Functional Plant Biology
Volume 44 Number 12 2017
FP17133Expressing Arabidopsis thaliana V-ATPase subunit C in barley (Hordeum vulgare) improves plant performance under saline condition by enabling better osmotic adjustment
Salinity is a global problem affecting agriculture. Here we show that overexpression of vacuolar ATPase subunit C is beneficial in improving barley performance under saline conditions. This effect is explained by transgenic lines being able to rely more on the use of Na+ and K+ for osmotic adjustment rather than spending energy for de novo synthesis of organic osmolytes.
FP16436Roles played by invertase and gene expression in the development of the horn-shaped gall on leaves of Rhus chinensis
Horn-shaped gall is of great value in food, medicine and the industrial field, so the control of its formation will be helpful to increase the products. Vacuolar invertase is related to the rapid expansion of the galls, but ionically bound cell wall invertase is involved in the rapid growth of tissues. This might also be found in other kinds of galls.
Heavy metals disrupt pollen germination in many species, but the mechanism of their action remained unstudied. Here we report that Cu2+ and Ni2+ affect H+ current and K+ current, respectively, in lily pollen protoplasts; Cu2+ as well enhances reactive oxygen species accumulation. Thus, we reveal the targets for heavy metals (Cu2+ and Ni2+) in the pollen grain plasma membrane.
FP17032Light inhibition of foliar respiration in response to soil water availability and seasonal changes in temperature in Mediterranean holm oak (Quercus ilex) forest
Leaf respiration is an integral component of plant growth and the global carbon cycle, and it is typically lower during the day than at night. We investigated leaf respiration in Mediterranean holm oak woodland, and found that light inhibition was not strongly related to changes in soil water content or ambient temperature. The findings have implications for predictive models that seek to calculate plant carbon balance.
Salinity reduces the grain yield of cereal crops. In this study, nondestructive and destructive phenotyping was used to evaluate 24 predominately Australian barley lines at 0, 150 and 250 mM NaCl. Lines with higher salinity tolerance were better able to maintain their growth rates shortly after salt treatment and exclude Na+ from their shoots. This study shows that variation in shoot tolerance mechanisms unrelated to ion toxicity exists in barley and suggests that breeding new varieties with increased shoot ion-independent tolerance is possible.
FP17165The effect of elevated atmospheric [CO2] and increased temperatures on an older and modern cotton cultivar
Rising atmospheric [CO2] and temperature under projected climate change scenarios may have significant impacts on the physiology and yield of cotton. We quantified the response of cotton cultivars grown in elevated [CO2] and temperature and found substantial potential to increase breeding selection in future climates. Understanding the implications of integrated environmental impacts on cotton is critical for developing cotton systems that are resilient to stresses induced by climate change.
FP16430Possible involvement of phosphoenolpyruvate carboxylase and NAD-malic enzyme in response to drought stress. A case study: a succulent nature of the C4-NAD-ME type desert plant, Salsola lanata (Chenopodiaceae)
In this work we tested the response of PEPC and NAD-ME in the C4-NAD-ME subtype plant Salsola lanata (Chenopodiaceae) under drought stress. Only severe stress limited PEPC enzyme activity (at pH 8.0) significantly, and this was related with decreased PEPC mRNA. More phosphorylated status of PEPC enzyme in plants is under moderate stress compared with other treatments. The change of NAD-ME activity coincided with a change of leaf water content rather than the amount of α-NAD-ME mRNA and protein.
FP17040Small rainfall pulses affected leaf photosynthesis rather than biomass production of dominant species in semiarid grassland community on Loess Plateau of China
Rainfall pulses in water-limited regions significantly affect ecosystem structure and function. After comparing the effects of size and timing of stimulated rainfall pulses on dominant grassland species, we concluded that small pulses had a greater effect on leaf photosynthesis rather than biomass production, and the magnitude was correlated with species type and growth season. These results facilitate the regional eco-adaptability evaluation of species and prediction of vegetation succession under altered rainfall regimes.
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Many environmental stresses are periodic and predictable. Plants have adapted to these by temporally organising their stress responses to maximise efficiency and efficacy. We review current evidence for temporal regulation of responses to the environment and environmental impacts on the plant circadian clock. Better understanding of the reciprocal interactions between the plant circadian clock and environmental stresses may aid in identifying mechanisms to improve plant growth and increase food security.
FP17203The involvement of programmed cell death in inflated leaf petiole morphogenesis in Trapa pseudoincisa
The inflated leaf petiole of Trapa pseudoincisa undergoes a developmental process from solid to hollow phase. Schizo-lysigenous aerenchyma was developed via the mechanism of programmed cell death (PCD) during the process of inflated leaf petiole morphogenesis. Thus, a trans-disciplinary systems approach that recognizes the need for integration of cytological and molecular characteristics for identification of aerenchyma type in aquatic plant is required.
FP17095Involvement of signalling molecules NO, H2O2 and H2S in modification of plasma membrane proton pump in cucumber roots subjected to salt or low temperature stress
Cascades by which signalling molecules participate in plant responses to changes in environmental conditions are still under intensive study. Our aim was to explain the role of NO, H2O2 and H2S in adaptation of cucumber seedlings to both salt and low temperature stress. Results show that signalling molecules are important for understanding the mechanisms of modification of the activity of the plasma membrane proton pump, which is a key enzyme in abiotic stress conditions.
Chlorophyll b is the major regulator of photosynthetic antennae in land plants. Its absence diminishes light harvesting, photoprotection and ultimately photosynthesis. We show that barley mutants lacking chl b display impaired stomatal control, which can be restored by temporal shading of the plants. Thus the effects of this mutation extend beyond chloroplast metabolism.
Global demand for agricultural product is predicted to surpass our production capacity in the near future, and enhancing plant photosynthesis may be a solution for crop yield improvement. To accelerate enhancement we need to know which target(s) should be manipulated for greatest impact, therefore, a modelling tool has been developed. The tool will be able to improve our understanding of photosynthetic manipulation impacts on crop biomass accumulation, which ultimately affects crop yield.
FP17202The LmSAP gene isolated from the halotolerant Lobularia maritima improves salt and ionic tolerance in transgenic tobacco lines
Abiotic stresses pose serious threats to growth and productivity of crop plants worldwide. We describe the isolation of a novel gene, designated LmSAP, from Lobularia maritime to exploit the potential of this halophyte as a genetic resource to improve salt and ionic tolerance in plants and, particularly, in cereals. These results show that LmSAP is a potentially useful candidate gene for engineering salt and ionic tolerance in cultivated plants.
Reproductive growth is very important for plant survival and population establishment under salinity. It remains unknown whether the reproductive process of Suaeda salsa is affected by salinity. NaCl markedly increased the reproductive growth of S. salsa by increasing flower number and fertility. Unravelling the mechanisms of plant salt tolerance will be helpful for improving agricultural production.
Ethylene-induced abscission of young cotton fruits is a major lint yield limiting factor in cotton crop production under stressed environments. Extreme weather events such as long-term soil waterlogging and elevated CO2 can increase fruit loss caused by ethylene production in cotton. Our study showed that the physiological and yield performance of cotton crops under future environments can potentially be improved by mitigating ethylene action.
FP17167Co-inoculation of maize with Azospirillum brasilense and Rhizobium tropici as a strategy to mitigate salinity stress
Salinity is a major factor affecting crop production worldwide. We identified enzymatic and genetic mechanisms in maize that confer tolerance against abiotic stresses when inoculated with plant growth-promoting bacteria. Inoculation with the elite strains identified in this study, of Azospirillum brasilense (Ab-V6) and Rhizobium tropici (CIAT 899) might represent a valuable and sustainable strategy to mitigate salinity stress.
FP16444Aquaporin AtTIP5;1 as an essential target of gibberellins promotes hypocotyl cell elongation in Arabidopsis thaliana under excess boron stress
Gibberellins (GAs) promote hypocotyl elongation by controlling the expression of many genes in plants. However, only a few target genes of GAs have been identified to date. The paper provides strong evidence that tonoplast aquaporin AtTIP5;1 mediates GA-stimulated hypocotyl cell elongation under excess boron condition in Arabidopsis. The finding highlights the essential roles of vacuoles and boron in GA signalling in plants.
By 2015 genetically modified (GM) crops had been commercialised for 20 years. This technology ranks amongst the most rapidly accepted by farmers, but are there downsides to these introductions? This review considers the advantages and potential disadvantages of GM crops.
FP17201Modelling seasonal changes in the temperature-dependency of CO2 photosynthetic responses in two Vitis vinifera cultivars
Interspecific differences in photosynthetic attributes of Chardonnay and Merlot grapevines have been established. The cause of such differences were attributed to a higher carboxylation and regeneration capacity in the Merlot leaves, especially at high temperatures and cultivar differences were exacerbated as the season progressed. Differences in biochemical processes related to assimilation at high temperatures were measured between the cultivars, and these may relate to inherent differences in temperature tolerance between these closely related cultivars.
FP17151Endoplasmic reticulum stress regulates glutathione metabolism and activities of glutathione related enzymes in Arabidopsis
Prolonged endoplasmic reticulum (ER) stress oxidises the cellular glutathione pool. To elucidate the role of glutathione during ER stress, biosynthesis and degradation of glutathione and activities of related enzymes were evaluated. Our data demonstrated that glutathione biosynthesis and an apoplastic but not cytoplasmic catabolic pathway was induced. In addition, the activities of enzymes that use glutathione as a substrate were increased by ER stress.
FP17085Unravelling the plant signalling machinery: an update on the cellular and genetic basis of plant signal transduction
Signalling is a central phenomenon in biology. It is crucial to all aspects of plant physiology including growth, development and interactions with the environment. Here, novel hypotheses and experimental data regarding signalling hubs, second messengers, programmed cell death and autophagy are presented from the Fourth Plant Signalling and Behaviour Symposium in Sankt Petersburg, Russia, June 2016).
FP17116Myotubularins, PtdIns5P, and ROS in ABA-mediated stomatal movements in dehydrated Arabidopsis seedlings
Arabidopsis myotubularins AtMTM1 and AtMTM2 control stomata movements via reactive oxygen species (ROS) homeostasis under drought stress. Acting as a secondary messenger in the ABA-induced ROS production in guard cells, PtdIns5P emerges as an evolutionarily conserved signalling molecule downstream of AtMTMs calibrating cellular ROS levels under stress. AtMTM1 and AtMTM2 activities balance ABA-induced ROS and cellular homeostasis under dehydration stress.
FP16418The levels of peroxisomal catalase protein and activity modulate the onset of cell death in tobacco BY-2 cells via reactive oxygen species levels and autophagy
Peroxisomes balance the cellular levels of reactive oxygen species (ROS) and therefore should modulate ROS-regulated programs like autophagy or cell death. We used tobacco suspension cultures to show that degradation of peroxisomes via autophagy was a prerequisite for cell death and depended on the levels of the major peroxisomal protein, catalase. This suggests a role of plant catalase in the regulation of peroxisome turnover and autophagic cell death.
FP16339Electrical signalling in Nitellopsis obtusa: potential biomarkers of biologically active compounds
The electrophysiological response pattern of Nitellopsis obtusa cell can be assessed to evaluate the effect of many biologically active compounds. We illustrate a variety of electrophysiological approaches for the investigations of electrical signaling after chemical treatment in vivo. The insights about the Characean model system are likely to hold for plants in general and even deepen the understanding of the plant evolution.
FP16324Molecular insights into the functional role of nitric oxide (NO) as a signal for plant responses in chickpea
Although many studies established nitric oxide (NO) as a signaling molecule in plants, the identification of target molecules of NO has remained elusive due to the lack of in depth molecular studies. Our quantitative proteome analysis suggests the differential regulation of 248 proteins and dynamic regulation of metabolic pathways by exogenous NO donor in chickpea. This is the first report in legumes pointing at the potential candidates that attribute the reported functions of NO in plants.
FP16379Photochemical activity changes accompanying the embryogenesis of pea (Pisum sativum) with yellow and green cotyledons
We studied the dynamics of photochemical activity in seed coats and cotyledons during development of yellow- and green-seeded pea cultivars by using the pulse amplitude modulation fluorometric analysis. The fast transients of the chlorophyll a fluorescence revealed higher photochemical activity in the coats of yellow-seeded cultivar at the early- and middle cotyledon stages of seed development in comparison to those observed in the green-seeded ones. Photochemical activity in the cotyledons of both cultivars could not be any more detected at the late cotyledon stage. This process was triggered by dehydration of seed tissues.
FP16340Cytokinins regulate root growth through its action on meristematic cell proliferation but not on the transition to differentiation
Root growth is controlled by phytohormones, but what cellular processes are regulated and how it occurs is still an open question. Here it is shown that cytokinin affects root growth mainly through its effect on cell proliferation, and does not initiate the transition of cells to differentiation as previously thought. Cellular analysis performed could be applied for the analysis of how any plant hormone influences developmental processes in plant roots.
Intracellular communications in plant cells of large dimensions rely primarily on cytoplasmic streaming, because diffusion is too slow for the transport on mm-scale distances. Illumination of a small cell spot at a various distances from the point of chlorophyll fluorescence measurements revealed the wave-like propagation of the fluorescence response along the cell length. The results show that the photosynthetic function of immobile chloroplasts under constant light can be affected by long-distance transmission of a photosynthetically active metabolite from the remote cell parts.
FP16279Molecular mechanisms accompanying nitric oxide signalling through tyrosine nitration and S-nitrosylation of proteins in plants
Understanding the molecular mechanisms of plant development constitutes an important field of investigations in the current era of plant biology research. Nitric oxide signalling regulates a variety of biochemical processes in plants. Present review provides an in-depth analysis of our current understanding on the subject, particularly with reference to plant growth under stress conditions.
Melatonin is an important hormone and signalling molecule in all forms of life including humans, plants and bacteria. Recent plant physiology and genomic experiments have described the redirection of plant growth and metabolism, and demonstrated a diversity of genes involved in response to melatonin, however, the exact metabolic cascades that translate melatonin signals into physiological responses is not fully understood. This review provides an overview of melatonin mediated signalling manifested as behaviours and its roles in basic and industrial research.
Memristors, or resistors with memory, exist in vivo as components of plasma membranes in plants, fruits, roots and seeds. Authors found memristors in an androecium, spur, petals and pedicel in Sunpatiens flowers. The discovery of memristors in Sunpatiens (Impatiens spp.) creates a new direction in the modelling and understanding of electrophysiological phenomena and memory elements in flowers.
Plant fibres with a tertiary cell wall (G-layer) may function as plant ‘muscles’. Large-scale transcriptome profiling of isolated flax phloem fibres permitted to identify the major players and regulatory elements that operate during graviresponce specifically in the fibres of the pulling stem side. The suggested mechanisms of phloem fibre involvement in tropisms may considerably renew the concept of herbaceous plant behaviour upon gravistimulation.
Clarifying herbivory-induced plant cellular signalling is a critical step to push the research of plant-herbivore interaction forward. We review the role of ion channels/transporters in modulating herbivory-induced early signalling events and rapid systemic signal transmission in plants. This work provides a comprehensive source of information about plant defensive strategies upon attack.
FP16292Studies of cytokinin receptor–phosphotransmitter interaction provide evidences for the initiation of cytokinin signalling in the endoplasmic reticulum
Cytokinin is an important plant hormone and its mode of action has been extensively studied; however, to date, the subcellular localisation of cytokinin perception and signal transduction remains a matter of debate. This study describes cytokinin receptor–phosphotransmitter interaction and its subcellular localisation in living plant cells and it provides several experimental evidences for receptor activity at the endoplasmic reticulum (ER) membrane. It is concluded that intracellular cytokinins within the ER lumen may play an important role in cytokinin signalling, at least in some cell types.
Rhizobium bacteria, which live within the root nodules of legumes, allow plants to capture nitrogen gas from the atmosphere and use it for their own growth. Central to this symbiosis is an intracellular structure, called the symbiosome, in which nitrogen-fixing bacterial cells exchange components with the host cells that harbor them. Recent research on the differentiation of symbiosomes and of the infected cells that accommodate them has helped to decipher some general molecular mechanisms of cell differentiation.
FP16342Parameters of electrical signals and photosynthetic responses induced by them in pea seedlings depend on the nature of stimulus
Plants, like animals, produce electrical signals in response to various external influences. In this study we raised a question whether the electrical signals transmit information about the nature of the stimulus, and found out that different stimuli induce signals of varied parameters. The obtained results explain how plants adapt to changing environment.
FP16380The role of ion disequilibrium in induction of root cell death and autophagy by environmental stresses
Environmental stresses are main causes for low agricultural productivity. At the cellular level, stresses induce generation of reactive oxygen species (ROS), ion disequilibrium, autophagy and programmed cell death (PCD). Here we propose that these processes interact and that ROS and ion disequilibrium are triggers of autophagy and PCD. Overall, presented data contribute to understanding plant stress physiology.
FP16420Mechanisms of cytosolic calcium elevation in plants: the role of ion channels, calcium extrusion systems and NADPH oxidase-mediated 'ROS-Ca2+ Hub'
Transient elevation of cytosolic Ca2+, also referred as a Ca2+signal, is as central phenomenon of plant signalling. Plants evolved sophisticated systems to initiate, amplify and terminate Ca2+ signals. Structure and properties of these systems, including Ca2+-permeable ion channels, Ca2+-ATPases, Ca2+/H+ exchangers and ‘ROS-Ca2+ hub’ are discussed here. They provide a fine-tuned mechanism for encoding diverse external and internal stimuli.
FP16347Spatial distribution of organelles in leaf cells and soybean root nodules revealed by focused ion beam-scanning electron microscopy
Focussed ion bean scanning electron microscopy (FIB-SEM) is a technique that can be used to generate 3D renderings of cells and their contents. Although FIB-SEM has been regularly used to investigate animal cells and tissues, it has rarely been deployed to study plant structures. Here we demonstrate that FIB-SEM can easily be used to study plant samples and have discovered previously unknown arrangements of organelles and membranes in those samples.
FP16322Formation mechanisms of superoxide radical and hydrogen peroxide in chloroplasts, and factors determining the signalling by hydrogen peroxide
Photosynthetic electron transport chain is not only source of ATP and NADPH for photosynthesis; it is a sensor, informing adaptation systems of plant about environmental changes. An important transmitter of this information is hydrogen peroxide whose mechanisms of formation are presented, laying special emphasis on the formation outside and within thylakoid membrane. It is discussed, that the formation place can ensure definite signal about the specific environmental change.
Although plant proteases of the phytaspase family are important contributors to stress-induced plant cell death, phytaspase of a classical model plant Arabidopsis thaliana has escaped identification thus far. We identified the Arabidopsis phytaspase-encoding gene and characterised the recombinant enzyme. Substrate specificity and properties of the Arabidopsis phytaspase display both important similarities with and distinctions from the already characterised phytaspases.
Cyclic GMP (cGMP) signalling in plants is crucial for many physiological processes. Recent analytical and genomic developments now allow detailed studies into the biochemistry and physiological role of cGMP in plants, and the latest findings are reviewed in this article.
Large conductance SV/TPC1 channels are ubiquitously and abundantly expressed in the vacuolar membranes of higher plants. They are unique established Ca2+-permeable channels in vacuoles, but their activity is strongly negatively controlled, so that they were believed to be inactive or to act only locally. Recent evidence suggests the key role of SV/TPC1 channels in the long-distance Ca2+ signalling.
FP16261Two native types of phytochrome A, phyAʹ and phyAʺ, differ by the state of phosphorylation at the N-terminus as revealed by fluorescence investigations of the Ser/Ala mutant of rice phyA expressed in transgenic Arabidopsis
Plants adapt to environmental light conditions with the use of the sophisticated phytochrome system. In this work, polymorphism of its major component – phytochrome A– was investigated. With the use of transgenic Arabidopsis and fluorescence technique, it was shown that two molecular types of the photoreceptor differ by the state of phosphorylation and their existence accounts for its complex functions.
FP16242Rapid changes in root HvPIP2;2 aquaporins abundance and ABA concentration are required to enhance root hydraulic conductivity and maintain leaf water potential in response to increased evaporative demand
The ABA-deficient barley mutant Az34 and wild type (WT) were exposed to air warming. Although transpiration rate of both genotypes increased, leaf water potential decreased in the mutant but was maintained in WT plants. Only WT plants showed increased root ABA accumulation, which increased root hydraulic conductivity and aquaporin abundance, which seems important in maintaining leaf hydration.
These articles have been peer reviewed and accepted for publication. They are still in production and have not been edited, so may differ from the final published form.
Structural and functional characterization of two novel durum wheat annexins genes in response to abiotic stress
Seasonal variations of leaf chlorophyll-protein complexes in the wintergreen herbaceous plant Ajuga reptans L.
Impact of hemlock woolly adelgid (Adelges tsugae) infestation on xylem structure and function and leaf physiology in eastern hemlock (Tsuga canadensis)
Biochemical and transcriptomic analysis of maize diversity to elucidate drivers of leaf carbon isotope composition
The Regulator of G-Protein Signaling Protein mediates D-glucose-induced stomatal closure via triggering hydrogen peroxide and nitric oxide production in Arabidopsis
Role of the antioxidant system in the regulation of the chlorophyll biosynthesis pathway in the vascular plant Cucumis sativus.
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Functional Plant Biology 44 (5)Jesper T. Pedersen, Michael Palmgren
Genotypic variation in soil water use and root distribution and their implications for drought tolerance in chickpeaFunctional Plant Biology 44 (2)Ramamoorthy Purushothaman, Lakshmanan Krishnamurthy, Hari D. Upadhyaya, Vincent Vadez, Rajeev K. Varshney
Relationships between climate of origin and photosynthetic responses to an episodic heatwave depend on growth CO2 concentration for Eucalyptus camaldulensis var. camaldulensisFunctional Plant Biology 44 (11)Michael E. Loik, Víctor Resco de Dios, Renee Smith, David T. Tissue
Functional Plant Biology 44 (4)Mark T. Waters
Genotypic water-deficit stress responses in durum wheat: association between physiological traits, microRNA regulatory modules and yield componentsFunctional Plant Biology 44 (5)Haipei Liu, Amanda J. Able, Jason A. Able
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The temperature response of leaf dark respiration in 15 provenances of Eucalyptus grandis grown in ambient and elevated CO2Functional Plant Biology 44 (11)Michael J. Aspinwall, Vinod K. Jacob, Chris J. Blackman, Renee A. Smith, Mark G. Tjoelker, David T. Tissue
Functional Plant Biology 44 (11)Rachael H. Nolan, Tonantzin Tarin, Kendal A. Fairweather, James Cleverly, Derek Eamus
Expressing Arabidopsis thaliana V-ATPase subunit C in barley (Hordeum vulgare) improves plant performance under saline condition by enabling better osmotic adjustmentFunctional Plant Biology 44 (12)Getnet D. Adem, Stuart J. Roy, Yuqing Huang, Zhong-Hua Chen, Feifei Wang, Meixue Zhou, John P. Bowman, Paul Holford, Sergey Shabala
The effect of elevated atmospheric [CO2] and increased temperatures on an older and modern cotton cultivarFunctional Plant Biology 44 (12)Katrina J. Broughton, Michael P. Bange, Remko A. Duursma, Paxton Payton, Renee A. Smith, Daniel K. Y. Tan, David T. Tissue
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Changes of enzyme activities related to oxidative stress in rice plants inoculated with random mutants of a Pseudomonas fluorescens strain able to improve plant fitness upon biotic and abiotic conditionsFunctional Plant Biology 44 (11)Jose A. Lucas, Ana Garcia-Villaraco Velasco, Beatriz Ramos, Francisco J. Gutierrez-Mañero
Different water relations between flowering and leaf periods: a case study in flower-before-leaf-emergence Magnolia speciesFunctional Plant Biology 44 (11)Hui Liu, Qiu-Yuan Xu, Marjorie R. Lundgren, Qing Ye
Vegetative desiccation tolerance of Tripogon spicatus (Poaceae) from the tropical semiarid region of northeastern BrazilFunctional Plant Biology 44 (11)Saulo de T. Aidar, Agnaldo R. de M. Chaves, Paulo I. Fernandes Júnior, Melquisedec de S. Oliveira, Benjamim P. da Costa Neto, Tercílio Calsa Junior, Carolina V. Morgante
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