Physiological responses to NaCl stress in three wild species of potato in vitro

Daneshmand, Fatemeh; Arvin, Mohammad Javad; Kalantari, Khosrow Manouchehri

doi:10.1007/s11738-009-0384-2

Cited by 107 publications

(78 citation statements)

References 52 publications

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“…However, high salinity induced a decrease in the anthocyanin level in the salt-sensitive species of potatoes, (Daneshmand et al 2010). Plant tissues with a higher content of anthocyanins usually have a higher resistance to drought.…”

Section: Phenolic Compoundsmentioning

confidence: 99%

Influence of abiotic stresses on plant proteome and metabolome changes

et al. 2013

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Plant responses to abiotic stresses are very complex phenomena with individual characteristics for various species. Abiotic stresses (e.g. drought, salinity, flooding, cold, heat, UV radiation, heavy metals, etc.) strongly affect plant growth and development. It is estimated that they are the cause of more than 50 % of crop yield losses. Abiotic stresses are known to activate a multigene response resulting in the changes in various proteins and primary and secondary metabolite accumulation. Therefore, proteomic and metabolomic approaches are becoming very important and powerful tools used in studying plants' reaction to various stimuli. Precise analysis of proteome and metabolome is essential for understanding the fundamentals of stress physiology and biochemistry. In this review, we focus on recent reports concerned to the influence of abiotic stresses on changes in the level of different protein groups and metabolite classes. Basic information about physicochemical methods applied to qualitative and quantitative analyses of biopolymers and natural products is also briefly presented.

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Section: Phenolic Compoundsmentioning

confidence: 99%

Influence of abiotic stresses on plant proteome and metabolome changes

et al. 2013

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“…This leads to cells retaining water and a consequent tendency to retain their turgor pressure under water deficit. Osmotic adjustment reduces the sensitivity of processes dependent on turgor, such as growth and stomatal activity, when the water potential falls [19].…”

Section: Introductionmentioning

confidence: 99%

“…The existence of intraspecific variability with respect to osmotic adjustment [6,16,17,19,[20][21][22] and coleoptile growth [23,24] has been demonstrated in different crops. This, along with the possibility of identifying QTLs that control drought tolerance in seedling [25], and coleoptile growth [26], renders the study of coleoptile growth of great interest in the improvement of drought tolerance.…”

Section: Introductionmentioning

confidence: 99%

Response of coleoptiles to water deficit: growth, turgor maintenance and osmotic adjustment in barley plants (Hordeum vulgare L.)

González¹,

Ayerbe²

2011

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Cereal crop improvement programmes involve the analysis of a great number of lines every year; the availability of a simple, rapid method that would allow the identification of a trait in the early stages of plant development would facilitate the selection process. This work reports two experiments involving the germination of seeds in Petri dishes, performed to study the effect of water deficit on the growth of barley coleoptiles. In one experiment water stress was induced by allowing evaporation from the Petri dishes; in the other water stress was achieved by adding polyethylene glycol 6000.The growth of the control coleoptiles was greater than that of the treatment coleoptiles in all cases, but with differences between the different genotypes. A significant correlation (P < 0.01) was found between the relative growth of the coleoptiles and turgor maintenance in the seedlings. Significant correlations were also seen between the relative growth of the coleoptiles and the osmotic adjustment of the flag leaf (P < 0.05) and the grain weight (P < 0.01) in adult plants. The genotypes that showed the greatest relative growth also showed the greatest capacity for osmotic adjustment in the flag leaf and produced the greatest yields in experiments with adult plants. The results indicate that the growth of coleoptiles subjected to water deficit could be used as a selection criterion in breeding programmes designed to improve the tolerance of barley to drought.

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“…The accumulation of anthocyanins in response to stress has been reported to be genotype dependent. Daneshmand et al (2010) observed in wild po- tato species under salinity stress a decrease in anthocyanin content in salt sensitive species and no change in salt-tolerant ones. Ploenlap and Pattanagul (2015) observed anthocyanin overaccumulation under drought stress in a drought-tolerant rice and reduced anthocyanin content in a drought-sensitive variety.…”

Section: Discussionmentioning

confidence: 79%

Anthocyanins participate in protection of wheat seedlings from osmotic stress

Shoeva

Gordeeva

Арбузова

et al. 2017

Cereal Research Communications

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Plant secondary metabolites anthocyanins are considered to play a protective role. In bread wheat (Triticum aestivum L.), anthocyanins can be observed in both adult plants and seedlings. The aim of the current study was to investigate the putative role of anthocyanins present in grains and shoots with respect to the protection of seedlings against drought. For this purpose a set of near isogenic lines (NILs) differing in pericarp and coleoptile colour was used. Water stress was created by artificial shortage of moisture under laboratory conditions. Differences among the lines were observed in a way that the lines with dark-purple grains and coleoptiles (genotype Pp-D1Pp-D1Pp3Pp3Rc-A1Rc-A1Rc-D1Rc-D1) demonstrated a higher seedling drought tolerance than plants with uncoloured pericarp and lightpurple coleoptiles (pp-D1pp-D1pp3pp3Rc-A1Rc-A1rc-D1rc-D1). Furthermore, protection of the root system and the shoot was related with the presence of anthocyanins in grains and coleoptiles, respectively.

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Physiological responses to NaCl stress in three wild species of potato in vitro

Cited by 107 publications

References 52 publications

Influence of abiotic stresses on plant proteome and metabolome changes

Influence of abiotic stresses on plant proteome and metabolome changes

Response of coleoptiles to water deficit: growth, turgor maintenance and osmotic adjustment in barley plants (Hordeum vulgare L.)

Anthocyanins participate in protection of wheat seedlings from osmotic stress

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