Environmentally induced responses co-opted for reproductive altruism

Nedelcu, Aurora M.

doi:10.1098/rsbl.2009.0334

Cited by 48 publications

(86 citation statements)

References 20 publications

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“…Although C. reinhardtii lacks an exact regA ortholog, phylogenetic analysis of the VARL gene family suggests that this is due to gene loss in the C. reinhardtii lineage rather than a gene duplication in the V. carteri lineage (Duncan et al, 2007). The most closely related C. reinhardtii regA homolog is induced under nutrient and light-deprivation, leading to the suggestion that the somatic differentiation function of regA was co-opted from an environmental acclimation function in the unicellular ancestor of V. carteri (Nedelcu & Michod, 2006;Nedelcu, 2009). …”

Section: B Ecology and Molecular Evolution Of Oceanic Picoplanktonicmentioning

confidence: 99%

Phylogeny and Molecular Evolution of the Green Algae

Leliaert

Smith

Moreau

et al. 2012

Critical Reviews in Plant Sciences

759

655

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Section: B Ecology and Molecular Evolution Of Oceanic Picoplanktonicmentioning

confidence: 99%

Phylogeny and Molecular Evolution of the Green Algae

Leliaert

Smith

Moreau

et al. 2012

Critical Reviews in Plant Sciences

759

655

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“…In addition, the mechanistic basis for the evolution of somatic cell differentiation (at least in V. carteri) can also be traced back to the ability of single-celled volvocine ancestors to temporarily repress their reproduction to increase survival, as part of their general photo-acclimation response to limiting or stressful conditions Nedelcu 2009b). However, the very same factors that allowed some lineages in this group to achieve high levels of complexity may have affected how complex they could become.…”

Section: Independent Increases In Complexitymentioning

confidence: 98%

“…21) and the green alga Volvox carteri (Nedelcu 2009b). Likewise, genes involved in moss development have been found in the closest unicellular relatives of land plants .…”

Section: Proximate Causesmentioning

confidence: 98%

“…This scenario implies that the evolution of somatic cell differentiation and the increase in complexity observed in the lineage leading to V. carteri involved changes in the regulatory elements of regA (whether regA has a role in somatic cell differentiation in the other Volvox species is not yet known). Furthermore, regA appears to have evolved from a regA-like gene already present in the unicellular ancestor of volvocine algae; its co-option might have involved changing its expression pattern from a temporal context (in response to environment) into a spatial (developmental) context Nedelcu 2009b).…”

Section: Genomic Complexity Vs Morphological and Developmental Complmentioning

confidence: 99%

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Volvocine Algae: From Simple to Complex Multicellularity

Herron

Nedelcu

2015

Evolutionary Transitions to Multicellular Life

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The evolution of multicellularity provided new ways for biological systems to increase in complexity. However, although high levels of complexity have indeed been attained in several multicellular lineages, natural selection does not necessarily favor complex biological systems. Why and how, then, has complexity increased in some lineages? We argue that the volvocine green algae (Volvox and its relatives) are a uniquely valuable model system for understanding the evolution of multicellular complexity. Using a general framework for the evolution of complexity, we discuss the various levels of morphological and developmental complexity achieved in this group, and consider both the why and the how underlying the changes in complexity levels that took place in this group.

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“…Sequencing of gonidial-specific genes showed that 15 of the 19 encoded proteins were predicted to be involved in photosynthesis-related functions, suggesting that photosynthetic activity may be suppressed in somatic cells (Meissner et al, 1999). This finding has led to the idea that suppression of photosynthesis may be the primary mechanism for inducing a senescent fate in somatic cells, such that somatic cells are unable to grow sufficiently large or rapidly enough to reproduce (Kirk, 2001; Meissner et al, 1999; Michod, 2007; Nedelcu and Michod, 2004; Nedelcu, 2009). It should be noted, however, that information about comparative rates and productivity of photosynthesis in somatic versus gonidial cells is lacking, and that somatic cells have been shown to actively fix CO 2 (Pommerville and Kochert, 1982) and must also consume energy to maintain basal metabolism, flagellar motility and biosynthesis and secretion of ECM.…”

Section: Cell-type Differentiationmentioning

confidence: 99%

Volvox: A simple algal model for embryogenesis, morphogenesis and cellular differentiation

Matt

Umen

2016

Developmental Biology

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Patterning of a multicellular body plan involves a coordinated set of developmental processes that includes cell division, morphogenesis, and cellular differentiation. These processes have been most intensively studied in animals and land plants; however, deep insight can also be gained by studying development in simpler multicellular organisms. The multicellular green alga Volvox carteri (Volvox) is an excellent model for the investigation of developmental mechanisms and their evolutionary origins. Volvox has a streamlined body plan that contains only a few thousand cells and two distinct cell types: reproductive germ cells and terminally differentiated somatic cells. Patterning of the Volvox body plan is achieved through a stereotyped developmental program that includes embryonic cleavage with asymmetric cell division, morphogenesis, and cell-type differentiation. In this review we provide an overview of how these three developmental processes give rise to the adult form in Volvox and how developmental mutants have provided insights into the mechanisms behind these events. We highlight the accessibility and tractability of Volvox and its relatives that provide a unique opportunity for studying development.

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Environmentally induced responses co-opted for reproductive altruism

Cited by 48 publications

References 20 publications

Phylogeny and Molecular Evolution of the Green Algae

Phylogeny and Molecular Evolution of the Green Algae

Volvocine Algae: From Simple to Complex Multicellularity

Volvox: A simple algal model for embryogenesis, morphogenesis and cellular differentiation

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