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Symbiotic physiology promotes homeostasis in Daisyworld
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0
|
37
|
February 16, 2022
|
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Advantage of Leakage of Essential Metabolites for Cells
|
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0
|
51
|
August 12, 2021
|
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Parallel Evolution in the Integration of a Co-obligate Aphid Symbiosis
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0
|
71
|
July 7, 2021
|
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Ecological and Cultural Landscape Restoration and the Cultural Evolution towards a Post-Industrial Symbiosis between Human Society and Nature. Restoration Energy 6: 135–143
|
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0
|
77
|
July 7, 2021
|
|
Hardware and Software Symbiosis Helps Smart Card Evolution
|
|
0
|
94
|
July 7, 2021
|
|
Cooperation, communication, and co-evolution: grand challenges in microbial symbiosis research
|
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0
|
71
|
July 7, 2021
|
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Symbiodinium genomes reveal adaptive evolution of functions related to coral-dinoflagellate symbiosis
|
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0
|
58
|
July 6, 2021
|
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Evolution and Diversity of Legume Symbiosis
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0
|
73
|
July 6, 2021
|
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The Evolution of the Coral–Algal Symbiosis
|
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0
|
83
|
July 6, 2021
|
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Neo-Symbiosis: The Next Stage in the Evolution of Human Information Interaction
|
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0
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64
|
July 6, 2021
|
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Multi-gene analysis of Symbiodinium dinoflagellates: a perspective on rarity, symbiosis, and evolution
|
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0
|
81
|
July 6, 2021
|
|
Mutualism Persistence and Abandonment during the Evolution of the Mycorrhizal Symbiosis
|
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0
|
87
|
July 6, 2021
|
|
The Evolution of Insect-Fungus Associations: From Contact to Stable Symbiosis
|
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0
|
88
|
July 6, 2021
|
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Maritime cluster evolution based on symbiosis theory and Lotka–Volterra model
|
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0
|
61
|
July 6, 2021
|
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Evolution of Termite Symbiosis Informed by Transcriptome-Based Phylogenies
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0
|
49
|
July 6, 2021
|
|
Symbiosis becoming permanent: Survival of the luckiest
|
|
0
|
126
|
July 6, 2021
|
|
Biology and evolution of arbuscular mycorrhizal symbiosis in the light of genomics
|
|
0
|
61
|
July 6, 2021
|
|
Symbiosis in the microbial world: from ecology to genome evolution
|
|
0
|
79
|
July 6, 2021
|
|
Self-Extending Symbiosis: A Mechanism for Increasing Robustness Through Evolution
|
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0
|
82
|
July 6, 2021
|
|
Bacterial genomics and adaptation to life on plants: implications for the evolution of pathogenicity and symbiosis
|
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0
|
72
|
July 6, 2021
|
|
Symbiosis, Parasitism and Evolution
|
|
0
|
69
|
July 6, 2021
|
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Understanding the Evolution of Industrial Symbiosis with a System Dynamics Model: A Case Study of Hai Hua Industrial Symbiosis, China
|
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0
|
56
|
July 6, 2021
|
|
From defense to symbiosis: limited alterations in the kinase domain of LysM receptor-like kinases are crucial for evolution of legume–Rhizobium symbiosis
|
|
0
|
66
|
July 6, 2021
|
|
Evolution and diversity in the legume-rhizobium symbiosis: chaos theory?
|
|
0
|
60
|
July 6, 2021
|
|
Symbiosis as a Source of Evolutionary Innovation: Speciation and Morphogenesis
|
|
0
|
83
|
July 6, 2021
|
|
Evolution of Mutualistic Symbiosis without Vertical Transmission
|
|
0
|
83
|
July 6, 2021
|
|
Symbiosis drove cellular evolution
|
|
0
|
85
|
July 6, 2021
|
|
Evolution of the soritids-Symbiodinium symbiosis
|
|
0
|
103
|
July 6, 2021
|
|
Evolution of mutualistic symbiosis: A differential equation model
|
|
0
|
59
|
July 6, 2021
|
|
Reciprocal genomic evolution in the ant–fungus agricultural symbiosis
|
|
0
|
72
|
July 6, 2021
|
