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Physiological and molecular responses of Setaria viridis to osmotic stress
Journal article   Peer reviewed

Physiological and molecular responses of Setaria viridis to osmotic stress

David da Cunha Valença, Stéfanie Menezes de Moura, João Travassos-Lins, Marcio Alves-Ferreira, Leonardo Oliveira Medici, Bianca Ortiz-Silva, Andrew Macrae and Fernanda Reinert
Plant physiology and biochemistry, Vol.155, pp.114-125
2020
PMID: 32745930

Abstract

C4 model plant Gene expression analyses Morphological traits Photosynthesis Proline accumulation Water deficit
Drought-tolerant species, such as Setaria viridis, a C4 model plant, make physiological and biochemical adjustments water limitation and recover from the stress upon its release. We investigated S. viridis (A10.1 accession) responses to continuing osmotic stress. The osmotic stress was imposed using polyethylene glycol (PEG) 8000 (7.5%) for 10 days. Morphological traits and stomatal conductance were measured daily for the 10 days. On days 6 and 10, the following traits were measured separately for root and shoot: relative water content (RWC), osmotic potential (OP), electrolytic leakage (EL), and proline content. qPCR analysis was used to evaluate the expression of five selected genes in roots (SvLEA, SvDREB1C, SvPIP2-1, SvHSP20, and SvP5CS2), and chlorophyll a fluorescence was measured on three key days. The morphological data demonstrated a drastic reduction in shoot biomass as an effect of water deficit caused by the osmotic stress. Shoot biomass reduction could be associated with putative ABA-dependent signaling involved in SvDREB1C expression. Stomatal conductance and photosynthesis were severely affected up until day 6, however, stomatal conductance and some photosynthetic parameters such as FV/FM, ABS/RC, and DI0/RC showed total or slight recovery on day 10. Root EL decreased in treated plants suggesting an investment in membrane protection by osmoregulator expression such as dehydrin (SvLEA) and proline (SvP5CS2) genes. Our data suggest that S. viridis exhibited a partial recovery from an imposed and constant osmotic stress within 10 days.

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