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Current Biology : CB Apr 2021Interview with Audrey Dussutour, who uses slime molds and ant colonies to study collective behavior and cognition at the Center for Integrative Biology in Toulouse.
Interview with Audrey Dussutour, who uses slime molds and ant colonies to study collective behavior and cognition at the Center for Integrative Biology in Toulouse.
Topics: Animals; Cognition; Communication; History, 21st Century; Learning; Mentors; Myxomycetes; Research Support as Topic; Sexism; Writing
PubMed: 33905686
DOI: 10.1016/j.cub.2021.03.033 -
Microorganisms Sep 2023Evidence from molecular studies indicates that myxomycetes (also called myxogastrids or plasmodial slime molds) have a long evolutionary history, and the oldest known... (Review)
Review
Evidence from molecular studies indicates that myxomycetes (also called myxogastrids or plasmodial slime molds) have a long evolutionary history, and the oldest known fossil is from the mid-Cretaceous. However, they were not "discovered" until 1654, when a brief description and a woodcut depicting what is almost certainly the common species was published. First thought to be fungi, myxomycetes were not universally recognized as completely distinct until well into the twentieth century. Biodiversity surveys for the group being carried out over several years are relatively recent, with what is apparently the first example being carried out in the 1930s. Beginning in the 1980s, a series of such surveys yielded large bodies of data on the occurrence and distribution of myxomycetes in terrestrial ecosystems. The most notable of these were the All Taxa Biodiversity Inventory (ATBI) project carried out in the Great Smoky Mountains National Park, the Planetary Biodiversity Inventory Project (PBI) carried out in localities throughout the world, and the Myxotropic project being carried out throughout the Neotropics. The datasets available from both past and ongoing surveys now allow global and biogeographical patterns of myxomycetes to be assessed for the first time.
PubMed: 37764126
DOI: 10.3390/microorganisms11092283 -
Marine Drugs Sep 2022The marine environment is important yet generally underexplored. It contains new sources of functional constituents that can affect various pathways in food processing,... (Review)
Review
The marine environment is important yet generally underexplored. It contains new sources of functional constituents that can affect various pathways in food processing, storage, and fortification. Bioactive secondary metabolites produced by marine microorganisms may have significant potential applications for humans. Various components isolated from disparate marine microorganisms, including fungi, microalgae, bacteria, and myxomycetes, showed considerable biological effects, such as anticancer, antioxidant, antiviral, antibacterial, and neuroprotective activities. Growing studies are revealing that potential anticancer effects of marine agents could be achieved through the modulation of several organelles. Mitochondria are known organelles that influence growth, differentiation, and death of cells via influencing the biosynthetic, bioenergetic, and various signaling pathways related to oxidative stress and cellular metabolism. Consequently, mitochondria play an essential role in tumorigenesis and cancer treatments by adapting to alterations in environmental and cellular conditions. The growing interest in marine-derived anticancer agents, combined with the development and progression of novel technology in the extraction and cultures of marine life, led to revelations of new compounds with meaningful pharmacological applications. This is the first critical review on marine-derived anticancer agents that have the potential for targeting mitochondrial function during tumorigenesis. This study aims to provide promising strategies in cancer prevention and treatment.
Topics: Humans; Antioxidants; Mitochondria; Antineoplastic Agents; Anti-Bacterial Agents; Antiviral Agents; Neoplasms; Carcinogenesis; Biological Products; Aquatic Organisms
PubMed: 36286449
DOI: 10.3390/md20100625 -
Journal of the Royal Society, Interface Apr 2022is a unicellular slime mould that has been intensely studied owing to its ability to solve mazes, find shortest paths, generate Steiner trees, share knowledge and...
is a unicellular slime mould that has been intensely studied owing to its ability to solve mazes, find shortest paths, generate Steiner trees, share knowledge and remember past events and the implied applications to unconventional computing. The CELL model is a cellular automaton introduced in Gunji . (Gunji 2008 , 659-667 (doi:10.1016/j.jtbi.2008.04.017)) that models 's amoeboid motion, tentacle formation, maze solving and network creation. In the present paper, we extend the CELL model by spawning multiple CELLs, allowing us to understand the interactions between multiple cells and, in particular, their mobility, merge speed and cytoplasm mixing. We conclude the paper with some notes about applications of our work to modelling the rise of present-day civilization from the early nomadic humans and the spread of trends and information around the world. Our study of the interactions of this unicellular organism should further the understanding of how communicates and shares information.
Topics: Cell Fusion; Humans; Physarum polycephalum
PubMed: 35472268
DOI: 10.1098/rsif.2022.0054 -
Mycologia 2024A new myxomycete species, , was reported herein. The specimens were found and collected in the field on dead bark from Jingangtai National Geopark in Henan Province of...
A new myxomycete species, , was reported herein. The specimens were found and collected in the field on dead bark from Jingangtai National Geopark in Henan Province of China. This species has distinct and unique morphological characteristics, including dark grayish olive sporothecae that fade to smoke gray with age, shallow saucer-shaped cups with marked reticulations and thick papillae on the inner surface, a netted capillitium with many bulges, uniformly marked with low, dense, and irregular reticulations, and spores (8.0-)9.3-10.1(-10.9) μm in diameter, marked with sparse small warts and grouped prominent warts. Apart from a comprehensive morphological study, partial sequences of the nuclear 18S rDNA and elongation factor-1 alpha () genes were also provided in this study. This new species was described and illustrated morphologically. The specimens are deposited in the Herbarium of Fungi of Nanjing Normal University (HFNNU).
Topics: China; Phylogeny; Myxomycetes; RNA, Ribosomal, 18S; Peptide Elongation Factor 1; DNA, Ribosomal; Plant Bark; Sequence Analysis, DNA; Molecular Sequence Data
PubMed: 38442243
DOI: 10.1080/00275514.2024.2312077 -
Mycology 2023Species in the class Myxomycetes (or Myxogastrea) are essential components of biodiversity and play important ecological roles in terrestrial ecosystems, especially in... (Review)
Review
Species in the class Myxomycetes (or Myxogastrea) are essential components of biodiversity and play important ecological roles in terrestrial ecosystems, especially in forests. Studies on the taxonomy and diversity of these organisms started late in China. However, significant progress in China has been made in modern taxonomic studies on myxomycetes based on long-term species surveying and specimen collecting. The existing achievements have shown that comprehensive and continuous studies on the taxonomy and diversity of myxomycetes in China have the potential to enhance global biodiversity and improve the geographic distribution pattern of myxomycetes. Therefore, building on the current research foundation and expanding myxomycete research in a wider and more in-depth approach is imperative.
PubMed: 38187883
DOI: 10.1080/21501203.2023.2255031 -
Physical Review Letters Dec 2019Complex distribution networks are pervasive in biology. Examples include nutrient transport in the slime mold Physarum polycephalum as well as mammalian and plant...
Complex distribution networks are pervasive in biology. Examples include nutrient transport in the slime mold Physarum polycephalum as well as mammalian and plant venation. Adaptive rules are believed to guide development of these networks and lead to a reticulate, hierarchically nested topology that is both efficient and resilient against perturbations. However, as of yet, no mechanism is known that can generate such networks on all scales. We show how hierarchically organized reticulation can be constructed and maintained through spatially correlated load fluctuations on a particular length scale. We demonstrate that the network topologies generated represent a trade-off between optimizing transport efficiency, construction cost, and damage robustness and identify the Pareto-efficient front that evolution is expected to favor and select for. We show that the typical fluctuation length scale controls the position of the networks on the Pareto front and thus on the spectrum of venation phenotypes.
Topics: Animals; Arteries; Hydrodynamics; Models, Anatomic; Models, Biological; Phenotype; Phloem; Physarum polycephalum; Plant Physiological Phenomena; Plants; Veins; Xylem
PubMed: 31922876
DOI: 10.1103/PhysRevLett.123.248101 -
Fitoterapia Oct 2020Myxomycetes, one of the lowest classes of eukaryote (true slime molds), are an unusual group of primitive organisms. Their life cycle consists of two stages, namely the... (Review)
Review
Myxomycetes, one of the lowest classes of eukaryote (true slime molds), are an unusual group of primitive organisms. Their life cycle consists of two stages, namely the free-living plasmodium and the fruiting body with unique structures and colors. The chemical studies on the secondary metabolites of the myxomycetes are limited due to a lack of understanding of their laboratory cultivation. In this review, 93 natural products from myxomycetes, including their chemical structures and bioactivities were described. We also provided a conceptual overview over five culture methods of myxomycetes, including moist chamber culture, feeding culture, pure culture, liquid culture and hanging drop culture.
Topics: Biological Products; Cell Culture Techniques; Molecular Structure; Myxomycetes; Secondary Metabolism
PubMed: 32946947
DOI: 10.1016/j.fitote.2020.104725 -
European Journal of Protistology Aug 2023More than 1272 myxomycetes species have been described, accounting for more than half of all Amoebozoa species. However, the genome size of only three myxomycetes...
More than 1272 myxomycetes species have been described, accounting for more than half of all Amoebozoa species. However, the genome size of only three myxomycetes species has been reported. Therefore, we used flow cytometry to present an extensive survey and a phylogeny-based analysis of genome size and GC content evolution in 144 myxomycetes species. The genome size of myxomycetes ranged from 18.7 Mb to 470.3 Mb, and the GC content ranged from 38.7% to 70.1%. Bright-spored clade showed larger genome sizes and more intra-order genome size variations than the dark-spored clade. GC content and genome size were positively correlated in both bright-spored and dark-spored clades, and spore size was positively correlated with genome size and GC content in the bright-spored clade. We provided the first genome size data set in Myxomycetes, and our results will provide helpful information for future Myxomycetes studies, such as genome sequencing.
Topics: Genome Size; Myxomycetes; Base Composition; Phylogeny; Amoebozoa
PubMed: 37331249
DOI: 10.1016/j.ejop.2023.125991 -
Genes Mar 2023The mtDNA of the myxomycete can contain as many as 81 genes. These genes can be grouped in three different categories. The first category includes 46 genes that are... (Review)
Review
The mtDNA of the myxomycete can contain as many as 81 genes. These genes can be grouped in three different categories. The first category includes 46 genes that are classically found on the mtDNA of many organisms. However, 43 of these genes are cryptogenes that require a unique type of RNA editing (MICOTREM). A second category of gene is putative protein-coding genes represented by 26 significant open reading frames. However, these genes do not appear to be transcribed during the growth of the plasmodium and are currently unassigned since they do not have any apparent similarity to other classical mitochondrial protein-coding genes. The third category of gene is found in the mtDNA of some strains of . These genes derive from a linear mitochondrial plasmid with nine significant, but unassigned, open reading frames which can integrate into the mitochondrial DNA by recombination. Here, we review the mechanism and evolution of the RNA editing necessary for cryptogene expression, discuss possible origins for the 26 unassigned open reading frames based on tentative identification of their protein product, and discuss the implications to mtDNA structure and replication of the integration of the linear mitochondrial plasmid.
Topics: Physarum polycephalum; DNA, Mitochondrial; Base Sequence; Mitochondria; Genetic Variation
PubMed: 36980901
DOI: 10.3390/genes14030628