Abscisic Acid Flux Alterations Result in Differential Abscisic Acid Signaling Responses and Impact Assimilation Efficiency in Barley under Terminal Drought Stress

Seiler, Christiane; Harshavardhan, Vokkaliga T.; Reddy, Palakolanu Sudhakar; Hensel, Goetz; Kumlehn, Jochen; Eschen‐Lippold, Lennart; Kalladan, Rajesh; Korzun, Viktor; Wobus, Ulrich; Lee, Justin; Selvaraj, Gopalan; Sreenivasulu, Nese

doi:10.1104/pp.113.229062

Cited by 70 publications

(54 citation statements)

References 86 publications

(119 reference statements)

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“…The level of ABA measured in optimally watered plants at generative phase of development ranged from 228 to 475 pmol g −1 FW and showed no significant variation among tested DH lines. Quite similar results were published also by Seiler et al (2014), who investigated breeding and transgenic barley lines.…”

Section: Content Of Aba Sa and Brs At Various Stage Of Plant Developsupporting

confidence: 82%

Involvement of homocastasterone, salicylic and abscisic acids in the regulation of drought and freezing tolerance in doubled haploid lines of winter barley

et al. 2019

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Ten doubled haploid (DH) lines of winter barley with an increased range of freezing/drought tolerance were used to identify phytohormones involved in plant stress acclimation. Cold hardening and drought stress were applied at the most critical stages of plant development on young seedlings and heading plants, respectively. The level of the phytohormones was significantly higher at heading, more than 5-fold in respect of salicylic acid (SA) and total brassinosteroids (BRs) and 1.7-fold in the case of abscisic acid (ABA). Moreover, the spectrum of detectable BRs increased from one-homocastasterone (HCS)-found in seedlings to four BRs identified in heading plants [HCS, castasterone (CS), teasterone and dolicholide], with the last one detected for the first time in cereal species. To some extent freezing tolerance seems to be determined by native hormonal status as control seedlings of tolerant DH lines contained 1.4-and 2.3-fold lower amount of ABA and HCS and 2.3-fold higher amount of SA in comparison to freezing-sensitive ones. Such dependency was not observed in heading plants as significant variation in CS content was the only detected difference. Under stress treatments, tolerant DH lines accumulated significantly lower (75-81%) amount of ABA, which probably reflected lower stress intensity resulting from another defence strategy. In contrast, stress-induced significant almost 2-fold increase in HCS/CS and 2-3-fold decrease in SA content specific for tolerant DH lines of barley suggest the involvement of these molecules in freezing/drought defence. Detected correlations suggest their interaction with nonspecific peroxidase and low molecular weight antioxidants.

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Section: Content Of Aba Sa and Brs At Various Stage Of Plant Developsupporting

confidence: 82%

Involvement of homocastasterone, salicylic and abscisic acids in the regulation of drought and freezing tolerance in doubled haploid lines of winter barley

et al. 2019

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“…Morover, under severe or prolonged stress, ABA is involved in the regulation of leaf senescence. Examples of this can be found in wheat (Triticum aestivum), in which rising ABA concentrations lead to the movement of carbohydrates from stems to seeds (Yang et al, 2003); in barley (Hordeum vulgare), in which lines exhibiting delayed stress-induced senescence had lower ABA levels (Seiler et al, 2014); and in tomato, in which ABA concentration-dependent promotion of senescense was also seen (Tung et al, 2008). In Arabidopsis, some of the mechanisms underlying ABAregulated leaf senescence have recently been revealed.…”

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confidence: 99%

Mesophyll Abscisic Acid Restrains Early Growth and Flowering But Does Not Directly Suppress Photosynthesis

et al. 2019

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Abscisic acid (ABA) levels increase significantly in plants under stress conditions, and ABA is thought to serve as a key stressresponse regulator. However, the direct effect of ABA on photosynthesis and the effect of mesophyll ABA on yield under both well-watered and drought conditions are still the subject of debate. Here, we examined this issue using transgenic Arabidopsis (Arabidopsis thaliana) plants carrying a dominant ABA-signaling inhibitor under the control of a mesophyll-specific promoter (FBPase::abi1-1, abbreviated to fa). Under normal conditions, fa plants displayed slightly higher stomatal conductance and carbon assimilation than wild-type plants; however, these parameters were comparable following ABA treatment. These observations suggest that ABA does not directly inhibit photosynthesis in the short term. The fa plants also exhibited a variety of altered phenotypes under optimal conditions, including more vigorous initial growth, earlier flowering, smaller flowers, and delayed chlorophyll degradation. Furthermore, under optimal conditions, fa plant seed production was less than a third of that observed for the wild type. However, under drought conditions, wild-type and fa seed yields were similar due to a significant reduction in wild-type seed and no reduction in fa seed. These findings suggest that endogenous basal ABA inhibits a stress-escape response under nonstressed conditions, allowing plants to accumulate biomass and maximize yield. The lack of a correlation between flowering time and plant biomass combined with delayed chlorophyll degradation suggests that this stress-escape behavior is regulated independently and upstream of other ABA-induced effects such as rapid growth and flowering.

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“…However, drought tolerance is not simply a matter of accumulating ABA, as no relation exists between ABA concentration under drought stress and a plant's degree of drought tolerance (Chaves and Oliveira, 2004). Although ABA has been studied in Arabidopsis and cereal crops (Kanno et al, 2010;Ji et al, 2011;Seiler et al, 2014;Dalal and Inupakutika, 2014), information on ABA's role in beans is limited, despite the crucial step in ABA biosynthesis first being discovered in common bean (Qin and Zeevaart, 1999). Although ABA has been studied in Arabidopsis and cereal crops (Kanno et al, 2010;Ji et al, 2011;Seiler et al, 2014;Dalal and Inupakutika, 2014), information on ABA's role in beans is limited, despite the crucial step in ABA biosynthesis first being discovered in common bean (Qin and Zeevaart, 1999).…”

mentioning

confidence: 99%

“…Rather, a plant's survival and productivity under drought stress depends on the maintenance of ABA homeostasis (Sreenivasulu et al, 2007). Although ABA has been studied in Arabidopsis and cereal crops (Kanno et al, 2010;Ji et al, 2011;Seiler et al, 2014;Dalal and Inupakutika, 2014), information on ABA's role in beans is limited, despite the crucial step in ABA biosynthesis first being discovered in common bean (Qin and Zeevaart, 1999).…”

mentioning

confidence: 99%

Early Metabolic and Photosynthetic Responses to Drought Stress in Common and Tepary Bean

2017

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Common bean (Phaseolus vulgaris L.) is an important food crop, especially in East Africa and Central and South America. Subsistence farmer yields in these areas are limited by the many common bean cultivars that are drought sensitive. Consequently, a major goal of breeding programs is to improve drought tolerance. Our objective was to identify and compare physiological components of drought stress among common bean genotypes varying in stress tolerance. We also included the closely related and highly stress‐tolerant tepary bean (P. acutifolius A. Gray). Compositional parameters often related to drought tolerance revealed no drought effect on free proline, but malate, glucose, fructose, inositol, and raffinose all increased, sometimes enough to osmotically adjust leaf tissues. Abscisic acid (ABA) was especially drought responsive. Although genotypic differences were unrelated to tolerance, grafting revealed that shoot identity controlled ABA levels in stressed roots and that root identity had little or no effect on stomatal behavior. Photosynthetic parameters derived from photosynthesis versus intercellular CO2 concentration curves were not related to drought tolerance, but some traits were related to productivity. Stomatal control and low conductance were clearly associated with tolerance, conserving water during stress, and increasing water use efficiencies. This study should provide guidance in selection of traits associated with enhanced drought tolerance in common bean.

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Abscisic Acid Flux Alterations Result in Differential Abscisic Acid Signaling Responses and Impact Assimilation Efficiency in Barley under Terminal Drought Stress

Cited by 70 publications

References 86 publications

Involvement of homocastasterone, salicylic and abscisic acids in the regulation of drought and freezing tolerance in doubled haploid lines of winter barley

Involvement of homocastasterone, salicylic and abscisic acids in the regulation of drought and freezing tolerance in doubled haploid lines of winter barley

Mesophyll Abscisic Acid Restrains Early Growth and Flowering But Does Not Directly Suppress Photosynthesis

Early Metabolic and Photosynthetic Responses to Drought Stress in Common and Tepary Bean

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