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Asier Largo‐Gosens Antonio Encina María de Castro Hugo Mélida José L. Acebes Penélope García‐Angulo Jesús M. Álvarez 《Physiologia plantarum》2016,157(2):193-204
The cellulose biosynthesis inhibitor 2,6‐dichlorobenzonitrile (DCB) has been widely used to gain insights into cell wall composition and architecture. Studies of changes during early habituation to DCB can provide information on mechanisms that allow tolerance/habituation to DCB. In this context, maize‐cultured cells with a reduced amount of cellulose (~20%) were obtained by stepwise habituation to low DCB concentrations. The results reported here attempt to elucidate the putative role of an antioxidant strategy during incipient habituation. The short‐term exposure to DCB of non‐habituated maize‐cultured cells induced a substantial increase in oxidative damage. Concomitantly, short‐term treated cells presented an increase in class III peroxidase and glutathione S‐transferase activities and total glutathione content. Maize cells habituated to 0.3–1 µM DCB (incipient habituation) were characterized by a reduction in the relative cell growth rate, an enhancement of ascorbate peroxidase and class III peroxidase activities, and a net increment in total glutathione content. Moreover, these cell lines showed increased levels of glutathione S‐transferase activity. Changes in antioxidant/conjugation status enabled 0.3 and 0.5 µM DCB‐habituated cells to control lipid peroxidation levels, but this was not the case of maize cells habituated to 1 μM DCB, which despite showing an increased antioxidant capacity were not capable of reducing the oxidative damage to control levels. The results reported here confirm that exposure and incipient habituation of maize cells to DCB are associated with an enhancement in antioxidant/conjugation activities which could play a role in incipient DCB habituation of maize‐cultured cells. 相似文献
984.
ángela María Sánchez-López Abdellatif Bahaji Nuria De Diego Marouane Baslam Jun Li Francisco José Mu?oz Goizeder Almagro Pablo García-Gómez Kinia Ameztoy Adriana Ricarte-Bermejo Ond?ej Novák Jan F. Humplík Luká? Spíchal Karel Dole?al Sergio Ciordia María Carmen Mena Rosana Navajas Edurne Baroja-Fernández Javier Pozueta-Romero 《Plant physiology》2016,172(3):1989-2001
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Salinity tolerance is related to cyanide‐resistant alternative respiration in Medicago truncatula under sudden severe stress 下载免费PDF全文
Néstor Fernández Del‐Saz Igor Florez‐Sarasa María José Clemente‐Moreno Haytem Mhadhbi Jaume Flexas Alisdair R. Fernie Miquel Ribas‐Carbó 《Plant, cell & environment》2016,39(11):2361-2369
Salt respiration is defined as the increase of respiration under early salt stress. However, the response of respiration varies depending on the degree of salt tolerance and salt stress. It has been hypothesized that the activity of the alternative pathway may increase preventing over‐reduction of the ubiquinone pool in response to salinity, which in turn can increase respiration. Three genotypes of Medicago truncatula are reputed as differently responsive to salinity: TN1.11, A17 and TN6.18. We used the oxygen‐isotope fractionation technique to study the in vivo respiratory activities of the cytochrome oxidase pathway (COP) and the alternative oxidase pathway (AOP) in leaves and roots of these genotypes treated with severe salt stress (300 mM) during 1 and 3 days. In parallel, AOX capacity, gas exchange measurements, relative water content and metabolomics were determined in control and treated plants. Our study shows for first time that salt respiration is induced by the triggered AOP in response to salinity. Moreover, this phenomenon coincides with increased levels of metabolites such as amino and organic acids, and is shown to be related with higher photosynthetic rate and water content in TN6.18. 相似文献
989.
Effects of different arbuscular mycorrhizal fungal backgrounds and soils on olive plants growth and water relation properties under well‐watered and drought conditions 下载免费PDF全文
Monica Calvo‐Polanco Iván Sánchez‐Castro Manuel Cantos José Luis García Rosario Azcón Juan Manuel Ruiz‐Lozano Carmen R. Beuzón Ricardo Aroca 《Plant, cell & environment》2016,39(11):2498-2514
The adaptation capacity of olive trees to different environments is well recognized. However, the presence of microorganisms in the soil is also a key factor in the response of these trees to drought. The objective of the present study was to elucidate the effects of different arbuscular mycorrhizal (AM) fungi coming from diverse soils on olive plant growth and water relations. Olive plants were inoculated with native AM fungal populations from two contrasting environments, that is, semi‐arid – Freila (FL) and humid – Grazalema (GZ) regions, and subjected to drought stress. Results showed that plants grew better on GZ soil inoculated with GZ fungi, indicating a preference of AM fungi for their corresponding soil. Furthermore, under these conditions, the highest AM fungal diversity was found. However, the highest root hydraulic conductivity (Lpr) value was achieved by plants inoculated with GZ fungi and growing in FL soil under drought conditions. So, this AM inoculum also functioned in soils from different origins. Nine novel aquaporin genes were also cloned from olive roots. Diverse correlation and association values were found among different aquaporin expressions and abundances and Lpr, indicating how the interaction of different aquaporins may render diverse Lpr values. 相似文献
990.
Direct observation and modelling of embolism spread between xylem conduits: a case study in Scots pine 下载免费PDF全文
José M. Torres‐Ruiz Hervé Cochard Maurizio Mencuccini Sylvain Delzon Eric Badel 《Plant, cell & environment》2016,39(12):2774-2785
Xylem embolism is one of the main processes involved in drought‐related plant mortality. Although its consequences for plant physiology are already well described, embolism formation and spread are poorly evaluated and modelled, especially for tracheid‐based species. The aim of this study was to assess the embolism formation and spread in Pinus sylvestris as a case study using X‐ray microtomography and hydraulics methods. We also evaluated the potential effects of cavitation fatigue on vulnerability to embolism and the micro‐morphology of the bordered pits using scanning electron microscopy (SEM) to test for possible links between xylem anatomy and embolism spread. Finally, a novel model was developed to simulate the spread of embolism in a 2D anisotropic cellular structure. Results showed a large variability in the formation and spread of embolism within a ring despite no differences being observed in intertracheid pit membrane anatomical traits. Simulations from the model showed a highly anisotropic tracheid‐to‐tracheid embolism spreading pattern, which confirms the major role of tracheid‐to‐tracheid air seeding to explain how embolism spreads in Scots pine. The results also showed that prior embolism removal from the samples reduced the resistance to embolism of the xylem and could result in overestimates of vulnerability to embolism. 相似文献