Räuberische Pilze mit Anwendungspotenzial

Nematode-trapping fungi, such as Duddingtonia flagrans, are fascinating carnivorous microorganisms. In a nutrient-rich environment they live as saprotrophs, but if nutrients are scarce and in the presence of nematodes, they can switch to a predatory lifestyle. The switch is characterized by the formation of complex, adhesive trap structures. The interaction requires a sophisticated interspecies communication with pheromones, secondary metabolites, and virulence factors.

A Review of the Model/Rival (M/R) Technique for Training Interspecies Communication and Its Use in Behavioral Research

In this paper, I will review the Model/Rival (M/R) technique that has been used to establish interspecies communication with Grey parrots (Psittacus erithacus). I will describe the original format developed by Todt, the relationship to other forms of observational learning outlined by other researchers, and the adaptations that I devised. I will describe how my undergraduate trainers and I isolated the various components that constitute the technique and explain how each is necessary, but how only the combination of all components is sufficient for successful implementation—and how improper implementation can lead to failure. I will briefly summarize the results of proper implementation—including the importance of interspecies communication itself as a technique for studying animal cognition.

Extracellular vesicle-derived miRNA as a novel regulatory system for bi-directional communication in gut-brain-microbiota axis

The gut-brain-microbiota axis (GBMAx) coordinates bidirectional communication between the gut and brain, and is increasingly recognized as playing a central role in physiology and disease. MicroRNAs are important intracellular components secreted by extracellular vesicles (EVs), which act as vital mediators of intercellular and interspecies communication. This review will present current advances in EV-derived microRNAs and their potential functional link with GBMAx. We propose that EV-derived microRNAs comprise a novel regulatory system for GBMAx, and a potential novel therapeutic target for modifying GBMAx in clinical therapy.

Bodies Underwater

This article engages with French filmmaker Jean Painlevé’s experimental shorts on the physiognomy and behavior of marine animals. The article argues that Painlevé’s films establish a corporeal and nonlinguistic mode of interspecies communication that draws upon the spectators’ immediate emphatic and empathetic reactions to the animal creatures on-screen. By evoking affective responses below the visible and audible registers, the films place the human animal body both in proximity to and at a distance from the nonhuman animal, revealing ontological ties as well as uncanny encounters with other ways of living. In doing so, the films inspire a plurality of ethico-political perspectives on species entanglement that all propose distinct responsibilities without making any organism the center of agentic events. To illuminate those perspectives, the article brings Painlevé’s films into conversation with Massumi’s animal politics, Deleuze and Guattari’s idea of becoming-animal, and neuroscientific research. It thus shows how the cinematic medium can make palpable debates in environmental studies and political theory and installs communication as an interspecies phenomenon that involves human and nonhuman bodies in a shared affective space. Last, the article reclaims Painlevé for contemporary concerns, linking aesthetics to ethics and politics and bodily movement to care for the world.

Saccharomyces cerevisiae Requires CFF1 To Produce 4-Hydroxy-5-Methylfuran-3(2H)-One, a Mimic of the Bacterial Quorum-Sensing Autoinducer AI-2

ABSTRACT Quorum sensing is a process of cell-to-cell communication that bacteria use to orchestrate collective behaviors. Quorum sensing depends on the production, release, and detection of extracellular signal molecules called autoinducers (AIs) that accumulate with increasing cell density. While most AIs are species specific, the AI called AI-2 is produced and detected by diverse bacterial species, and it mediates interspecies communication. We recently reported that mammalian cells produce an AI-2 mimic that can be detected by bacteria through the AI-2 receptor LuxP, potentially expanding the role of the AI-2 system to interdomain communication. Here, we describe a second molecule capable of interdomain signaling through LuxP, 4-hydroxy-5-methylfuran-3(2H)-one (MHF), that is produced by the yeast Saccharomyces cerevisiae. Screening the S. cerevisiae deletion collection revealed Cff1p, a protein with no known role, to be required for MHF production. Cff1p is proposed to be an enzyme, with structural similarity to sugar isomerases and epimerases, and substitution at the putative catalytic residue eliminated MHF production in S. cerevisiae. Sequence analysis uncovered Cff1p homologs in many species, primarily bacterial and fungal, but also viral, archaeal, and higher eukaryotic. Cff1p homologs from organisms from all domains can complement a cff1Δ S. cerevisiae mutant and restore MHF production. In all cases tested, the identified catalytic residue is conserved and required for MHF to be produced. These findings increase the scope of possibilities for interdomain interactions via AI-2 and AI-2 mimics, highlighting the breadth of molecules and organisms that could participate in quorum sensing. IMPORTANCE Quorum sensing is a cell-to-cell communication process that bacteria use to monitor local population density. Quorum sensing relies on extracellular signal molecules called autoinducers (AIs). One AI called AI-2 is broadly made by bacteria and used for interspecies communication. Here, we describe a eukaryotic AI-2 mimic, 4-hydroxy-5-methylfuran-3(2H)-one, (MHF), that is made by the yeast Saccharomyces cerevisiae, and we identify the Cff1p protein as essential for MHF production. Hundreds of viral, archaeal, bacterial, and eukaryotic organisms possess Cff1p homologs. This finding, combined with our results showing that homologs from all domains can replace S. cerevisiae Cff1p, suggests that like AI-2, MHF is widely produced. Our results expand the breadth of organisms that may participate in quorum-sensing-mediated interactions.

Interspecies Bodies and Watery Sonospheres: Listening in the Lab, the Archives and the Field

In this text, the author brings together scientific interspecies communication experiments, artistic practice and feminist posthumanities to inquire into the transformative role of sound and listening. Departing from an archive with recordings of human-dolphin language experiments, this research attends to sound as evidence and listening as a situated knowledge practice, with ethico-political implications that trouble Western, visually oriented knowledge systems. By imploding interfaces into situations of shared surfaces, the author directs attention to the logics of the skin to bring forth matters of care and suggest how listening might contribute to more careful and attentive modes of knowing.