. Experimental data and in silico analyses enabled us to propose the biochemistry and bioenergetics of acetogenesis from H2 + CO2 in C. aceticum.
Vocal communication is essential to coordinate social interactions in mammals and it requires a fine discrimination of communication sounds. Auditory neurons can exhibit selectivity for specific calls, but how it is affected by preceding sounds is still debated. We tackled this using ethologically relevant vocalizations in a highly vocal mammalian species: Seba’s short-tailed bat. We show that cortical neurons present several degrees of selectivity for echolocation and distress calls. Embedding vocalizations within natural acoustic streams leads to stimulus-specific suppression of neuronal responses that changes sound selectivity in disparate manners: increases in neurons with poor discriminability in silence and decreases in neurons selective in silent settings. A computational model indicates that the observed effects arise from two forms of adaptation: presynaptic frequency specific adaptation acting in cortical inputs and stimulus unspecific postsynaptic adaptation. These results shed light into how acoustic context modulates natural sound discriminability in the mammalian cortex.
Pectin-rich residues are considered as promising feedstocks for sustainable production of platform chemicals. Enzymatic hydrolysis of extracted sugar beet press pulp (SBPP) releases the main constituent of pectin, d-galacturonic acid (d-GalA). Using engineered Saccharomyces cerevisiae, d-GalA is then reduced to l-galactonate (l-GalOA) with sorbitol as co-substrate. The current work addresses the combination of enzymatic hydrolysis of pectin in SBPP with a consecutive optimized biotransformation of the released d-GalA to l-GalOA in simple batch processes in stirred-tank bioreactors. Process conditions were first identified with synthetic media, where a product concentration of 9.9 g L-1 L-GalOA was obtained with a product selectivity of 99% (L-GalOA D-GalA-1) at pH 5 with 4% (w/v) sorbitol within 48 h. A very similar batch process performance with a product selectivity of 97% was achieved with potassium citrate buffered SBPP hydrolysate, demonstrating for the first time direct production of L-GalOA from hydrolyzed biomass using engineered S. cerevisiae. Combining the hydrolysis process of extracted SBPP and the biotransformation process with engineered S. cerevisiae paves the way towards repurposing pectin-rich residues as substrates for value-added chemicals.