Methyl Jasmonate Affects Photosynthesis Efficiency, Expression of HvTIP Genes and Nitrogen Homeostasis in Barley

Kurowska, Marzena; Daszkowska‐Golec, Agata; Gajecka, Monika; Kościelniak, Paulina; Bierza, Wojciech; Szarejko, Iwona

doi:10.3390/ijms21124335

Cited by 22 publications

(11 citation statements)

References 129 publications

(174 reference statements)

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“…Additionally, mutations, recombination, the number of active alleles, genetic drift, and genetic structure also could influence the amount of variation within a population (Ambreen et al, 2018 (Ahan et al, 2017) and the population may have expanded after the temporary bottleneck. The admixture among individuals was also reported in other crops such as Nigella sativa L. (Golkara & Nourbakhshb, 2019), safflower (Ambreen et al, 2018), and Simrouba glauca (Kumar & Agrawal, 2017 (Hu et al, 2017;Kurowska et al, 2020;Wingler et al, 2020). Therefore, the genetic diversity and selection pressures may enable the TKS to adapt to a variety of environmental conditions in different geographical regions.…”

Section: Discussionmentioning

confidence: 77%

Genetic diversity and evolutionary patterns of Taraxacum kok‐saghyz Rodin

Zhang

Ren

Zhang³

et al. 2021

Ecology and Evolution

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Section: Discussionmentioning

confidence: 77%

Genetic diversity and evolutionary patterns of Taraxacum kok‐saghyz Rodin

Zhang

Ren

Zhang³

et al. 2021

Ecology and Evolution

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“…Photosynthesis in plants is regulated by AQPs through their effect on CO 2 transport in the membranes of the chloroplast and thylakoid [ 69 , 70 , 71 ]. Another example is that by facilitating the urea and NH 4 + /NH 3 uptake, the AQPs ensure the N homeostasis [ 71 , 72 ]. The enabling of H 2 O 2 diffusion by AQPs seems to be very important during the stress response when the reactive oxygen species are produced, while on the other hand the transport of this signalling molecule could have important functions in plant development and the regulation of a wide range of physiological processes [ 73 ].…”

Section: Study Of the Expression And Role Of Aquaporins In Maintaining The Cell Homeostasis Of Cereals Under Abiotic Stressmentioning

confidence: 99%

Aquaporins in Cereals—Important Players in Maintaining Cell Homeostasis under Abiotic Stress

Kurowska

2021

Genes

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Cereal productivity is reduced by environmental stresses such as drought, heat, elevated CO2, salinity, metal toxicity and cold. Sometimes, plants are exposed to multiple stresses simultaneously. Plants must be able to make a rapid and adequate response to these environmental stimuli in order to restore their growing ability. The latest research has shown that aquaporins are important players in maintaining cell homeostasis under abiotic stress. Aquaporins are membrane intrinsic proteins (MIP) that form pores in the cellular membranes, which facilitate the movement of water and many other molecules such as ammonia, urea, CO2, micronutrients (silicon and boron), glycerol and reactive oxygen species (hydrogen peroxide) across the cell and intercellular compartments. The present review primarily focuses on the diversity of aquaporins in cereal species, their cellular and subcellular localisation, their expression and their functioning under abiotic stresses. Lastly, this review discusses the potential use of mutants and plants that overexpress the aquaporin-encoding genes to improve their tolerance to abiotic stress.

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“…Methyl jasmonate treatment caused a decrease in the nitrogen content in barley leaves, which was associated with an increased expression of the four tonoplast aquaporin genes (HvTIP1;2, HvTIP2;2, HvTIP4;1 and HvTIP4;2), which are predicted to transport the nitrogen compounds from the vacuole to the cytosol. The up-regulation of the nitrogen-transporting HvTIPs may lead to a vacuolar unloading of ammonia and urea, which could both be remobilised when the nitrogen content in barley leaves decreases [109]. In barley, the changes in the expression of all of the investigated HvTIPs in response to MeJA treatment were associated with the presence of the cis-regulatory elements in their promotor regions, which are recognised by the jasmonate-related transcription factors [109].…”

Section: Phytohormone Treatmentmentioning

confidence: 99%

“…The up-regulation of the nitrogen-transporting HvTIPs may lead to a vacuolar unloading of ammonia and urea, which could both be remobilised when the nitrogen content in barley leaves decreases [109]. In barley, the changes in the expression of all of the investigated HvTIPs in response to MeJA treatment were associated with the presence of the cis-regulatory elements in their promotor regions, which are recognised by the jasmonate-related transcription factors [109]. Other types of elements that possibly participate in the response to phytohormones in the HvTIP promotor regions such as abscisic acid (ABA), gibberellins (GA) and auxin were also identified [89].…”

Section: Phytohormone Treatmentmentioning

confidence: 99%

TIP Aquaporins in Plants: Role in Abiotic Stress Tolerance

Kurowska¹

2021

Abiotic Stress in Plants

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Tonoplast Intrinsic Proteins (TIP) are one of five subfamilies of aquaporins in higher plants. Plants typically contain a large number of TIP genes, ranging from 6 to 35 compared to humans. The molecular weight of the TIP subfamily members ranges from 25 to 28 kDa. Despite their sequence diversity, all TIP monomers have the same structure, which consists of six transmembrane helices and five inter-helical loops that form an hourglass shape with a central pore. Four monomers form tetramers, which are functional units in the membrane. TIPs form channels in the tonoplast that basically function as regulators of the intracellular water flow, which implies that they have a role in regulating cell turgor. TIPs are responsible for precisely regulating the movement of not only water, but also some small neutral molecules such as glycerol, urea, ammonia, hydrogen peroxide and formamide. The expression of TIPs may be affected by different environmental stresses, including drought, salinity and cold. TIPs expression is also altered by phytohormones and the appropriate cis-regulatory motifs are identified in the promotor region of the genes encoding TIPs in different plant species. It was shown that manipulating TIP-encoding genes expression in plants could have the potential to improve abiotic stress tolerance.

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Methyl Jasmonate Affects Photosynthesis Efficiency, Expression of HvTIP Genes and Nitrogen Homeostasis in Barley

Cited by 22 publications

References 129 publications

Genetic diversity and evolutionary patterns of Taraxacum kok‐saghyz Rodin

Genetic diversity and evolutionary patterns of Taraxacum kok‐saghyz Rodin

Aquaporins in Cereals—Important Players in Maintaining Cell Homeostasis under Abiotic Stress

TIP Aquaporins in Plants: Role in Abiotic Stress Tolerance

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