Effects of salicylic acid on growth and accumulation of phenolics in<i>Zea mays</i>L. under drought stress

Latif, Farzana; Ullah, Faizan; Mehmood, Sultan; Khattak, Aishma; Khan, Asif; Khan, Safiullah; Husain, Ishtiaq

doi:10.1080/09064710.2015.1117133

Cited by 32 publications

(29 citation statements)

References 21 publications

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“…The author concluded that the SA contributed to increase the tolerant capacity of the plant to water stress. In another study, SA foliar spraying in 10-5 L-1 improved the adverse effects of water stress on the reduction of leaf water relative content, fresh weight, dry weight, fresh root weight, dry root weight , root length and root area (Latif et al, 2016).…”

Section: Resultsmentioning

confidence: 94%

“…The accumulation of total phenolic compounds bound to the soluble cell wall and total soluble proteins in maize (Zea mays) plants exposed to water stress and foliar spray of salicylic acid (SA) at 10-4 mol-L-1 and 10-5 mol-L-1 was investigated by Latif et al (2016). The author suggests that the accumulation of both cell wall soluble soluble phenolic compounds by SA foliar spraying may be a mechanism related to drought tolerance by the induced stress of SA in economically viable corn.…”

Section: Introductionmentioning

confidence: 99%

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Frequency of Application of Salicylic Acid and Its Impact on Growth Aspects and Biochemical Quality In Lettuce Plants (Lactuca sativaL.)

2018

Aust. J. Basic & Appl. Sci.

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Section: Resultsmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

Frequency of Application of Salicylic Acid and Its Impact on Growth Aspects and Biochemical Quality In Lettuce Plants (Lactuca sativaL.)

2018

Aust. J. Basic & Appl. Sci.

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“…Rao et al [2012] indicated the efficiency of SA in maintaining higher relative water content of maize plants during drought. Also, Latif et al [2015] found that foliar application of SA improved drought tolerance, relative water content of leaves, total soluble solids and enhanced growth of Zea mays plants. Moreover, the significance of SA to water relations of soybean plants [Barkosky and Einhelling 1993] and water use efficiency of wheat [Anosheh et al 2012] was evident.…”

Section: Jerusalem Artichokementioning

confidence: 93%

“…They studied the drought tolerance of two Jerusalem artichoke cultivars and found that the higher drought-tolerant cultivar had more accumulation of free proline during drought and had better maintenance of water status than the other cultivar. Latif et al [2015] suggested that SA could ameliorate drought stress through accumulation of both soluble and cell wall-bound phenolics. On the other hand, the findings of Kurepin et al [2015] indicated that under drought stress conditions, endogenous SA could promote glycinebetaine biosynthesis in chloroplasts, which had an osmoregulation effect as a proposed role of SA on improving drought tolerance of plants.…”

Section: Jerusalem Artichokementioning

confidence: 99%

EFFECT OF EXOGENOUS SALICYLIC ACID ON THE RESPONSE OF SNAP BEAN (Phaseolus vulgaris L.) AND JERUSALEM ARTICHOKE (Helianthus tuberosus L.) TO DROUGHT STRESS

El-Tohamy

El-Abagy

Badr

et al. 2018

Acta Sci.Pol.Hortorum Cultus

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Water shortage is a major problem that limits growth and productivity of plants in arid and semi-arid regions. Protecting plants from adverse environmental conditions by using simple methods could be of great value under these conditions. In the present study, we examined water status and drought tolerance of snap bean, a drought-sensitive plant, and Jerusalem artichoke, a relatively drought tolerant plant in response to the application of salicylic acid (SA). Different levels of SA were applied and several physiological, growth, productivity and quality parameters were recorded together with the relative water content. Foliar application of SA improved growth, productivity, quality as well as some physiological parameters of snap bean and Jerusalem artichoke plants exposed to drought stress. Total chlorophyll content and relative water content were higher in plants treated with SA compared to control plants when subjected to drought stress. The specific responses of snap bean and Jerusalem artichoke to SA under drought stress as well as the possible explanations of the effects of SA are discussed.

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“…1). Basic tolerance mechanisms in plants involve the activation of different stress-regulated genes through integrated cellular as well as molecular responses (Latif et al 2016).…”

Section: Introductionmentioning

confidence: 99%

Drought and heat stress-related proteins: an update about their functional relevance in imparting stress tolerance in agricultural crops

et al. 2019

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Key message We describe here the recent developments about the involvement of diverse stress-related proteins in sensing, signaling, and defending the cells in plants in response to drought or/and heat stress. Abstract In the current era of global climate drift, plant growth and productivity are often limited by various environmental stresses, especially drought and heat. Adaptation to abiotic stress is a multigenic process involving maintenance of homeostasis for proper survival under adverse environment. It has been widely observed that a series of proteins respond to heat and drought conditions at both transcriptional and translational levels. The proteins are involved in various signaling events, act as key transcriptional activators and saviors of plants under extreme environments. A detailed insight about the functional aspects of diverse stress-responsive proteins may assist in unraveling various stress resilience mechanisms in plants. Furthermore, by identifying the metabolic proteins associated with drought and heat tolerance, tolerant varieties can be produced through transgenic/recombinant technologies. A large number of regulatory and functional stress-associated proteins are reported to participate in response to heat and drought stresses, such as protein kinases, phosphatases, transcription factors, and late embryogenesis abundant proteins, dehydrins, osmotins, and heat shock proteins, which may be similar or unique to stress treatments. Few studies have revealed that cellular response to combined drought and heat stresses is distinctive, compared to their individual treatments. In this review, we would mainly focus on the new developments about various stress sensors and receptors, transcription factors, chaperones, and stress-associated proteins involved in drought or/ and heat stresses, and their possible role in augmenting stress tolerance in crops.

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Effects of salicylic acid on growth and accumulation of phenolics inZea maysL. under drought stress

Cited by 32 publications

References 21 publications

Frequency of Application of Salicylic Acid and Its Impact on Growth Aspects and Biochemical Quality In Lettuce Plants (Lactuca sativaL.)

Frequency of Application of Salicylic Acid and Its Impact on Growth Aspects and Biochemical Quality In Lettuce Plants (Lactuca sativaL.)

EFFECT OF EXOGENOUS SALICYLIC ACID ON THE RESPONSE OF SNAP BEAN (Phaseolus vulgaris L.) AND JERUSALEM ARTICHOKE (Helianthus tuberosus L.) TO DROUGHT STRESS

Drought and heat stress-related proteins: an update about their functional relevance in imparting stress tolerance in agricultural crops

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