%0 Journal Article
%T Molecular mechanisms governing differential robustness of development and environmental responses in plants
%A Christine Queitsch
%A Daniel J. Kliebenstein
%A Jennifer Lachowiec
%J Archive of "Annals of Botany".
%D 2016
%R 10.1093/aob/mcv151
%X Background Robustness to genetic and environmental perturbation is a salient feature of multicellular organisms. Loss of developmental robustness can lead to severe phenotypic defects and fitness loss. However, perfect robustness, i.e. no variation at all, is evolutionarily unfit as organisms must be able to change phenotype to properly respond to changing environments and biotic challenges. Plasticity is the ability to adjust phenotypes predictably in response to specific environmental stimuli, which can be considered a transient shift allowing an organism to move from one robust phenotypic state to another. Plants, as sessile organisms that undergo continuous development, are particularly dependent on an exquisite fine-tuning of the processes that balance robustness and plasticity to maximize fitness
%K Developmental robustness
%K species diversity
%K plasticity
%K capacitor
%K canalization
%K noise
%K network hubs
%K network motifs
%K redundancy
%K Hsp90
%K chromatin
%K rDNA
%K hormones
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4845800/