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The mitotic oscillator in Physarum polycephalum
Journal of Theoretical Biology, 1975This article reports evidence that mitosis in the syncytial plasmodium of Physarum polycephalum is controlled by a continuous biochemical oscillation. In the Introduction, inferences drawn from past experiments are evaluated. Results of experiments fusing two plasmodia at most possible phases and phase differences are reported.
Stuart A. Kauffman, John J. Wille
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Network Community Detection Based on the Physarum-Inspired Computational Framework
IEEE/ACM Transactions on Computational Biology & Bioinformatics, 2018Community detection is a crucial and essential problem in the structure analytics of complex networks, which can help us understand and predict the characteristics and functions of complex networks.
Chao Gao +5 more
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Electroporation of Physarum polycephalum
2003The protist Physarum polycephalum is a convenient system for studies of molecular and cellular biology of fundamental eukaryotic processes, including DNA replication, mitotic regulation, single-cell development, the cytoskeleton, and motility. The life cycle of this acellular slime mold exhibits a variety of developmental transitions, and the two ...
Burland, T. G., Bailey, Juliet
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Routing Physarum with repellents
The European Physical Journal E, 2010Plasmodium of Physarum polycephalum is a single cell with many nuclei. Plasmodium is an easy-to-experiment-with biological substrate, a multi-functional bio-material used to implement novel and future computing architectures. The plasmodium exhibits typical features of excitable chemical systems and capable for distributed sensing, parallel information
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2016
We report the progress of using the plasmodium of Physarum as a biological electronic component. We provide blue prints of experimental prototypes of Physarum wires and analyse their transfer function, discuss how lifespan of a Physarum can be increased. We overview our experimental laboratory results on using Physarum wires with buffers and evaluate a
Andrew Adamatzky, James G. H. Whiting
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We report the progress of using the plasmodium of Physarum as a biological electronic component. We provide blue prints of experimental prototypes of Physarum wires and analyse their transfer function, discuss how lifespan of a Physarum can be increased. We overview our experimental laboratory results on using Physarum wires with buffers and evaluate a
Andrew Adamatzky, James G. H. Whiting
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2023
Published as part of Kluša, Julita, 2023, Complete Checklist Of Myxomycetes In Latvia, pp. 127-151 in Acta Biologica Universitatis Daugavpiliensis 23 (2) on pages 127-151, DOI: 10.59893/abud.23(2).002, http://zenodo.org/record ...
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Published as part of Kluša, Julita, 2023, Complete Checklist Of Myxomycetes In Latvia, pp. 127-151 in Acta Biologica Universitatis Daugavpiliensis 23 (2) on pages 127-151, DOI: 10.59893/abud.23(2).002, http://zenodo.org/record ...
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Mantoscyphidia physarum (Lachmann, 1856) Hosts and countries: Polymesoda caroliniana, Mexico *. Rangia flexuosa [cited as Rangia (Rangianella) flexuosa], Mexico *. References: Madrazo-Garibay & López-Ochoterena (1988b); López-Ochoterena (1999). (*Cited as Scyphidia physarum).
Mayén-Estrada, Rosaura +2 more
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Mayén-Estrada, Rosaura +2 more
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1986
In the following, we attempt to demonstrate that Physarum is an adequate model system for studies of the eukaryotic mitotic cycle, cell differentiation, and motility, A schematic presentation of the life cycle of this organism is shown in Fig. 1-1, at the end of this chapter. (See Sauer and Pierron, 1983, for a recent review).
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In the following, we attempt to demonstrate that Physarum is an adequate model system for studies of the eukaryotic mitotic cycle, cell differentiation, and motility, A schematic presentation of the life cycle of this organism is shown in Fig. 1-1, at the end of this chapter. (See Sauer and Pierron, 1983, for a recent review).
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Acceleration-sensitivity threshold of Physarum
Journal of Biotechnology, 1996Free-living cells show distinct gravisensitivities and often use the gravity ('g') vector for their spatial orientation. The rhythmic contractions of the ameboid Myxomycete (acellular slime mold) Physarum polycephalum are a sensitive parameter which can be modified by external stimuli.
Block, I., Briegleb, W., Wolke, A.
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2023
B● Physarum diderma Rostaf., olveida pumpurīte - leg. J.Kluša, 14 Sep 2021, Līgatne p., on Leucodon sciuroides on a large log of Populus tremula in a ravine forest, det. J.Kluša, conf. E.Johannesen, 2021; (NMKK), very rare.
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B● Physarum diderma Rostaf., olveida pumpurīte - leg. J.Kluša, 14 Sep 2021, Līgatne p., on Leucodon sciuroides on a large log of Populus tremula in a ravine forest, det. J.Kluša, conf. E.Johannesen, 2021; (NMKK), very rare.
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