The evolution of individuality revisited

Radzvilavicius, Arunas L.; Blackstone, Neil W.

doi:10.1111/brv.12412

Cited by 28 publications

(35 citation statements)

References 149 publications

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“…The mathematics that describes how biological evolution works began in the late 19th century, representing the frequency or relative frequencies of alternative alleles at specific loci. If we define a single species, there are common sets of DNA/RNA that define that single species, but there may also be recombination of the alleles that can act at each loci [5,6] made a similar observation. These variants may create features in specific offspring that are not determined by the common genes in all of that species.…”

Section: Uniqueness Of Offspringmentioning

confidence: 86%

“…When we say that the offspring of an evolutionary process are unique, we mean that there is at least one (but perhaps many) differences between each of those offspring. Radzevilavicius and Blackstone's [5] very detailed review of the evolution of individuality of offspring populations shows that all individuals, of all species, created by evolution are also in some form unique; the reader should see that article for its many details. Thus, the authors of reference [5] conclude "since [our review] … only relies on universal principles of life's evolution, this framework can potentially be applied to all life, no matter what its chemistry, and wherever it is found" (p. 1630).…”

Section: Uniqueness Of Offspringmentioning

confidence: 99%

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Inheritance is a Surjection: Description and Consequence

Ballonoff¹

2019

The 5th International Electronic Conference on Entropy and Its Applications

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Consider an evolutionary process. In genetic inheritance and in human cultural systems, each new offspring is assigned to be produced by a specific pair of the previous population. This form of mathematical arrangement is called a surjection. We have thus briefly described the mechanics of genetics-physical mechanics describes the possible forms of loci, and normal genetic statistics describe the results as viability of offspring in actual use. However, we have also described much of the mechanics of mathematical anthropology. Understanding that what we know as inheritance is the result of finding surjections and their consequences is useful in understanding, and perhaps predicting, biological-as well as human-evolution.

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Section: Uniqueness Of Offspringmentioning

confidence: 86%

Section: Uniqueness Of Offspringmentioning

confidence: 99%

Inheritance is a Surjection: Description and Consequence

Ballonoff¹

2019

The 5th International Electronic Conference on Entropy and Its Applications

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“…Evolutionary conflict is an enduring theme in biology (Box ). In the last several decades, evolutionary theory has developed an increased appreciation for the causes and consequences of such conflict, particularly in the context of the history of life . While symbioses were once regarded as exceptions to “Darwinian” conflict, more recent research clearly supports the contrary view .…”

Section: Introductionmentioning

confidence: 99%

“…For instance, presence of a unicellular stage in the development of many multicellular organisms has been highlighted as a mechanism of conflict mediation . Increasingly, however, there is an appreciation that conflict mediation involves mechanisms co‐opted from idiosyncratic features of the underlying biology and biochemistry (Box ) …”

Section: Introductionmentioning

confidence: 99%

Why Do Corals Bleach? Conflict and Conflict Mediation in a Host/Symbiont Community

Blackstone

Golladay

2018

BioEssays

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Coral bleaching has attracted considerable study, yet one central question remains unanswered: given that corals and their Symbiodinium symbionts have co-evolved for millions of years, why does this clearly maladaptive process occur? Bleaching may result from evolutionary conflict between the host corals and their symbionts. Selection at the level of the individual symbiont favors using the products of photosynthesis for selfish replication, while selection at the higher level favors using these products for growth of the entire host/symbiont community. To hold the selfish lower-level units in check, mechanisms of conflict mediation must evolve. Fundamental features of photosynthesis have been co-opted into conflict mediation so that symbionts that fail to export these products produce high levels of reactive oxygen species and undergo programmed cell death. These mechanisms function very well under most environmental conditions, but under conditions particularly detrimental to photosynthesis, it is these mechanisms of conflict mediation that trigger bleaching.

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“…In contrast to the implications of Buss's theory of evolution and development through intra-individual selection (Buss, 1987;Radzvilavicius & Blackstone, 2018), multicellularity may be viewed as a facultative consequence of interactions between cells of the same or different genotypes, based largely on preadaptations (Nanjundiah, 2016): Multicellular development does not necessarily require monoclonality. Examples include, but are not limited to, polyclonal dictyostelids, polyembryonic insects, experimental intergeneric chimerism in fish and interspecific chimerism in mammals (Newman, 2014).…”

mentioning

confidence: 99%

Does resource availability help determine the evolutionary route to multicellularity?

Hamant

Bhat

Nanjundiah

et al. 2019

Evolution and Development

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Genetic heterogeneity and homogeneity are associated with distinct sets of adaptive advantages and bottlenecks, both in developmental biology and population genetics. Whereas populations of individuals are usually genetically heterogeneous, most multicellular metazoans are genetically homogeneous. Observing that resource scarcity fuels genetic heterogeneity in populations, we propose that monoclonal development is compatible with the resource‐rich and stable internal environments that complex multicellular bodies offer. In turn, polyclonal development persists in tumors and in certain metazoans, both exhibiting a closer dependence on external resources. This eco‐evo‐devo approach also suggests that multicellularity may originally have emerged through polyclonal development in early metazoans, because of their reduced shielding from environmental fluctuations.

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The evolution of individuality revisited

Cited by 28 publications

References 149 publications

Inheritance is a Surjection: Description and Consequence

Inheritance is a Surjection: Description and Consequence

Why Do Corals Bleach? Conflict and Conflict Mediation in a Host/Symbiont Community

Does resource availability help determine the evolutionary route to multicellularity?

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