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1.
Nitrogen-phosphorus interplay: old story with molecular tale.
Hu, B, Chu, C
The New phytologist. 2020;(4):1455-1460
Abstract
Nitrogen (N) and phosphorus (P) are the two most abundant mineral nutrients used by plants, and are also the mostly widely used fertilizer elements driving crop yield improvement in agricultural production. The coordinated utilization of N and P is essential to maintain optimal plant growth and achieve maximal crop yield. The signaling pathways of N and P are generally studied separately, so our understanding of N-P interactions is very limited. A series of recent studies have revealed the critical components regulating N-P interactions in both Arabidopsis thaliana and rice (Oryza sativa), and have shed light on our in-depth understanding of the network integrating N and P signaling pathways. Here, we summarize recent progress on N-P interaction and propose possible working mechanisms integrating these N-P interactive regulation pathways. We further discuss future work that might reveal the N-P interactive regulation network in plants.
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2.
Dynamics in plant roots and shoots minimize stress, save energy and maintain water and nutrient uptake.
Arsova, B, Foster, KJ, Shelden, MC, Bramley, H, Watt, M
The New phytologist. 2020;(3):1111-1119
Abstract
Plants are inherently dynamic. Dynamics minimize stress while enabling plants to flexibly acquire resources. Three examples are presented for plants tolerating saline soil: transport of sodium chloride (NaCl), water and macronutrients is nonuniform along a branched root; water and NaCl redistribute between shoot and soil at night-time; and ATP for salt exclusion is much lower in thinner branch roots than main roots, quantified using a biophysical model and geometry from anatomy. Noninvasive phenotyping and precision agriculture technologies can be used together to harness plant dynamics, but analytical methods are needed. A plant advancing in time through a soil and atmosphere space is proposed as a framework for dynamic data and their relationship to crop improvement.
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3.
Comparing levels of vitamin D, calcium and phosphorus in normotensive pregnant women and pregnant women with preeclampsia.
Abbasalizadeh, S, Abam, F, Mirghafourvand, M, Abbasalizadeh, F, Taghavi, S, Hajizadeh, K
Journal of obstetrics and gynaecology : the journal of the Institute of Obstetrics and Gynaecology. 2020;(8):1069-1073
Abstract
Vitamin D and calcium deficiency have been reported as one of the causes of preeclampsia. In this study, levels of vitamin D, calcium and phosphorus were evaluated in 51 normotensive pregnant women and 52 women with preeclampsia at the gestational age between 28 and 36 weeks in Tabriz. Logistic regression and general linear models were used for comparing levels and means of vitamin D, calcium and phosphorus between the two groups adjusting for education and Body Mass Index (BMI). The results showed that mean serum vitamin D (p = .73), calcium (p = .12) and phosphorus (p = .60) levels were not significantly different between the groups after adjusting for education and BMI. Based on this study, no relationship was observed between vitamin D deficiency and preeclampsia; however, it was seen that the hypocalcaemia could increase the risk of preeclampsia up to 8.5 times. Based on our results and the literature, it seems that further studies need to be done to provide more insights into this area.Impact statementWhat is already known on this subject? Preeclampsia is one of the three leading causes of maternal morbidity and mortality worldwide. Despite the importance of preeclampsia, the causes and methods of prevention of this disease are still unknown. Deficiency of vitamin D affects the calcium balance of mothers and fetuses and has also been reported as one of the causes of preeclampsia disease. Reducing serum calcium can lead to increased blood pressure in preeclamptic women. Changes in calcium metabolism during pregnancy could be one of the potential causes of preeclampsia. Although the association of vitamin D, calcium and phosphorus with preeclampsia have been discussed previously, the results are not consistent.What do the results of this study add? The results showed that mean serum vitamin D, calcium and phosphorus levels were not significantly different between the groups.What are the implications of these findings for clinical practice and/or future research? Based on this study, no relationship was observed between vitamin D deficiency and preeclampsia; however, it was seen that the hypocalcaemia could increase the risk of preeclampsia by up to 8.5 times. Based on our results and the literature, it seems that further studies need to be done to provide more insights into this area.
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4.
Physical Activity-Dependent Regulation of Parathyroid Hormone and Calcium-Phosphorous Metabolism.
Lombardi, G, Ziemann, E, Banfi, G, Corbetta, S
International journal of molecular sciences. 2020;(15)
Abstract
Exercise perturbs homeostasis, alters the levels of circulating mediators and hormones, and increases the demand by skeletal muscles and other vital organs for energy substrates. Exercise also affects bone and mineral metabolism, particularly calcium and phosphate, both of which are essential for muscle contraction, neuromuscular signaling, biosynthesis of adenosine triphosphate (ATP), and other energy substrates. Parathyroid hormone (PTH) is involved in the regulation of calcium and phosphate homeostasis. Understanding the effects of exercise on PTH secretion is fundamental for appreciating how the body adapts to exercise. Altered PTH metabolism underlies hyperparathyroidism and hypoparathyroidism, the complications of which affect the organs involved in calcium and phosphorous metabolism (bone and kidney) and other body systems as well. Exercise affects PTH expression and secretion by altering the circulating levels of calcium and phosphate. In turn, PTH responds directly to exercise and exercise-induced myokines. Here, we review the main concepts of the regulation of PTH expression and secretion under physiological conditions, in acute and chronic exercise, and in relation to PTH-related disorders.
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5.
The role of phosphate-containing medications and low dietary phosphorus-protein ratio in reducing intestinal phosphorus load in patients with chronic kidney disease.
Li, J, Wang, L, Han, M, Xiong, Y, Liao, R, Li, Y, Sun, S, Maharjan, A, Su, B
Nutrition & diabetes. 2019;(1):14
Abstract
Chronic kidney disease-mineral and bone disorder (CKD-MBD) is a common complication in patients experiencing end-stage renal disease (ESRD). It includes abnormalities in bone and mineral metabolism and vascular calcification. Hyperphosphatemia is a major risk factor leading to morbidity and mortality in patients with chronic kidney disease. Increased mortality has been observed in patients with ESRD, with serum phosphorus levels of >5.5 mg/dL. Therefore, control of hyperphosphatemia is a major therapeutic goal in the prevention and treatment of CKD-MBD. The treatment of hyperphosphatemia includes decreasing intestinal phosphorus load and increasing renal phosphorus removal. Decreasing the intestinal load of phosphorus plays a major role in the prevention and treatment of CKD-MBD. Among the dietary sources of phosphorus, some of the commonly prescribed medications have also been reported to contain phosphorus. However, drugs are often ignored even though they act as a potential source of phosphorus. Similarly, although proteins are the major source of dietary phosphorus, reducing protein intake can increase mortality in patients with CKD. Recently, the importance of phosphorus/protein ratio in food have been reported to be a sensitive marker for controlling dietary intake of phosphorus. This review summarizes the progress in the research on phosphate content in drugs as an excipient and the various aspects of dietary management of hyperphosphatemia in patients with CKD, with special emphasis on dietary restriction of phosphorus with low dietary phosphate/protein ratio.
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6.
How Does Evolution in Phosphorus-Impoverished Landscapes Impact Plant Nitrogen and Sulfur Assimilation?
Prodhan, MA, Finnegan, PM, Lambers, H
Trends in plant science. 2019;(1):69-82
Abstract
Phosphorus (P) fertilisers, made from rock phosphate, are used to attain high crop yields. However, rock phosphate is a finite resource and excessive P fertilisers pollute our environment, stressing the need for more P-efficient crops. Some Proteaceae have evolved in extremely P-impoverished environments. One of their adaptations is to curtail the abundance of ribosomal RNA, and thus protein, and tightly control the acquisition and assimilation of nitrogen (N) and sulfur. This differs fundamentally from plants that evolved in environments where N limits plant productivity, but is likely common in many species that evolved in P-impoverished landscapes. Here, we scrutinise the relevance of these responses towards developing P-efficient crops, focusing on plant species where 'P is in the driver's seat'.
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7.
The Role of the Phosphorus Atom in Drug Design.
Rodriguez, JB, Gallo-Rodriguez, C
ChemMedChem. 2019;(2):190-216
Abstract
Although the phosphorus atom is found in a variety of oxidation states, most of the phosphorus-containing molecules of pharmacological importance possess phosphorus in the form of phosphonate or phosphinate functional groups, or in a major oxidation state as a phosphate group. The most common occurrence of phosphorus in drugs is either in prodrugs or in compounds for which the phosphorus atom plays a role in the biological activity, such as in modified nucleotides, in metabolically stable analogues of metabolites bearing phosphate groups, and as bioisosteric analogues of carboxyl groups.
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8.
Review: Arbuscular mycorrhizas as key players in sustainable plant phosphorus acquisition: An overview on the mechanisms involved.
Ferrol, N, Azcón-Aguilar, C, Pérez-Tienda, J
Plant science : an international journal of experimental plant biology. 2019;:441-447
Abstract
Phosphorus (P) is a poorly available macronutrient essential for plant growth and development and consequently for successful crop yield and ecosystem productivity. To cope with P limitations plants have evolved strategies for enhancing P uptake and/or improving P efficiency use. The universal 450-million-yr-old arbuscular mycorrhizal (AM) (fungus-root) symbioses are one of the most successful and widespread strategies to maximize access of plants to available P. AM fungi biotrophically colonize the root cortex of most plant species and develop an extraradical mycelium which overgrows the nutrient depletion zone of the soil surrounding plant roots. This hyphal network is specialized in the acquisition of low mobility nutrients from soil, particularly P. During the last years, molecular biology techniques coupled to novel physiological approaches have provided fascinating contributions to our understanding of the mechanisms of symbiotic P transport. Mycorrhiza-specific plant phosphate transporters, which are required not only for symbiotic P transfer but also for maintenance of the symbiosis, have been identified. The present review provides an overview of the contribution of AM fungi to plant P acquisition and an update of recent findings on the physiological, molecular and regulatory mechanisms of P transport in the AM symbiosis.
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9.
Research progress and application prospect of anaerobic biological phosphorus removal.
Yang, F, Zhang, C, Rong, H, Cao, Y
Applied microbiology and biotechnology. 2019;(5):2133-2139
Abstract
Anaerobic biological phosphorus removal has proposed a new direction for the removal of phosphorus from wastewater, and the discovery of phosphate reduction makes people have a more comprehensive understanding of microbial phosphorus cycling. Here, from the perspective of thermodynamics, the bioreduction reaction of phosphate was analyzed and its mechanism was discussed. The research progress of phosphate reduction and the application prospects of anaerobic biological phosphorus removal from wastewater were introduced, pointing out the situation and guiding the further research in this field.
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10.
Root phenotypes for improved nutrient capture: an underexploited opportunity for global agriculture.
Lynch, JP
The New phytologist. 2019;(2):548-564
Abstract
Nutrient-efficient crops are a solution to the two grand challenges of modern agriculture: improving food security while reducing environmental impacts. The primary challenges are (1) nitrogen (N) and phosphorus (P) efficiency; (2) potassium (K), calcium (Ca), and magnesium (Mg) efficiency for acid soils; and (3) iron (Fe) and zinc (Zn) efficiency for alkaline soils. Root phenotypes are promising breeding targets for each of these. The Topsoil Foraging ideotype is beneficial for P capture and should also be useful for capture of K, Ca, and Mg in acid soils. The Steep, Cheap, and Deep ideotype for subsoil foraging is beneficial for N and water capture. Fe and Zn capture can be improved by targeting mechanisms of metal mobilization in the rhizosphere. Root hairs and phenes that reduce the metabolic cost of soil exploration should be prioritized in breeding programs. Nutrient-efficient crops should provide benefits at all input levels. Although our current understanding is sufficient to deploy root phenotypes for improved nutrient capture in crop breeding, this complex topic does not receive the resources it merits in either applied or basic plant biology. Renewed emphasis on these topics is needed in order to develop the nutrient-efficient crops urgently needed in global agriculture.