Líz Pásztor scite author profile

Sensitivity analysis, the study of how ecological variables of interest respond to changes in external conditions, is a theoretically well-developed and widely applied approach in population ecology. Though the application of sensitivity analysis to predicting the response of species-rich communities to disturbances also has a long history, derivation of a mathematical framework for understanding the factors leading to robust coexistence has only been a recent undertaking. Here we suggest that this development opens up a new perspective, providing advances ranging from the applied to the theoretical. First, it yields a framework to be applied in specific cases for assessing the extinction risk of community modules in the face of environmental change. Second, it can be used to determine trait combinations allowing for coexistence that is robust to environmental variation, and limits to diversity in the presence of environmental variation, for specific community types. Third, it offers general insights into the nature of communities that are robust to environmental variation. We apply recent community-level extensions of mathematical sensitivity analysis to example models for illustration. We discuss the advantages and limitations of the method, and some of the empirical questions the theoretical framework could help answer.

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Shared developmental roles and transcriptional control of autophagy and apoptosis in Caenorhabditis elegans

Erdélyi

Borsos

Takács‐Vellai

et al. 2011

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SummaryAutophagy is a lysosome-mediated self-degradation process of eukaryotic cells that, depending on the cellular milieu, can either promote survival or act as an alternative mechanism of programmed cell death (PCD) in terminally differentiated cells. Despite the important developmental and medical implications of autophagy and the main form of PCD, apoptosis, orchestration of their regulation remains poorly understood. Here, we show in the nematode Caenorhabditis elegans, that various genetic and pharmacological interventions causing embryonic lethality trigger a massive cell death response that has both autophagic and apoptotic features. The two degradation processes are also redundantly required for normal development and viability in this organism. Furthermore, the CES-2-like basic region leucine-zipper (bZip) transcription factor ATF-2, an upstream modulator of the core apoptotic cell death pathway, is able to directly regulate the expression of at least two key autophagy-related genes, bec-1/ATG6 and lgg-1/ATG8. Thus, the two cell death mechanisms share a common method of transcriptional regulation. Together, these results imply that under certain physiological and pathological conditions, autophagy and apoptosis are co-regulated to ensure the proper morphogenesis and survival of the developing organism. The identification of apoptosis and autophagy as compensatory cellular pathways in C. elegans might help us to understand how dysregulated PCD in humans can lead to diverse pathologies, including cancer, neurodegeneration and diabetes.

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R₀ or r: A matter of taste?

Pásztor¹,

Meszéna

Kisdi³

1996

J of Evolutionary Biology

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Jensen’s inequality and optimal life history strategies in stochastic environments

Pásztor

Kisdi

Meszéna

2000

Trends in Ecology & Evolution

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Líz Pásztor

Competitive exclusion and limiting similarity: A unified theory

Sensitivity analysis of coexistence in ecological communities: theory and application

Shared developmental roles and transcriptional control of autophagy and apoptosis in Caenorhabditis elegans

R₀ or r: A matter of taste?

Jensen’s inequality and optimal life history strategies in stochastic environments

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Líz Pásztor

Competitive exclusion and limiting similarity: A unified theory

Sensitivity analysis of coexistence in ecological communities: theory and application

Shared developmental roles and transcriptional control of autophagy and apoptosis in Caenorhabditis elegans

R0 or r: A matter of taste?

Jensen’s inequality and optimal life history strategies in stochastic environments

Contact Info

Product

Resources

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R₀ or r: A matter of taste?