Erwartungen an Wissenschaft in Krisenzeiten: Impulse für die Technikfolgenabschätzung aus zwei Beteiligungsformaten

The consequences of the COVID-19 pandemic are an accelerator of profound socio-technical transformation processes. Science in general and technology assessment (TA) in particular can and should play an important role in investigating and evaluating these transformation processes and providing robust orientation and transformation knowledge for (political) decision makers and the public. Based on two online surveys “Social consequences of the corona crisis” and data from a citizens’ dialogue, this article examines the assessment of trust in and expectations of science on the part of the TA‑related community and civil society. Lessons for successful TA are synthesized on the basis of inductively derived thematic clusters, such as dealing with uncertain knowledge and ambiguity or the diversity of research approaches

Nutritional upgrading for omnivorous carpenter ants by the endosymbiont Blochmannia

<p>Abstract</p> <p>Background</p> <p>Carpenter ants (genus <it>Camponotus</it>) are considered to be omnivores. Nonetheless, the genome sequence of <it>Blochmannia floridanus</it>, the obligate intracellular endosymbiont of <it>Camponotus floridanus</it>, suggests a function in nutritional upgrading of host resources by the bacterium. Thus, the strongly reduced genome of the endosymbiont retains genes for all subunits of a functional urease, as well as those for biosynthetic pathways for all but one (arginine) of the amino acids essential to the host.</p> <p>Results</p> <p>Nutritional upgrading by <it>Blochmannia </it>was tested in 90-day feeding experiments with brood-raising in worker-groups on chemically defined diets with and without essential amino acids and treated or not with antibiotics. Control groups were fed with cockroaches, honey water and Bhatkar agar. Worker-groups were provided with brood collected from the queenright mother-colonies (45 eggs and 45 first instar larvae each). Brood production did not differ significantly between groups of symbiotic workers on diets with and without essential amino acids. However, aposymbiotic worker groups raised significantly less brood on a diet lacking essential amino acids. Reduced brood production by aposymbiotic workers was compensated when those groups were provided with essential amino acids in their diet. Decrease of endosymbionts due to treatment with antibiotic was monitored by qRT-PCR and FISH after the 90-day experimental period. Urease function was confirmed by feeding experiments using ¹⁵N-labelled urea. GC-MS analysis of ¹⁵N-enrichment of free amino acids in workers revealed significant labelling of the non-essential amino acids alanine, glycine, aspartic acid, and glutamic acid, as well as of the essential amino acids methionine and phenylalanine.</p> <p>Conclusion</p> <p>Our results show that endosymbiotic <it>Blochmannia </it>nutritionally upgrade the diet of <it>C. floridanus </it>hosts to provide essential amino acids, and that it may also play a role in nitrogen recycling via its functional urease. <it>Blochmannia </it>may confer a significant fitness advantage via nutritional upgrading by enhancing competitive ability of <it>Camponotus </it>with other ant species lacking such an endosymbiont. Domestication of the endosymbiont may have facilitated the evolutionary success of the genus <it>Camponotus</it>.</p

TGA2 signaling in response to reactive electrophile species is not dependent on cysteine modification of TGA2

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.Reactive electrophile species (RES), including prostaglandins, phytoprostanes and 12-oxo phytodienoic acid (OPDA), activate detoxification responses in plants and animals. However, the pathways leading to the activation of defense reactions related to abiotic or biotic stress as a function of RES formation, accumulation or treatment are poorly understood in plants. Here, the thiol-modification of proteins, including the RES-activated basic region/leucine zipper transcription factor TGA2, was studied. TGA2 contains a single cysteine residue (Cys186) that was covalently modified by reactive cyclopentenones but not required for induction of detoxification genes in response to OPDA or prostaglandin A1. Activation of the glutathione-S-transferase 6 (GST6) promoter was responsive to cyclopentenones but not to unreactive cyclopentanones, including jasmonic acid suggesting that thiol reactivity of RES is important to activate the TGA2-dependent signaling pathway resulting in GST6 activation We show that RES modify thiols in numerous proteins in vivo, however, thiol reactivity alone appears not to be sufficient for biological activity as demonstrated by the failure of several membrane permeable thiol reactive reagents to activate the GST6 promoter.Peer reviewedFinal Published versio

Oxidative stress in plants: Investigating the D1-phytoprostane signalling pathway

Phytoprostane (PP) können nichtenzymatisch in vitro und in vivo durch freie Radikal-katalysierte Peroxidation von alpha-Linolensäure entstehen. In der vorliegenden Arbeit konnte gezeigt werden, dass über den D1-Phytoprostan-Weg zwei weitere Klassen von Phytoprostanen gebildet werden können, die D1-Phytoprostane (PPD1) und die Deoxy-J1-Phytoprostane (dPPJ1). PPD1 und dPPJ1 wurden erstmals durch Partialsynthese hergestellt. Zudem konnten diese Verbindungen durch Autoxidation von alpha-Linolensäure gewonnen werden. PPD1 und dPPJ1 wurden chromatographisch aufgetrennt und UV-spektroskopisch und massenspektrometrisch charakterisiert. Zum Nachweis von PPD1 und dPPJ1 in planta wurde eine neuartige Analysenmethode mittels Fluoreszenz-HPLC entwickelt. Mit dieser Methode konnten PPD1 und dPPJ1 in drei unterschiedlichen Pflanzenspezies nachgewiesen werden. Zudem wurde eine verstärkte Biosynthese von dPPJ1 in planta durch oxidativen Stress beobachtet, z.B. durch eine Belastung mit Schwermetallen oder einen kurzfristigen Kälteschock. Darüber hinaus konnte gezeigt werden, dass dPPJ1 sowohl in Pflanzen als auch in Tieren biologisch aktiv sind.Phytoprostanes (PP) are formed in vitro and in vivo by free radical-catalyzed peroxidation of linolenic acid. In this work it has been shown that two additional classes of phytoprostanes are formed via the D1-phytoprostane pathway, D1-phytoprostanes (PPD1) and deoxy-J1-phytoprostanes (dPPJ1). For the first time PPD1 and dPPJ1 were prepared by partial synthesis. Additionally, these compounds were also obtained by autoxidation of linolenic acid in vitro. PPD1 and dPPJ1 were separated by chromatographical methods and characterized by UV spectroscopy and mass spectrometry. A novel method for the quantitation of PPD1 and dPPJ1 in planta has been developed, using fluorescence HPLC. This method allowed the identification of PPD1 and dPPJ1 in three different plant species. Furthermore, enhanced formation of dPPJ1 in planta was observed after oxidative stress, e.g. treatment with heavy metals or short exposure to low temperatures. Furthermore, it has been shown that dPPJ1 display biological activity in plants as well as in animals

Epichloë Endophyte Infection Rates and Alkaloid Content in Commercially Available Grass Seed Mixtures in Europe

Fungal endophytes of the genus Epichloë live symbiotically in cool season grass species and can produce alkaloids toxic to insects and vertebrates, yet reports of intoxication of grazing animals have been rare in Europe in contrast to overseas. However, due to the beneficial resistance traits observed in Epichloë infected grasses, the inclusion of Epichloë in seed mixtures might become increasingly advantageous. Despite the toxicity of fungal alkaloids, European seed mixtures are rarely tested for Epichloë infection and their infection status is unknown for consumers. In this study, we tested 24 commercially available seed mixtures for their infection rates with Epichloë endophytes and measured the concentrations of the alkaloids ergovaline, lolitrem B, paxilline, and peramine. We detected Epichloë infections in six seed mixtures, and four contained vertebrate and insect toxic alkaloids typical for Epichloë festucae var. lolii infecting Lolium perenne. As Epichloë infected seed mixtures can harm livestock, when infected grasses become dominant in the seeded grasslands, we recommend seed producers to test and communicate Epichloë infection status or avoiding Epichloë infected seed mixtures. Keywords: Epichloë spp.; Lolium perenne; alkaloids; cool-season grass species; grass endophytes; horses; infection rates; livestock; perennial ryegrass; toxicity

Data from: Herbivore-specific induction of defence metabolites in a grass-endophyte association

Plants have developed a variety of defence strategies against herbivores. One possible strategy is the induced production of metabolites following herbivore attack. Plant-associated micro-organisms can be the source of such defensive compounds. For example, cool-season grasses can be associated with systemic endophytic fungi of the genus Epichloё, which produce herbivore-toxic alkaloids. In a controlled common garden approach, we tested the hypothesis that different types of herbivory induce endophyte growth and increase the endophyte-mediated production of three bioactive alkaloids which can deter or toxify herbivores. During 18 weeks, we analysed biweekly endophyte and alkaloid concentrations in the grass Lolium perenne infected with the endophytic fungus Epichloё festucae var. lolii. The experiment was conducted throughout the field season and compared three different herbivore treatments to the control treatment (herbivory exclosure). We showed that the concentration of the vertebrate toxic alkaloid lolitrem B increased following clipping (a simulation of grazing herbivores), while the insect deterring alkaloid peramine increased following locust herbivory (biting–chewing herbivores). The endophyte concentration increased slightly following clipping (P = 0·09). Sap sucking aphids altered neither endophyte nor alkaloid concentrations. Our study provides evidence for an herbivore-specific induction of endophyte-mediated responses following herbivore attack on its host grass. Our results suggest that the grass–endophyte symbiosis involves a close chemical crosstalk between the interacting partners

Induction of jasmonoyl-isoleucine (JA-Ile)-dependent JASMONATE ZIM-DOMAIN (JAZ) genes in NaCl-treated Arabidopsis thaliana roots can occur at very low JA-Ile levels and in the absence of the JA/JA-Ile transporter JAT1/AtABCG16

The plant hormone jasmonoyl-isoleucine (JA-Ile) is an important regulator of plant growth and defense in response to various biotic and abiotic stress cues. Under our experimental conditions, JA-Ile levels increased approximately seven-fold in NaCl-treated Arabidopsis thaliana roots. Although these levels were around 1000-fold lower than in wounded leaves, genes of the JA-Ile signaling pathway were induced by a factor of 100 or more. Induction was severely compromised in plants lacking the JA-Ile receptor CORONATINE INSENSITIVE 1 or enzymes required for JA-Ile biosynthesis. To explain efficient gene expression at very low JA-Ile levels, we hypothesized that salt-induced expression of the JA/JA-Ile transporter JAT1/AtABCG16 would lead to increased nuclear levels of JA-Ile. However, mutant plants with different jat1 alleles were similar to wild-type ones with respect to salt-induced gene expression. The mechanism that allows COI1-dependent gene expression at very low JA-Ile levels remains to be elucidated

In vitro rearing changes social task performance and physiology in honeybees

In vitro rearing of honeybee larvae is an established method that enables exact control and monitoring of developmental factors and allows controlled application of pesticides or pathogens. However, only a few studies have investigated how the rearing method itself affects the behavior of the resulting adult honeybees. We raised honeybees in vitro according to a standardized protocol: marking the emerging honeybees individually and inserting them into established colonies. Subsequently, we investigated the behavioral performance of nurse bees and foragers and quantified the physiological factors underlying the social organization. Adult honeybees raised in vitro differed from naturally reared honeybees in their probability of performing social tasks. Further, in vitro-reared bees foraged for a shorter duration in their life and performed fewer foraging trips. Nursing behavior appeared to be unaffected by rearing condition. Weight was also unaffected by rearing condition. Interestingly, juvenile hormone titers, which normally increase strongly around the time when a honeybee becomes a forager, were significantly lower in three- and four-week-old in vitro bees. The effects of the rearing environment on individual sucrose responsiveness and lipid levels were rather minor. These data suggest that larval rearing conditions can affect the task performance and physiology of adult bees despite equal weight, pointing to an important role of the colony environment for these factors. Our observations of behavior and metabolic pathways offer important novel insight into how the rearing environment affects adult honeybees

Honeybees are buffered against undernourishment during larval stages

The negative impact of juvenile undernourishment on adult behavior has been well reported for vertebrates, but relatively little is known about invertebrates. In honeybees, nutrition has long been known to affect task performance and timing of behavioral transitions. Whether and how a dietary restriction during larval development affects the task performance of adult honeybees is largely unknown. We raised honeybees in-vitro, varying the amount of a standardized diet (150 µl, 160 µl, 180 µl in total). Emerging adults were marked and inserted into established colonies. Behavioral performance of nurse bees and foragers was investigated and physiological factors known to be involved in the regulation of social organization were quantified. Surprisingly, adult honeybees raised under different feeding regimes did not differ in any of the behaviors observed. No differences were observed in physiological parameters apart from weight. Honeybees were lighter when undernourished (150 µl), while they were heavier under the overfed treatment (180 µl) compared to the control group raised under a normal diet (160 µl). These data suggest that dietary restrictions during larval development do not affect task performance or physiology in this social insect despite producing clear effects on adult weight. We speculate that possible effects of larval undernourishment might be compensated during the early period of adult life