Your search keyword '"Zinc (Zn)"' showing total 496 results

1. Improving the metal composition of plants for reduced Cd and increased Zn content: molecular mechanisms and genetic regulations.

Author

Palali Delen, Semra, Lee, Jaekwon, and Yang, Jinliang

Subjects

HEAVY elements, HEAVY metals, GENETIC regulation, FUNCTIONAL genomics, CROP improvement, BIOFORTIFICATION

Abstract

Cereal crops account for a large proportion of human caloric demand for billions of people worldwide. However, harmful heavy metal accumulation in grain, i.e., cadmium (Cd), creates a widespread problem in threatening human health directly or indirectly through the food chain. In contrast to Cd, zinc (Zn)—an essential element chemically similar to Cd—is usually lower in concentration in consumed cereals than the amount needed to meet dietary needs, leading to malnutrition in many developing countries. As genetics and functional genomics data become increasingly available, a large body of studies has been conducted for Cd and Zn separately in different cereal crops, making it possible to perform a comparative analysis to reveal the shared or unique metal accumulation and transport mechanisms from genetic and genomics perspectives. Here, we reviewed recent efforts in dissecting the molecular mechanisms and genetic regulations regarding metal accumulation in cereal crops, mainly focusing on the two chemically similar metals—the toxic heavy metal Cd and the essential micronutrient Zn. Based on the literature study, we highlight a potential metal accumulation pathway that can be used as a benchmark to ascertain the functional roles of transporters across species to decrease Cd accumulation, increase Zn concentrations, and provide our view into the metal composition improvement in cereal crops. [ABSTRACT FROM AUTHOR]

Published

2024

2. Geoenvironmetal assessment of different types of cryolithic soils in Western Yakutia under the conditions of diamond-mining operations

Author

Anton S. Titov and Andrey S. Toropov

Subjects

heavy metals, soil pollution, taiga-frozen soils, cryogenic soils, diamond mining, nyurba kimberlite field, arsenic (as), cadmium (cd), mercury (hg), lead (pb), copper (cu), nickel (ni), zinc (zn), western yakutia, speciation, geochemistry, thermodynamic modeling, nica-donnan, Mining engineering. Metallurgy, TN1-997

Abstract

The problems of geoenvironmental consequences of mining operations are especially acute in the arctic and subarctic regions, where the spread of permafrost significantly reduces the buffering capacity of landscapes. The article presents data on the content of heavy metals in the soil cover of the transient zone between the middle taiga and north taiga landscapes of Western Yakutia under the conditions of mining operations and assesses the resistance of different types of soils to heavy metals pollution. Field and laboratory works were carried out in August 2022. The heavy metals content was determined by atomic absorption spectrometry. Specialized software was used for analysis, such as MS Excel 2013, Statistica 12.0, and QGis 3.26.1. Calculation of organic forms of heavy metals in soil solutions was performed using the NICA-Donnan model. In the course of studies, the structure of the soil cover in the Nakyn kimberlite field in the conditions of the mining industrial complex operation was determined and a sketch map of the soil cover of the territory was compiled. The geochemical series of the studied heavy metals is as follows according to the degree of concentration of heavy metals in cryolithic soils: Pb > Zn > Ni > Cu > Cd > As > Hg. Positive correlations between humus and Cd, Pb, Zn, as well as the occurrence of synergism in the Pb–Cd, Zn–Pb, Zn–Cu pairs were revealed. The soils organic matter enhances migration of heavy metals. The man-made input of Ni and Zn in cryolithic soils will lead to increase of mobile fraction. Cd is more mobile in pale-yellow carbonate and cryogenic soils. The regional background level of heavy metals for these types of soils was calculated, which can be used in future works when the intensity of mining operations increases.

Published

2024

3. ANATOMICAL VARIATIONS IN THE STEM AND LEAF EPIDERMIS OF MUNG BEAN (VIGNA RADIATA L.) WITH FOLIAR APPLICATION OF MANGANESE AND ZINC.

Author

AL-HAYANI, M. S. B., AL-DULAIMI, O. I. M., and AL-HDEETHI, M. A. H.

Subjects

*GROWING season, *ANATOMICAL variation, *FIELD research, *MANGANESE, *CULTIVARS, *MUNG bean

Abstract

A field experiment determined the effects of foliar application of zinc (0, 25, and 50 mg Zn L-1 ) and manganese (0, 30, and 60 mg Mn L-1 ) concentrations on growth variables of three mung bean cultivars (Indian Green VC6089A10, Indian Green VC6173B1319, and Indian Black Gold Star). The study commenced in the crop season 2022 at the College of Agriculture, District Ramadi, Anbar Governorate, Iraq. The experimentation followed a randomized complete block design with a split plot arrangement. The zinc levels showed significant differences for growth traits, and the 50 mg Zn L-1 level exhibited the highest average characteristic for the vascular bundle thickness (232.1 µ). However, the manganese (60 mg Mn L-1 ) exceeded the measurement of the lower stomata width (13.50 µ), and its comparative treatment (15.74 µ) outperformed the rest of the variants. The mung bean genotype Black Indian outshone the rest of the cultivars for most traits, such as lower stomata length (16.29 µ), but it did not differ significantly from the cultivar Green Vc6089a10 for the mentioned trait. The interactions of foliar application of zinc, manganese, and mung bean cultivars significantly influenced all these growth parameters. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Results of a Pre-study to Determine The Effects of Zinc and Iron Foliar Fertilizer on Canola (Brassica napus L.).

Author

ÇELİK POLAT, Nezengül, ÇINAR, Volkan Mehmet, and ÜNAY, Aydın

Subjects

*CLIMATIC zones, *RAPESEED, *MEDITERRANEAN climate, *OILSEED plants, *SEED yield, *IRON fertilizers

Abstract

Increasing canola yield, a winter oil crop, is important for its cultivation in the product pattern of the Mediterranean climate zone. Therefore, a study was planned to determine the impact of foliar application zinc (Zn), iron (Fe) and Zn + Fe combination on the yield and quality of canola. The experiment was arranged in a Randomized Complete Block Design with four replications. Zinc (3.0% v/v), iron (7.5% w/w), and their combination were foliar sprayed at rosette and flowering stages. The highest number of siliques per plant, number of seeds per silique, seed index, and seed yield were recorded in the Fe application. Zn + Fe combination significantly increased the oil and protein content, whereas Zn application exhibited higher oil and protein yield performance. It was concluded that using iron and zinc separately regarding yield and quality is economically beneficial. [ABSTRACT FROM AUTHOR]

Published

2024

5. Fe-NPs and Zn-NPs: Advancing Aquaculture Performance Through Nanotechnology.

Author

Asad, Farkhanda, Batool, Navaira, Nadeem, Aiman, Bano, Shehar, Anwar, Noshaba, Jamal, Rafia, and Ali, Shahbaz

Abstract

Aquaculture is a growing industry facing several challenges, including disease control, water quality management, and sustainable feed production. One potential solution to these challenges is the use of trace elements such as iron (Fe) and zinc (Zn), either in their conventional form or as nanoparticles (NPs). Aquatic animals need these micronutrients for normal growth, physiological processes, and overall health. In marine species, iron boosts development, immunity, and disease resistance. At the same time, zinc enhances metabolism, synthesizes essential enzymes, and produces hormones that play a part in defenses, growth, reproduction, and antioxidative activities. According to this review, species-specific requirements by different Fe and Zn compounds have all emphasized the impacts on animal growth and development, antioxidant capacity, reproductive efficiency, and immunological response. However, NPs of Fe and Zn have been found to have higher bioavailability and efficacy than conventional forms. This work examines the effects of applications of Fe and Fe nanoparticles (Fe-NPs) and Zn and Zn nanoparticles (Zn-NPs) in aquaculture. However, the source of Fe and Zn in aquaculture species and administration volume may significantly impact efficacy. Nanotechnology boosts the positive benefits of Fe and Zn by converting them to their nanoforms (Fe-NPs) and (Zn-NPs), which are better used by animals and have a broader intake range. As a result, Fe-NPs and Zn-NPs offer an effective method for using nutrients in aquaculture. [ABSTRACT FROM AUTHOR]

Published

2024

6. Geochemical Evaluation of Manganese Neutralization Sludge for Mn-Containing Mine Drainage Treatment.

Author

Furukori, Yusuke, Oyama, Keishi, Fuchida, Shigeshi, and Tokoro, Chiharu

Subjects

ACID mine drainage, MANGANESE, MINE drainage, COMPLEXATION reactions, X-ray absorption, WATER purification, HEAVY metals, GEOCHEMICAL modeling

Abstract

Conventional neutralization treatment for manganese (Mn)-bearing mine drainage provides a challenge of cost-efficiency, and new approaches should be explored for efficient removal of Mn. We focused on Mn neutralization sludge, a by-product of the Mn-bearing drainage treatment process, which was assumed to be useful as a water purification material. Mn and zinc (Zn) removal tests in simulated drainage were performed using Mn neutralization sludge, and the reaction mechanism was elucidated using geochemical modeling and X-ray absorption fine structure (XAFS) analysis. The results showed that the addition of sludge enabled to lower the Mn and Zn concentration below Japanese effluent standard (10 mg dm−3 for Mn; 2 mg dm−3 for Zn) within 1 h. Furthermore, heavy metal immobilization was achieved at neutral pH (7–8) with the sludge addition, while the conventional neutralization process without adding the sludge requires higher pH (>10) to lower Mn concentration. These removal behaviors were not explainable by considering only well-known phenomena: hydroxide precipitation, surface complexation reaction onto δ-MnO2, and autocatalytic Mn oxidation. Hence, we advanced the geochemical model for simulation, suggesting that a surface complexation reaction onto γ-MnOOH greatly contributed to the removal of Mn. Besides, Zn was calculated to be predominantly precipitated as ZnMn2O4. Solid residue analysis by XAFS measurement supported the result of above calculation, validating the reliability of the constructed geochemical model. Overall, we concluded that the advanced geochemical model would be useful in predicting the Mn and Zn behavior during mine drainage treatment with Mn neutralization sludge. [ABSTRACT FROM AUTHOR]

Published

2024

7. Zinc Oxide Nanoparticles Significant Role in Poultry and Novel Toxicological Mechanisms.

Author

Fatima, Arjmand, Zaheer, Tean, Pal, Kaushik, Abbas, Rao Zahid, Akhtar, Tayyaba, Ali, Sultan, and Mahmood, Muhammad Shahid

Abstract

Zinc oxide nanoparticles (ZnO NPs) have involved a lot of consideration owing to their distinctive features. The ZnO NPs can be described as particularly synthesized mineral salts via nanotechnology, varying in size from 1 to 100 nm, while zinc oxide (ZnO), it is an inorganic substrate of zinc (Zn). The Zn is a critical trace element necessary for various biological and physiological processes in the body. Studies have revealed ZnO NPs' efficient immuno-modulatory, growth-promoting, and antimicrobial properties in poultry birds. They offer increased bioavailability as compared to their traditional sources, producing better results in terms of productivity and welfare and consequently reducing ecological harm in the poultry sector. However, they have also been reported for their toxicological effects, which are size, shape, concentration, and exposure route dependent. The investigations done so far have yielded inconsistent results, therefore, a lot of additional studies and research are required to clarify the harmful consequences of ZnO NPs and to bring them to a logical end. This review explores an overview of efficient possible role of ZnO NPs, while comparing them with other nutritional Zn sources, in the poultry industry, primarily as dietary supplements that effect the growth, health, and performance of the birds. In addition to the anti-bacterial mechanisms of ZnO NPs and their promising role as antifungal, and anti-colloidal agent, this paper also covers the toxicological mechanisms of ZnO NPs and their consequent toxicological hazards to vital organs and the reproductive system of poultry birds. [ABSTRACT FROM AUTHOR]

Published

2024

8. Metabolome and transcriptome analyses provide new insights into the mechanisms underlying the enhancement of medicinal component content in the roots of Acanthopanax senticosus (Rupr. et Maxim.) Harms through foliar application of zinc fertilizer.

Author

Tongze Sun, Jialin Sun, Yuli Liu, Yanjun Ren, Yifeng Li, Chang Shi, Alyaa Nasr, Zhonghua Tang, and Abozeid, Ann

Subjects

ZINC fertilizers, ACANTHOPANAX, FERTILIZER application, PEARSON correlation (Statistics), PHENYLPROPANOIDS, PHOSPHATE fertilizers

Abstract

Acanthopanax senticosus (Rupr. et Maxim.) Harms is a perennial shrub of the Acanthopanax genus in the Araliaceae family and has a high medicinal value. The application of zinc fertilizer can improve the yield and quality of medicinal materials. However, there are limited reports on approaches to increase the content of medicinal components in A. senticosus, hindering the improvement of its medicinal quality. In this study, A. senticosus was treated with 0.1% (LZn) and 0.4% (HZn) zinc sprayed on the leaf surface. The effects of zinc treatment on the medicinal components in the roots of A. senticosus were analyzed by comprehensive metabolomics and transcriptomics analyses. A total of 316 metabolites were detected, with a prevailing occurrence of terpenoids and phenylpropanoids. We identified metabolites related to the medicinal components that were upregulated after Zn treatment, including 43 terpenoids, 19 phenylpropanoids, eight phenols, and three flavonoids. Combining differential gene expression and K-means analysis, we found 95, 65, and 25 upregulated genes related to phenylpropanoid biosynthesis, terpenoid biosynthesis, and flavonoid biosynthesis, respectively. Under different concentrations of Zn treatment, the upregulated metabolite biosynthesis-related genes and differentially expressed transcription factors varied. Pearson correlation network analysis revealed significant correlations among terpenoids, phenylpropanoids, flavonoids biosynthetic genes, and several transcription factors (ERFs, WRKYs, bHLHs, NACs, and MYBs). This study lays the foundation for understanding the metabolic processes in response to varying levels of zinc foliar spray and provides a theoretical basis for enhancing the efficiency of zinc fertilizer utilization in A. senticosus. [ABSTRACT FROM AUTHOR]

Published

2023

9. Polydopamine (PDA) coatings with endothelial vascular growth factor (VEGF) immobilization inhibiting neointimal formation post zinc (zn) wire implantation in rat aortas

Author

Jiayin Fu, Qiongjun Zhu, Zhezhe Chen, Jing Zhao, Shaofei Wu, Meng Zhao, Shihui Xu, Dongwu Lai, Guosheng Fu, and Wenbin Zhang

Subjects

Polydopamine (PDA), Endothelial vascular growth factor (VEGF), Neointimal formation, Zinc (zn), Degradation, Medical technology, R855-855.5

Abstract

Abstract Background Bioresorbable stents are designed to provide temporary mechanical support to the coronary arteries and then slowly degrade in vivo to avoid chronic inflammation. Zinc (Zn) is a promising material for bioresorbable stents; However, it can cause inflammation and neointimal formation after being implanted into blood vessels. Methods To improve biocompatibility of Zn, we first coated it with polydopamine (PDA), followed by immobilization of endothelial vascular growth factor (VEGF) onto the PDA coatings. Adhesion, proliferation, and phenotype maintenance of endothelial cells (ECs) on the coated Zn were evaluated in vitro. Then, a wire aortic implantation model in rats mimicking endovascular stent implantation in humans was used to assess vascular responses to the coated Zn wires in vivo. Thrombosis in aortas post Zn wire implantation, degradation of Zn wires in vivo, neointimal formation surrounding Zn wires, and macrophage infiltration and extracellular matrix (ECM) remodeling in the neointimas were examined. Results In vitro data showed that the PDA-coated Zn encouraged EC adhesion, spreading, proliferation, and phenotype maintenance on its surfaces. VEGF functionalization on PDA coatings further enhanced the biocompatibility of Zn to ECs. Implantation of PDA-coated Zn wires into rat aortas didn’t cause thrombosis and showed a faster blood flow than pure Zn or the Zn wires coated with VEGF alone. In addition, the PDA coating didn’t affect the degradation of Zn wires in vivo. Besides, the PDA-coated Zn wires reduced neointimal formation, increased EC coverage, decreased macrophage infiltration, and declined aggrecan accumulation in ECM. VEGF immobilization onto PDA coatings didn’t cause thrombosis and affect Zn degradation in vivo as well, and further increased the endothelization percentage as compared to PDA coating alone, thus resulting in thinner neointimas. Conclusion These results indicate that PDA coatings with VEGF immobilization would be a promising approach to functionalize Zn surfaces to increase biocompatibility, reduce inflammation, and inhibit neointimal formation after Zn implantation in vivo. Graphical Abstract

Published

2023

10. Suppression of mechanical instability in bioabsorbable ultrafine-grained Zn through in-situ stabilization by ZnO nanodispersoids

Author

Martin Balog, Moara Marques de Castro, Jaroslav Čapek, Peter Švec Jr, Martina Takáčová, Lucia Csáderová, Eva Sedláčková, Eliška Švastová, Andrea Školáková, Drahomír Dvorský, Jan Pinc, Vojtěch Hybášek, Jiří Kubásek, Peter Krížik, Jacek Skiba, Oto Bajana, and Ahmed Mohamed Hassan Ibrahim

Subjects

Bioabsorbable, In-vitro, Mechanical properties, Metal matrix composite (MMC), Zinc (Zn), Zinc oxide (ZnO), Mining engineering. Metallurgy, TN1-997

Abstract

The issue of intrinsic microstructural and mechanical instability of Zn-based metals limits their expansion in potential applications of bioresorbable stents and orthopedic fixators. A new concept of stabilization of Zn microstructure by a small fraction of nontoxic nanometric ZnO dispersoids is proposed for the first time and demonstrated on the particular bioabsorbable model material. The effect of the ZnO dispersoids on post-processing microstructural stability, deformation and strengthening mechanisms, corrosion, and in-vitro biological behavior are pursued. The ZnO dispersoids arise in situ within deformed Zn structure during the consolidation of fine atomized Zn 99.99wt.% powder by hydro-extrusion. ZnO nanodispersoids (4.75 vol.%; ∼136 nm) form from passivating films present on Zn. They allow formation of ultrafine-grained Zn structure with an average grain size of ∼750 nm and its retention by Zener pinning action during annealing held at 100 °C. The model Zn + ZnO composite shows the superior mechanical properties than those reported for pure Zn materials. The utilized stabilization concept doesn't compromise corrosion and biological responses. Immersion of the Zn + ZnO in DMEM results in a corrosion rate, which complies with the desirable standard rate for biodegradable materials. Electrochemical tests suggest that the Zn + ZnO reaches a similar degradation rate after the first week of immersion and a more uniform corrosion behavior compared to the cast Zn reference. In-vitro cyto/genotoxicity assays performed using DMEM diluted extracts of the Zn + ZnO and cast Zn incubated with L929 cells yield in comparable and non-toxic responses. The presence of ZnO dispersoids induces a small but still significant bacteriostatic activity.

Published

2023

11. Effects of Individual or Combined Deficiency of Phosphorous and Zinc on Phenotypic, Nutrient Uptake, and Molecular Responses of Finger Millet (Eleusine coracana): A Nutri-Rich Cereal Crop.

Author

Maharajan, Theivanayagam, Krishna, Thumadath Palayullaparambil Ajeesh, Shilpha, Jayabalan, and Ceasar, Stanislaus Antony

Subjects

RAGI, NUTRIENT uptake, ZINC, PHENOTYPES, CROPS

Abstract

Deficiencies of either phosphorus (P) or zinc (Zn) or both are one of the major abiotic constraints influencing agricultural production. Research on the effects of individual or combined P and Zn deficiency is limited in cereals. This study reports the effects of the individual or combined deficiency of inorganic phosphate (Pi) and Zn on the phenotypic, root hair modification, nutrient uptake, and molecular responses of finger millet (Eleusine coracana), a nutri-rich cereal crop. Finger millet seedlings were grown hydroponically under control (+Pi+Zn), individual Pi deficiency (−Pi), individual Zn deficiency (−Zn), and combined Pi and Zn deficiency (−Pi−Zn) conditions for 30 days to find the phenotypic, root hair modification, nutrient uptake, and molecular responses. Compared to the individual −Zn condition, the individual −Pi condition had more of an effect in terms of biomass reduction. The combined −Pi−Zn condition increased the root hair length and density compared to the other three conditions. The individual −Zn condition increased the Pi uptake, while the individual −Pi condition favored the Zn uptake. EcZIP2 was highly upregulated in shoot tissues under the individual −Zn condition, and EcPHT1;2 was highly expressed in root tissues under the individual −Pi condition. This is the first study to report the effects of the individual or combined deficiency of Pi and Zn in finger millet and may lead to future studies to better manage P and Zn deficiency. [ABSTRACT FROM AUTHOR]

Published

2023

12. Effects of exogenous zinc on the physiological characteristics and enzyme activities of Passiflora edulis Sims f. edulis seedlings.

Author

Jianli Zhang, Tao Yang, Chen Zhang, Ting Zhang, Lihua Pu, and Weiquan Zhao

Subjects

PASSION fruit, PHOTOSYNTHETIC pigments, PEARSON correlation (Statistics), ZINC, SKIN care products

Abstract

Passionflower (Passiflora edulis Sims) is widely distributed in tropical and subtropical areas for edible, medicinal and skin care product processing, and the market demand is large. Zinc (Zn) is a necessary trace element for plant growth and development. In many countries, the content of Zn in soil is low and/or bioavailability is low. The exogenous application of Zn has become a common agronomic measure in agriculture. However, the effect of Zn on the physiological characteristics and enzyme activity of passionflower seedlings is not clear. In this study, pot experiments were conducted to analyse the effects of different concentrations of Zn (0, 200, 400, 800 mg kg-1) on the plant growth, photosynthetic pigments, osmotic regulators, membrane system and antioxidant enzyme system of purple passionflower (Passiflora edulis Sims f. edulis) seedlings, and Pearson correlation and principal component analyses were performed. The results showed that (1) the 200 mg kg-1 1 Zn treatment increased the contents of chlorophyll a (37.65%), chlorophyll b (41.22%), chlorophyll a+b (38.59%) and carotenoids (29.74%). The value of chlorophyll a/b changed little and had no effect on leaf growth. (2) The contents of proline (Pro) and malondialdehyde (MDA) in P. edulis Sims f. edulis seedlings treated with 400 mg kg-1 Zn increased significantly by 116.84% and 42.69%, respectively. The activities of catalase (CAT) and peroxidase (POD) increased by 16.82% and 18.70%, respectively. Superoxide dismutase (SOD), leaf area (LA), leaf perimeter (LP) and leaf width (LW) decreased significantly by 47.20%, 19.75%, 8.32% and 11.97%, respectively. (3) 800 mg kg-1 Zn significantly increased the contents of Pro (202.56%) and MDA (26.7%) and the activities of CAT (16.00%) and POD (67.00%), while the soluble sugar (SS), SOD, LA, LP and LW decreased significantly by 36.67%, 32.86%, 23.36%, 8.32% and 11.18%, respectively. (4) There was a significant positive correlation between Pro and photosynthetic pigments and between SOD and leaf growth and a significant negative correlation between POD and SS and between SOD and MDA. (5) A low concentration (200 mg kg-1) of Zn promoted the growth of P. edulis Sims f. edulis seedlings and allowed stress caused by high Zn concentrations to be tolerated. The results of this study can provide a reference for the application of Zn fertilizer to P. edulis Sims f. edulis. [ABSTRACT FROM AUTHOR]

Published

2023

13. Efficient stepwise-purification and mechanism of germanium-containing materials with ammonium

Author

Haokai Di, Yan Hong, Ming Liang, Leiting Song, Kun Yang, and Libo Zhang

Subjects

Germanium (Ge), Stepwise-purification, Zinc (Zn), Ammonium, Mechanism, Chemistry, QD1-999

Abstract

Germanium (Ge) is a dispersed metal and it is mainly recovered from secondary resources. In order to improve the purification efficiency of Ge-containing materials, a new method for purification of Ge-containing materials by ammonium was proposed. The results showed that the zinc (Zn) components in raw materials were complex, including water-soluble Zn and water-insoluble Zn, which should to be removed by the two-stage purification of primary water purification (PWP) and secondary ammonium purification (SAP). The results of single factor experiment on the process of SAP showed that under the optimal purification conditions of total ammonium concentration of 0.69 mol/L, pH of 2.5∼, liquid–solid ratio of 3:1 mL/g, reaction time of 10 min and reaction temperature of 20 °C, 95.68% Zn could be removed from raw materials. The purification mechanism indicated that the water-soluble Zn in the form of physical adsorption and water-insoluble Zn in the form of chemical adsorption can be removed in PWP stage and SAP stage, respectively. After the two-stage purification, the Zn component that was difficult to be removed by burning was greatly reduced, which provided favorable conditions for improving the quality of Ge concentrate.

Published

2023

14. Estimation of Trace Elements (Zinc and Copper) in Serum of Multiple Sclerosis Patients in Baghdad City.

Author

Jabbar, Ammar A. and Al-Saeed, Hassan H.

Subjects

*TRACE elements, *MULTIPLE sclerosis, *DEMYELINATION, *ZINC, *NERVOUS system injuries

Abstract

Background Multiple Sclerosis (MS) also known as demyelinating disease, is a condition in which the insulating coverings of nerve cells in the brain and spinal cord are damaged. This injury impairs the nervous system's ability to transfer messages, resulting in a variety of signs and symptoms, including physical, mental, and psychiatric issues. Double vision, blindness in one eye, muscle weakness, and problems with sensation or coordination are all possible symptoms. MS comes in a variety of ways, with new symptoms appearing in isolated attacks (relapsing forms) or gradually over time (progressive forms), the progressive forms symptoms may go away completely between attacks. The exact cause is unknown. Objective To determine trace elements (zinc and copper) and discuss their relation and effect on MS patients. Methods The study was performed during the period March 2021 to August 2021, involved 50 samples divided into two groups the first 25 samples from normal individuals (16 males and 9 females) and the second 25 sample of MS patients (12 males and 13 females) collected with help of (Sa'ad Al-Watrai Hospital), (Neuroscience Hospital) in Baghdad City. Samples obtained as serum due to venipuncture considering that patients did not use any treatment during the period of samples collection that may affect analysis results other feature like age, gender and other chronic disease has been recorded in this study. Results The patients with progressive MS disease showed significant higher copper level than nonprogressive MS patients and control samples, when we compare it with control group p = <0.0001. Also, patients with non-progressive MS disease showed a lower zinc level compared with progressive MS and control samples (p =0.005 and p = 0.001) respectively. Conclusion The level of serum copper in progressive MS patients is higher than both healthy people and nonprogressive MS patients. Additionally, it showed a lower zinc level in non-progressive than progressive MS patients. Therefore, this study showed a success to compare trace elements level (Zinc and Copper) between progressive and non-progressive MS patients. Also, discriminate between healthy people samples and MS patient's samples has been found. [ABSTRACT FROM AUTHOR]

Published

2023

15. Effect of Potassium and Zinc on Growth and Yield of Pearl Millet.

Author

Reddy, Guduru Vishwaja, Singh, Shikha, Nawhal, Anu, and Raju, Surla Govindha

Published

2023

16. Nanomaterial in the treatment of heavy metals in industrial wastewater from the Northern Refineries Company, Iraq.

Author

MOHAMMED, Wissam Jassim and Saleh, Muafaq Anhab

Subjects

NANOSTRUCTURED materials synthesis, INDUSTRIAL wastes, HEAVY metals, FULLER'S earth

Abstract

Copyright of Nativa is the property of Revista Nativa and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

17. Plasma zinc, copper and serum ceruloplasmin levels of autism spectrum disorder children in Bangladesh

Author

Umme Raihan Siddiqi, Shelina Begum, Shorifa Shahjadi, Sharmin Afroz, Syeda Nusrat Mahruba, Jobaida Parvin, and Md Mahbubur Rahman

Subjects

Autism spectrum disorder (ASD), Zinc (Zn), Copper (Cu), Zinc/copper ratio (Zn/Cu ratio), Ceruloplasmin (Cp), Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Neural and cognitive processes require zinc and copper homeostasis and a normal zinc/copper ratio. Ceruloplasmin, an intrinsic antioxidant protein, maintains copper homeostasis, which might also influence autism spectrum disorder (ASD). ASD children are frequently reported with altered levels of these elements with wide geographical variations. This study evaluated any alteration in plasma zinc, copper, zinc/copper ratio and serum ceruloplasmin levels in Bangladeshi ASD children with respect to healthy controls. A cross-sectional study was conducted on 67 children aged 2 to 9 years of both sexes. Among them, 35 had ASD, while 32 were age, sex and body mass index (BMI) matched apparently healthy children. Plasma zinc and copper levels were estimated by the flame atomic absorption spectrophotometry method. Serum ceruloplasmin levels were estimated by the immunoturbidimetric method. Zinc and zinc/copper ratio in the 2–9 years old ASD children group were significantly lower (p=0.032 and p=0.002 respectively). On the other hand, copper (p=0.020) and ceruloplasmin (p = 0.045) levels were significantly higher than those of apparently healthy children. ASD was significantly associated with zinc deficiency (p=0.000) and copper toxicity (p=0.05). All children were again divided into 2–5 and 6–9 years age groups according to laboratory reference values for zinc and copper. Copper toxicity was significantly associated with ASD in the 2–5 years old age group (p=0.011), with a significant difference in plasma copper levels (p=0.009) and zinc/copper ratio (p=0.001) but not serum ceruloplasmin levels (p=0.110) compared to healthy controls. Serum ceruloplasmin was positively associated with plasma copper in ASD children of all age groups. This study shows that ASD in Bangladesh can be associated with low plasma zinc and high plasma copper and serum ceruloplasmin levels.

Published

2023

18. Zinc in Prostate Health and Disease: A Mini Review.

Author

Karunasinghe, Nishi

Subjects

PROSTATE cancer, PROSTATE diseases, PROSTATE cancer patients, MATRIX metalloproteinases, ZINC

Abstract

Introduction-With the high global prevalence of prostate cancer and associated mortalities, it is important to enhance current clinical practices for better prostate cancer outcomes. The current review is towards understanding the value of Zn towards this mission. Method-General information on Zn in biology and multiple aspects of Zn involvement in prostate health and disease were referred to in PubMed. Results-The most influential feature of Zn towards prostate health is its ability to retain sufficient citrate levels for a healthy prostate. Zn deficiencies were recorded in serum, hair, and prostate tissue of men with prostate cancer compared to non-cancer controls. Zn gut absorption, albumin binding, and storage compete with various factors. There are multiple associations of Zn cellular influx and efflux transporters, Zn finger proteins, matrix metalloproteinases, and Zn signaling with prostate cancer outcomes. Such Zn marker variations associated with prostate cancer recorded from biological matrices may improve algorithms for prostate cancer screening, prognosis, and management when coupled with standard clinical practices. Discussion-The influence of Zn in prostatic health and disease is multidimensional, therefore more personalized Zn requirements may be beneficial. Several opportunities exist to utilize and improve understanding of Zn associations with prostate health and disease. [ABSTRACT FROM AUTHOR]

Published

2022

19. The combined effects of copper and zinc on Arabidopsis involve differential regulation of chlorophyll synthesis and photosystem function.

Author

Moeen-ud-din, Muhammad, Wang, Shuaiqi, Yang, Shaohui, and Wang, Jiehua

Abstract

Copper (Cu) and zinc (Zn) are both oxidation-reducing metal elements that are necessary for plant growth, and their effect often depends on their concentration. However, there are few studies that have investigated how plants are stressed and affected when the two ions are present simultaneously, especially when one ion is beneficial due to a low concentration and the other is detrimental due to a high concentration. To address this question, we treated Arabidopsis plants with either high or/and low concentrations of the two ions and investigated their mutual effects and the underlying molecular mechanism, focusing on photosynthetic function. The results showed that the photosynthetic pigment content and the performance of photosynthetic systems were most affected when both metal ions were present at detrimental concentrations (60 μM Cu for Cu 60 and 350 μM Zn for Zn 350). These include the effective openness of the photoreaction center, the electron transport rate and efficiency of photosystem II (PSII), the NPQ-dependent energy dissipation and the activity of photosystem I (PSI). However, when the harmful concentration of one of the two metals is combined with the beneficial concentration of the other metal (Cu 5 +Zn 350 or Zn 50 +Cu 60), these photosynthetic indicators are compensated to different degrees but the negative effects of copper ions at high dose are more difficult to eliminate than zinc ions. These results were also confirmed by gene expression analysis, which provides a clue to understanding the interaction between heavy metal ions, reducing metal toxicity and improving the tolerance of plants to heavy metals in practice. [Display omitted] • Cu and Zn in excess induce ROS and alter photosynthetic pigment metabolism. • Cu and Zn attack on multi-targets of photosynthetic machinery in Arabidopsis leaves. • Excessive Cu and Zn induce photoinhibition in PSII and PSI and damage photoprotective mechanism (NPQ and CEF). • Excessive Cu and Zn altered the chlorophyll synthesis and photosynthetic function. [ABSTRACT FROM AUTHOR]

Published

2024

20. Uptake of zinc from the soil to the wheat grain: Nonlinear process prediction based on artificial neural network and geochemical data.

Author

Lv, Kai-Ning, Huang, Yong, Yuan, Guo-Li, Sun, Yu-Chen, Li, Jun, Li, Huan, and Zhang, Bo

Published

2024

21. Variation in the sensitivity of intestine and skin of Bufo gargarizans and Rana chensinensis tadpoles in relation to zinc exposure.

Author

Wang, Yaxi, Liu, Ying, Xu, Zhangying, Chai, Lihong, and Wang, Hongyuan

Subjects

*AMPHIBIAN declines, *GUT microbiome, *TADPOLES, *MICROBIAL diversity, *AMPHIBIANS

Abstract

Zinc (Zn) contaminants in the aquatic environment have an intricate impact on amphibians. Amphibian gut and skin microbiota are participated in regulating their normal physiological functions. Here, we investigated the effects of Zn on the gut and skin tissues and microbiota of Bufo gargarizans and Rana chensinensis tadpoles using histological methods and 16S rRNA sequencing technology. Our results showed a decrease in the height of enterocytes and skin epithelial cells after Zn treatment. Furthermore, Zn exposure elicited alterations in the composition and structure of the gut and skin microbiota at the phylum and genus levels in Bufo gargarizans and Rana chensinensis tadpoles. The feature predictions revealed an elevation in the abundance of potentially pathogenic bacteria and stress-tolerant bacteria in the gut and skin of both tadpoles after zinc exposure. We also speculated that microbiota from various species and organs exhibit varying degrees of sensitivity to zinc based on the functional predictions results. In the context of increasing environmental pollution and the global amphibians decline, our research enriches the current understanding of effects of zinc on amphibian microbiota and provides new framework for artificial breeding and amphibian conservation. [Display omitted] • Reduced height of enterocytes and skin epithelial cells occurred after Zn exposure. • Zn exposure altered microbial diversity and composition in tadpoles' gut and skin. • Excessive Zn may disrupt metabolism of tadpoles and increased risk of disease. • The response of gut microbiota to Zn is greater than that of skin microbiota. • Bufo gargarizans tadpoles are more sensitive to Zn than Rana chensinensis tadpoles. [ABSTRACT FROM AUTHOR]

Published

2024

22. STUDY ON PHYTO-EXTRACTION BALANCE OF ZN, CD AND PB FROM MINE-WASTE POLLUTED SOILS BY USING FESTUCA ARUNDINACEA AND LOLIUM PERENNE SPECIES

Author

B. LIXANDRU, N. DRAGOMIR, ANCA PRICOP, C. BOGATU, SMARANDA MÂŞU, FLORICA MORARIU, and I. PEŢ

Subjects

tall fescue, perennial ryegrass, phyto-extraction, zinc (zn), cadmium (cd), lead (pb), Agriculture, Technology, Science

Abstract

Through the cultivation of tall fescue (Festuca arundinacea) and of perennial ryegrass for two years on a chernozem type of soil, in the Banat's plain area we investigated the phyto-extraction potential of Zn, Cd and Pb. In the experimental plot it has been incorporated a quantity of 20 kg of mine-waste per square meter, in a mass ratio of 1:2,5. The mine-waste polluting "contribution" was of 1209 mg Zn / kg d.s., 4.70 mg Cd / kg d.s. and 188.2 mg Pb / kg d.s. The metals content in the soil was determined at the two moments of biomass harvesting, and through balance calculations we could establish the phyto-extraction efficiency of the two foragegrasses species. The obtained results indicate that Festuca arundinacea has an average phyto-extraction yield of 50% for Zn and Cd in the soil; in the case of an ionic excess of 3,5 to 4 times, the phyto-extraction efficiency is reduced, more obvious in the case of Pb (lead) ions. The species Lolium perenne registers a yield of almost 92% in the process of phyto-extraction of Zn. The yield values for Cd si Pb are lower, but comparable with the control plot. Unlike Festuca arundinacea, the Lollium perenne species tolerates better the Cd and Pb ionic excess.

Published

2023

23. Effects of Individual or Combined Deficiency of Phosphorous and Zinc on Phenotypic, Nutrient Uptake, and Molecular Responses of Finger Millet (Eleusine coracana): A Nutri-Rich Cereal Crop

Author

Theivanayagam Maharajan, Thumadath Palayullaparambil Ajeesh Krishna, Jayabalan Shilpha, and Stanislaus Antony Ceasar

Subjects

finger millet, gene expression, phosphorus (P), phosphate transporter 1 (PHT1), zinc (Zn), zinc-regulated, iron-regulated transporter-like proteins (ZIP), Botany, QK1-989

Abstract

Deficiencies of either phosphorus (P) or zinc (Zn) or both are one of the major abiotic constraints influencing agricultural production. Research on the effects of individual or combined P and Zn deficiency is limited in cereals. This study reports the effects of the individual or combined deficiency of inorganic phosphate (Pi) and Zn on the phenotypic, root hair modification, nutrient uptake, and molecular responses of finger millet (Eleusine coracana), a nutri-rich cereal crop. Finger millet seedlings were grown hydroponically under control (+Pi+Zn), individual Pi deficiency (−Pi), individual Zn deficiency (−Zn), and combined Pi and Zn deficiency (−Pi−Zn) conditions for 30 days to find the phenotypic, root hair modification, nutrient uptake, and molecular responses. Compared to the individual −Zn condition, the individual −Pi condition had more of an effect in terms of biomass reduction. The combined −Pi−Zn condition increased the root hair length and density compared to the other three conditions. The individual −Zn condition increased the Pi uptake, while the individual −Pi condition favored the Zn uptake. EcZIP2 was highly upregulated in shoot tissues under the individual −Zn condition, and EcPHT1;2 was highly expressed in root tissues under the individual −Pi condition. This is the first study to report the effects of the individual or combined deficiency of Pi and Zn in finger millet and may lead to future studies to better manage P and Zn deficiency.

Published

2023

24. Micronutrients Foliar and Drench Application Mitigate Mango Sudden Decline Disorder and Impact Fruit Yield.

Author

Umar, Ummadud din, Ahmed, Niaz, Zafar, Muhammad Zeshan, Rehman, Ateequr, Naqvi, Syed Atif Hasan, Zulfiqar, Muhammad Asif, Malik, Muhammad Tariq, Ali, Baber, Saleem, Muhammad Hamzah, and Marc, Romina Alina

Subjects

*FRUIT yield, *MANGO, *ORCHARDS, *MICRONUTRIENTS, *FARM manure, *BOTRYODIPLODIA theobromae, *COPPER sulfate

Abstract

Mango sudden death (MSD) or quick decline (QD) is the most destructive disease found in mango orchards of Pakistan and is characterized by collapse of the vascular system by Ceratocystis fimbriata and Lasiodiplodia theobromae. Cultural practices, chemicals, and biological control are the most valuable tools for the management of MSD, but the role of micronutrient deficiencies has remained an area that is heavily ignored by the farming community. To study the impact of micronutrients, four mango orchards were selected at different locations where different combinations of micronutrients, i.e., Zinc (Zn), Boran (B), and Copper (Cu) in the form of Zinc sulphate (ZnSO4), Borax/Boric acid (H3BO3), and Copper Sulphate (CuSO4), were applied both foliar and in drench along with the recommended doses of Nitrogen: Phosphorous: Potassium (NPK), and Farmyard manure (FYM), respectively. The quantities of micronutrients were determined from the soil and leaves before and after application of the treatments. The impact of micronutrients was measured in terms of reduction in disease severity and increase in fruit yield. The results revealed that the application of all three micronutrients both in soil drench and in foliar form significantly decreased the disease severity at three locations and increased the yield in all four mango orchards. Application of ZnSO4 (0.8%), +H3BO3 (0.8%), +CuSO4 (0.5%) and as soil drench ZnSO4 (400 g) + Borax (200 g) + CuSO4 200 g plant−1 proved to be the best treatments, with an average of 12.88 and 14.03% reduction in disease severity and with an average yield of 128 and 119 kg, respectively. The application of micronutrients would be a promising solution in an integrated disease management program used to tackle MSD. [ABSTRACT FROM AUTHOR]

Published

2022

25. Cultivating Improved Varieties of Maize Does Not Guarantee Sufficient Dietary Provision of Fe and Zn in a Maize–Bean Intercropping System in Eastern Uganda: Evaluating Effects of Climate and Soil Types.

Author

Lugoi, Lazarus Pierentino, Martinsen, Vegard, and Almås, Åsgeir Rossebø

Subjects

*SOIL classification, *CATCH crops, *CORN, *INTERCROPPING, *HUNGER, *NUTRITIONAL requirements

Abstract

Since hunger and malnutrition are affecting billions of people, the effect of cropping seasons, soil types and climatic conditions (temperature and precipitation) on yield, iron (Fe), zinc (Zn) and amino acids content in grains of hybrid maize (Zea mays), at smallholder farms in Eastern Uganda, was examined. Thirty-six (36) on-farm experiments under maize–bean intercropping with NPK fertilizer were established across three soil types (Petric Plinthosols, Lixic Ferralsols and Vertisols) and growing conditions (seasons, temperature and rainfall). We found significant differences in the grain yield between seasons, but not between soil types. Fe (mean of 22.48 mg/kg) in maize–grains significantly correlated with Zn (mean of 23.21 mg/kg), soil pH, soil organic matter and total nitrogen. Grain amino acid concentrations differed significantly between the seasons and across soil types. Precipitation and temperature did not significantly influence grain-yield nor grain Fe and Zn contents. For two seasons, the hybrid maize variety did not perform better than other varieties in the regions. Thus, a critical finding is that improved varieties of maize is not enough to facilitate increased Fe and Zn uptake nor amino acids content in their grains to desired levels. Hence, a diet dominated by maize will not supply sufficient micronutrients (Fe and Zn) to meet the human dietary requirements in this region. [ABSTRACT FROM AUTHOR]

Published

2022

26. Zinc Supplementation Partially Decreases the Harmful Effects of a Cafeteria Diet in Rats but Does Not Prevent Intestinal Dysbiosis.

Author

Squizani, Samia, Jantsch, Jeferson, Rodrigues, Fernanda da Silva, Braga, Matheus Filipe, Eller, Sarah, de Oliveira, Tiago Franco, Silveira, Alexandre Kleber, Moreira, José Cláudio Fonseca, Giovenardi, Marcia, Porawski, Marilene, and Guedes, Renata Padilha

Abstract

Zinc (Zn) plays an important role in metabolic homeostasis and may modulate neurological impairment related to obesity. The present study aimed to evaluate the effect of Zn supplementation on the intestinal microbiota, fatty acid profile, and neurofunctional parameters in obese male Wistar rats. Rats were fed a cafeteria diet (CAF), composed of ultra-processed and highly caloric and palatable foods, for 20 weeks to induce obesity. From week 16, Zn supplementation was started (10 mg/kg/day). At the end of the experiment, we evaluated the colon morphology, composition of gut microbiota, intestinal fatty acids, integrity of the intestinal barrier and blood–brain barrier (BBB), and neuroplasticity markers in the cerebral cortex and hippocampus. Obese rats showed dysbiosis, morphological changes, short-chain fatty acid (SCFA) reduction, and increased saturated fatty acids in the colon. BBB may also be compromised in CAF-fed animals, as claudin-5 expression is reduced in the cerebral cortex. In addition, synaptophysin was decreased in the hippocampus, which may affect synaptic function. Our findings showed that Zn could not protect obese animals from intestinal dysbiosis. However, an increase in acetate levels was observed, which suggests a partial beneficial effect of Zn. Thus, Zn supplementation may not be sufficient to protect from obesity-related dysfunctions. [ABSTRACT FROM AUTHOR]

Published

2022

27. Zinc Supplementation Improved Neuropeptide Y, Nesfatin-1, Leptin, C-reactive protein, and HOMA-IR of Diet-Induced Obese Rats.

Author

Demirci, Şule and Gün, Cennet

Abstract

Obesity is a mild chronic inflammation that causes many metabolic diseases. It was aimed to investigate some parameters affective on the energy metabolism by adding zinc (Zn, ZnSO4) to drinking water of diet-induced obese rats. Five-week aged, male Sprague Dawley rats divided into as control group, consuming standard rat diet, and high-fat diet (HFD) group. After obesity induced by feeding HFD for 8 weeks, the obese rats were divided into Zn-supplemented obese group (HFD + obese + Zn; 150 mg Zn/L (for 6 weeks), 235 mg Zn/L (7th week), 250 mg Zn/L (8th week) in drinking water) and obese group (HFD + obese). Mean body weight, serum concentrations of C-reactive protein, neuropeptide-Y, leptin, insulin fasting blood glucose, and HOMA-IR were statistically decreased by given Zn in HFD + obese + Zn group compared to HFD + obese rats. It was observed that the total cholesterol, LDL, and HDL cholesterol levels of HFD + obese + Zn group became closer to the control group level, and Zn supplementation caused a statistically significant decrease in cholesterol profile than HFD + obese rats. Also, increased mean serum nesfatin-1 level, an effective protein for the formation of satiety, was analyzed in HFD + obese + Zn group when compared to HFD + obese ones. Serum triglyceride concentration tended to decrease with the effect of Zn in obese rats. In conclusion, it can be said that oral use of Zn could improve energy balance and prevent the occurrence of metabolic diseases related to obesity depending on the anti-inflammatory effect of Zn. [ABSTRACT FROM AUTHOR]

Published

2022

28. Polydopamine (PDA) coatings with endothelial vascular growth factor (VEGF) immobilization inhibiting neointimal formation post zinc (zn) wire implantation in rat aortas

Author

Fu, Jiayin, Zhu, Qiongjun, Chen, Zhezhe, Zhao, Jing, Wu, Shaofei, Zhao, Meng, Xu, Shihui, Lai, Dongwu, Fu, Guosheng, and Zhang, Wenbin

Published

2023

29. Identification of Zinc Efficiency-Associated Loci (ZEAL s) and Candidate Genes for Zn Deficiency Tolerance of Two Recombination Inbred Line Populations in Maize.

Author

Xu, Jianqin, Qin, Xiaoxin, Ni, Zhongfu, Chen, Fanjun, Fu, Xiuyi, and Yu, Futong

Subjects

*LOCUS (Genetics), *CORN, *INBREEDING, *GENES, *ZINC, *AUXIN, *PHENOTYPIC plasticity

Abstract

Zinc (Zn) deficiency is one of the most common micronutrient disorders in cereal plants, greatly impairing crop productivity and nutritional quality. Identifying the genes associated with Zn deficiency tolerance is the basis for understanding the genetic mechanism conferring tolerance. In this study, the K22×BY815 and DAN340×K22 recombination inbred line (RIL) populations, which were derived from Zn-inefficient and Zn-efficient inbred lines, were utilized to detect the quantitative trait loci (QTLs) associated with Zn deficiency tolerance and to further identify candidate genes within these loci. The BLUP (Best Linear Unbiased Prediction) values under Zn-deficient condition (-Zn) and the ratios of the BLUP values under Zn deficient condition to the BLUP values under Zn-sufficient condition (-Zn/CK) were used to perform linkage mapping. In QTL analysis, 21 QTLs and 33 QTLs controlling the Zn score, plant height, shoot and root dry weight, and root-to-shoot ratio were detected in the K22×BY815 population and the DAN340×K22 population, explaining 5.5–16.6% and 4.2–23.3% of phenotypic variation, respectively. In addition, seventeen candidate genes associated with the mechanisms underlying Zn deficiency tolerance were identified in QTL colocalizations or the single loci, including the genes involved in the uptake, transport, and redistribution of Zn (ZmIRT1, ZmHMAs, ZmNRAMP6, ZmVIT, ZmNAS3, ZmDMAS1, ZmTOM3), and the genes participating in the auxin and ethylene signal pathways (ZmAFBs, ZmIAA17, ZmETR, ZmEIN2, ZmEIN3, ZmCTR3, ZmEBF1). Our findings will broaden the understanding of the genetic structure of the tolerance to Zn deficiency in maize. [ABSTRACT FROM AUTHOR]

Published

2022

30. Within- and between-subject biological variation data for serum zinc, copper and selenium obtained from 68 apparently healthy Turkish subjects.

Author

Coşkun, Abdurrahman, Carobene, Anna, Aarsand, Aasne K., Aksungar, Fehime B., Serteser, Mustafa, Sandberg, Sverre, Díaz-Garzón, Jorge, Fernandez-Calle, Pilar, Karpuzoğlu, Fatma H., Coskun, Cihan, Kızılkaya, Emine, Fidan, Damla, Jonker, Niels, Uğur, Esra, and Unsal, Ibrahim

Subjects

*BIOLOGICAL variation, *SELENOPROTEINS, *CERULOPLASMIN, *DIETARY supplements, *INDUCTIVELY coupled plasma mass spectrometry, *COPPER, *SELENIUM

Abstract

Keywords: biological variation (BV); copper (Cu); selenium (Se); trace elements (TrEL); zinc (Zn) EN biological variation (BV) copper (Cu) selenium (Se) trace elements (TrEL) zinc (Zn) 533 542 10 03/11/22 20220301 NES 220301 Introduction Trace elements (TrEL) are essential components in maintaining the development and health of humans [[1]]. Zinc (Zn), copper (Cu) and selenium (Se) have numerous and important metabolic functions including normal growth, immunological functions, energy metabolism, antioxidative systems etc. [[2]]. Biological variation (BV), copper (Cu), selenium (Se), trace elements (TrEL), zinc (Zn). [Extracted from the article]

Published

2022

31. A Comparison of Two Methods of Sequential Extraction in a Former Mining Waste Deposit of Pb—Adrianópolis (Brazil)

Author

Kasemodel, Mariana Consiglio, Rodrigues, Valéria Guimarães Silvestre, Shakoor, Abdul, editor, and Cato, Kerry, editor

Published

2019

32. Combination of High Zn Density and Low Phytic Acid for Improving Zn Bioavailability in Rice (Oryza stavia L.) Grain

Author

Yin Wang, Yusha Meng, Yanping Ma, Lei Liu, Dianxing Wu, Xiaoli Shu, Liqing Pan, and Qixian Lai

Subjects

Zinc (Zn), Bioavailability, Rice, Cross-breeding, Biofortification, Plant culture, SB1-1110

Abstract

Abstract Background Zn deficiency is one of the leading public health problems in the world. Staple food crop, such as rice, cannot provide enough Zn to meet the daily dietary requirement because Zn in grain would chelate with phytic acid, which resulted in low Zn bioavailability. Breeding new rice varieties with high Zn bioavailability will be an effective, economic and sustainable strategy to alleviate human Zn deficiency. Results The high Zn density mutant LLZ was crossed with the low phytic acid mutant Os-lpa-XS110–1, and the contents of Zn and phytic acid in the brown rice were determined for the resulting progenies grown at different sites. Among the hybrid progenies, the double mutant always displayed significantly higher Zn content and lower phytic acid content in grain, leading to the lowest molar ratio of phytic acid to Zn under all environments. As assessed by in vitro digestion/Caco-2 cell model, the double mutant contained the relatively high content of bioavailable Zn in brown rice. Conclusions Our findings suggested pyramiding breeding by a combination of high Zn density and low phytic acid is a practical and useful approach to improve Zn bioavailability in rice grain.

Published

2021

33. Serum/Plasma Zinc Is Apparently Increased in Ischemic Stroke: a Meta-analysis.

Author

Huang, Mengyun, Zhu, Lijun, Chen, Yan, Jin, Yuelong, Fang, Zhengmei, and Yao, Yingshui

Abstract

Zinc (Zn) is found in many neuronal pathways in the brain and has implications for neuromodulation and cerebrovascular disease. However, the association between Zn levels and stroke risk remains controversial. Therefore, we conducted a meta-analysis to explore these relationships. A systematic literature search using PubMed, EMBASE database, and Google Scholar was performed for relevant articles from inception to August 2020. Standardized mean differences (SMDs) and 95% confidence intervals (CIs) were considered the effect sizes and statistical analyses were performed using Stata 12.0. A total of 12 studies involving 1878 cases of stroke and 1754 controls were enrolled. Overall, the meta-analysis demonstrated no significant difference in Zn levels between the stroke group and control group (SMD =−0.18, 95% CI =−0.69 to 0.32, P = 0.480). Subgroup analysis showed that type of stroke had an influence on the Zn levels. A meta-analysis of nine ischemic stroke (IS) studies, which included 1645 cases and 1585 controls, revealed that the Zn levels were significantly higher in IS patients than in controls (SMD (95% CI): 0.61(0.04, 1.19), P = 0.036), but no significant association was found between Zn levels and risk of hemorrhagic stroke (P = 0.113). Egger's test indicated no significant publication bias. This meta-analysis indicates that higher Zn levels may be associated with increased risk of IS; however, these findings should be further confirmed. [ABSTRACT FROM AUTHOR]

Published

2022

34. The Effect of Di (2-Ethylhexyl) Phthalate on Hair Trace Mineral Levels in Rats.

Author

Günaydin, Nurgül, Altin, Emine, Ormanci, Neslihan, and Ertekin, Ali

Abstract

We studied the effect of di (2-ethylhexyl) phthalate (DEHP) on rat hair deposition of Iron (Fe), Copper (Cu), Manganese (Mn), and Zinc (Zn). Four groups, each of eight of female Wistar rats weighing 250–300 g, were randomly distributed to (1) control (corn oil-based diet), (2) DEHP 20 (20 mg DEHP per kg body weight (bw), (3) DEHP 100 (100mg DEHP kg/bw, and (4) DEHP 500 (500 mg DEHP kg/bw). The diets were fed daily for 14 days by gastric gavage before the rats were sacrificed. Hair content of Fe, Cu, Mn, and Zn was analyzed with atomic absorption spectrophotometry. There were no significant effect of DEHP on hair Fe content. However, hair Cu, Mn, and Zn were increased after DEHP 20 exposure (p<0.001). After administering DEHP 100 and DEHP 500, both Mn and Zn were decreased (p<0.001), respectively. Hair deposition of Cu, Mn, and Zn was affected by DEHP. [ABSTRACT FROM AUTHOR]

Published

2022

35. Generation Mean Analysis Reveals the Predominant Gene Effects for Grain Iron and Zinc Contents in Pearl Millet.

Author

Pujar, Mahesh, Govindaraj, Mahalingam, Gangaprasad, S., Kanatti, Anand, Gowda, T. H., Dushyantha Kumar, B. M., and Satish, K. M.

Subjects

PEARL millet, HEREDITY, ZINC, IRON, SUMMER, FOOD crops

Abstract

Pearl millet [ Pennisetum glaucum (L.) R. Br.] is a climate-resilient dryland cereal that has been identified as a potential staple food crop that can contribute to alleviating micronutrient malnutrition, particularly with respect to grain iron (Fe) and zinc (Zn) contents, in Sub-Saharan Africa and India. In this regard, an understanding of the inheritance pattern of genes involved in Fe and Zn contents is vital for devising appropriate breeding methods to genetically enhance their levels in grains. In this study, we aimed to determine the genetic effects underlying such inheritance and their interactions based on the generation mean analyses. Four experimental crosses and their six generations (P1, P2, F1, BCP1, BCP2, and F2) were independently evaluated in a compact family block design in 2017 rainy and 2018 summer seasons. ANOVA revealed highly significant mean squares (p < 0.01) among different generations for grain Fe and Zn contents. Six-parameter generation mean analyses revealed a predominance of additive genetic effect and a significant (p < 0.05) additive × dominant interaction for the grain Fe content. The additive genetic effect for the grain Zn content was also highly significant (p < 0.01). However, interaction effects contributed minimally with respect to most of the crosses for the grain Zn content and hence we assume that a simple digenic inheritance pattern holds true for it. Furthermore, we established that narrow-sense heritability was high for the grain Fe content (>61.78%), whereas it was low to moderate for the grain Zn content (30.60–59.04%). The lack of superior parent heterosis coupled with non-significant inbreeding depression for Fe and Zn contents in grains further confirmed the predominance of an additive genetic effect. These findings will contribute to strategizing a comprehensive breeding method to exploit the available variability of grain Fe and Zn contents for the development of biofortified hybrids of pearl millet. [ABSTRACT FROM AUTHOR]

Published

2022

36. (Prunus avium L. تأثير الرش بالزنك والبورون في نسبة العقد والإنتاج للكرز الحلو var. Bing).

Author

عمار مطيع عسكرية, سوسن سليمان, and محاسن توكلنا

Abstract

Copyright of Journal of Agricultural, Environmental & Veterinary Sciences is the property of Arab Journal of Sciences & Research Publishing (AJSRP) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

37. Generation Mean Analysis Reveals the Predominant Gene Effects for Grain Iron and Zinc Contents in Pearl Millet

Author

Mahesh Pujar, Mahalingam Govindaraj, S. Gangaprasad, Anand Kanatti, T. H. Gowda, B. M. Dushyantha Kumar, and K. M. Satish

Subjects

biofortification, iron (Fe), zinc (Zn), additive, dominant, gene interaction, Plant culture, SB1-1110

Abstract

Pearl millet [Pennisetum glaucum (L.) R. Br.] is a climate-resilient dryland cereal that has been identified as a potential staple food crop that can contribute to alleviating micronutrient malnutrition, particularly with respect to grain iron (Fe) and zinc (Zn) contents, in Sub-Saharan Africa and India. In this regard, an understanding of the inheritance pattern of genes involved in Fe and Zn contents is vital for devising appropriate breeding methods to genetically enhance their levels in grains. In this study, we aimed to determine the genetic effects underlying such inheritance and their interactions based on the generation mean analyses. Four experimental crosses and their six generations (P1, P2, F1, BCP1, BCP2, and F2) were independently evaluated in a compact family block design in 2017 rainy and 2018 summer seasons. ANOVA revealed highly significant mean squares (p < 0.01) among different generations for grain Fe and Zn contents. Six-parameter generation mean analyses revealed a predominance of additive genetic effect and a significant (p < 0.05) additive × dominant interaction for the grain Fe content. The additive genetic effect for the grain Zn content was also highly significant (p < 0.01). However, interaction effects contributed minimally with respect to most of the crosses for the grain Zn content and hence we assume that a simple digenic inheritance pattern holds true for it. Furthermore, we established that narrow-sense heritability was high for the grain Fe content (>61.78%), whereas it was low to moderate for the grain Zn content (30.60–59.04%). The lack of superior parent heterosis coupled with non-significant inbreeding depression for Fe and Zn contents in grains further confirmed the predominance of an additive genetic effect. These findings will contribute to strategizing a comprehensive breeding method to exploit the available variability of grain Fe and Zn contents for the development of biofortified hybrids of pearl millet.

Published

2022

38. Zinc in Prostate Health and Disease: A Mini Review

Author

Nishi Karunasinghe

Subjects

Zinc (Zn), prostate, citrate, Zn transporters, metallothionines, matrix metalloproteinases, Biology (General), QH301-705.5

Abstract

Introduction-With the high global prevalence of prostate cancer and associated mortalities, it is important to enhance current clinical practices for better prostate cancer outcomes. The current review is towards understanding the value of Zn towards this mission. Method-General information on Zn in biology and multiple aspects of Zn involvement in prostate health and disease were referred to in PubMed. Results-The most influential feature of Zn towards prostate health is its ability to retain sufficient citrate levels for a healthy prostate. Zn deficiencies were recorded in serum, hair, and prostate tissue of men with prostate cancer compared to non-cancer controls. Zn gut absorption, albumin binding, and storage compete with various factors. There are multiple associations of Zn cellular influx and efflux transporters, Zn finger proteins, matrix metalloproteinases, and Zn signaling with prostate cancer outcomes. Such Zn marker variations associated with prostate cancer recorded from biological matrices may improve algorithms for prostate cancer screening, prognosis, and management when coupled with standard clinical practices. Discussion-The influence of Zn in prostatic health and disease is multidimensional, therefore more personalized Zn requirements may be beneficial. Several opportunities exist to utilize and improve understanding of Zn associations with prostate health and disease.

Published

2022

39. Tyrosols retrieved from traditionally brewed yeasts assist in tolerance against heavy metals and promote the growth of cells.

Author

Nath, Bhaskar Jyoti, Das, Khanin Kumar, Talukdar, Riki, and Sarma, Hridip Kumar

Subjects

*HEAVY metals, *CELL growth, *YEAST, *CANDIDA tropicalis, *MICROBIAL enzymes, *QUORUM sensing, *BREWING, *ENCHYTRAEIDAE

Abstract

Heavy metals act as cofactors for several microbial enzymes and are required in low concentrations for the proper biological functioning of yeasts. Because concentrations beyond the permitted threshold can damage a cell's functionality and viability, metal tolerance in yeasts towards such heavy metals is therefore desirable during fermentation. Tyrosol, a quorum-sensing molecule in yeasts, protects yeasts from oxidative stress induced by various factors, but the performance of the molecule under heavy metal-induced stress is not known. In this investigation, the metal tolerance of four species of endemic yeasts from northeast India, Wickerhamomyces anomalus , Candida tropicalis , Saccharomyces cerevisiae and Candida glabrata , isolated from traditional starter culture cakes, was tested towards zinc (Zn+2), manganese (Mn+2), cobalt (Co+2) and copper (Cu+2) in the presence and absence of tyrosols retrieved from these isolates. The decreasing order of the tolerance of isolates was found to be Mn+2 > Zn+2 > Co+2 > Cu+2. Under the influence of tyrosols, isolates showed enhanced growth at their upper metal tolerance limit. Candida tropicalis showed enhanced growth (2−48-fold, P  < 0.0001) in all the tested metal consisting medium (2 mM Zn+2, 5 mM Mn+2, 2 mM Co+2 and 1 mM Cu+2), while W. anomalu s, C. glabrata and S. cerevisiae showed increased growth (3−17-fold, P  < 0.0001) in Zn+2 (2 mM), Mn+2 (5 mM) and Cu+2 (1 mM) augmented medium. The overall result suggests that tyrosol exerts a protective effect under heavy metal-induced stress, which could be useful in enhancing the quality of fermented products. [ABSTRACT FROM AUTHOR]

Published

2021

40. Structural traits of leaf epidermis correspond to metal tolerance in Rumex acetosella populations growing on metal-contaminated soils.

Author

Čiamporová, Milada, Nadubinská, Miriam, Banásová, Viera, Ďurišová, Eva, Zelinová, Veronika, Horak, Othmar, Gruber, Daniela, and Lichtscheidl, Irene K.

Subjects

*HEAVY metals, *RUMEX, *EPIDERMIS, *LIGHT metals, *CELL membranes, *STOMATA, *MITOSIS

Abstract

The pseudometallophyte Rumex acetosella L. occupies habitats with normal and high soil concentrations of zinc (Zn), lead (Pb), and copper (Cu). It remains unclear if the plants respond to the toxic metals by altering their morphology and increasing the resilience of their cells. We compared plants growing on soils contaminated with Zn/Pb (populations Terézia, Lintich), or Cu (populations Špania Dolina, Staré Hory), with those from non-contaminated soil (Dúbravka) in Slovakia, and analysed leaf structure, physiology, and metal contents by light and electron microscopy, element localization by energy-dispersive X-ray analysis (EDX) in scanning electron microscope, and by specific fluorescence dyes. In control population, the epidermis of the amphistomatic leaves of R. acetosella contained capitate glandular trichomes, consisting of four head (secretory), two stalk, and two basal cells. The ultrastructure of secretory cells revealed fine wall ingrowths bordered by plasma membrane protruding into the cytoplasm. The metallicolous populations had higher contents of Zn and Cu in the epidermal and glandular cells, and a higher density of both stomata and trichomes. Extensive cell wall labyrinth was present in the trichome secretory cells. Their abnormal number and elevated metal contents might indicate effects of heavy metals, especially of Cu, on mitosis and cell plate formation. Differences in leaf physiology were indicated by significantly higher cytoplasmic tolerance to Zn and Cu in metallicolous populations and by structural properties of glandular heads suggesting secretion of toxic metals. Our findings are suggestive of plant reactions to metal stress, which facilitate the populations to occupy the metal-contaminated sites. [ABSTRACT FROM AUTHOR]

Published

2021

41. The effect of mercury, copper, and zinc on paraoxonase (PON) enzyme activity in Bonito (Sarda sarda) fish.

Author

Şahin, Büşra and Çenesiz, Sena

Subjects

HEAVY metals, MERCURY, PARAOXONASE, COPPER, ENZYMES, METAL ions, ZINC, ANALYSIS of heavy metals

Abstract

Copyright of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Ürünleri Dergisi is the property of Ege Journal of Fisheries & Aquatic Sciences (EgeJFAS) / Su Urunleri Dergisi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

42. Towards the Mechanisms of Nutrient Solubilization and Fixation in Soil System

Author

Rawat, Jyoti, Sanwal, Pankaj, Saxena, Jyoti, and Meena, Vijay Singh, editor

Published

2018

43. Cultivating Improved Varieties of Maize Does Not Guarantee Sufficient Dietary Provision of Fe and Zn in a Maize–Bean Intercropping System in Eastern Uganda: Evaluating Effects of Climate and Soil Types

Author

Lazarus Pierentino Lugoi, Vegard Martinsen, and Åsgeir Rossebø Almås

Subjects

iron (Fe), zinc (Zn), malnutrition, soil types, hybrid maize, intercropping system, Agriculture

Abstract

Since hunger and malnutrition are affecting billions of people, the effect of cropping seasons, soil types and climatic conditions (temperature and precipitation) on yield, iron (Fe), zinc (Zn) and amino acids content in grains of hybrid maize (Zea mays), at smallholder farms in Eastern Uganda, was examined. Thirty-six (36) on-farm experiments under maize–bean intercropping with NPK fertilizer were established across three soil types (Petric Plinthosols, Lixic Ferralsols and Vertisols) and growing conditions (seasons, temperature and rainfall). We found significant differences in the grain yield between seasons, but not between soil types. Fe (mean of 22.48 mg/kg) in maize–grains significantly correlated with Zn (mean of 23.21 mg/kg), soil pH, soil organic matter and total nitrogen. Grain amino acid concentrations differed significantly between the seasons and across soil types. Precipitation and temperature did not significantly influence grain-yield nor grain Fe and Zn contents. For two seasons, the hybrid maize variety did not perform better than other varieties in the regions. Thus, a critical finding is that improved varieties of maize is not enough to facilitate increased Fe and Zn uptake nor amino acids content in their grains to desired levels. Hence, a diet dominated by maize will not supply sufficient micronutrients (Fe and Zn) to meet the human dietary requirements in this region.

Published

2022

44. Micronutrients Foliar and Drench Application Mitigate Mango Sudden Decline Disorder and Impact Fruit Yield

Author

Ummadud din Umar, Niaz Ahmed, Muhammad Zeshan Zafar, Ateequr Rehman, Syed Atif Hasan Naqvi, Muhammad Asif Zulfiqar, Muhammad Tariq Malik, Baber Ali, Muhammad Hamzah Saleem, and Romina Alina Marc

Subjects

Mangifera indica, Ceratocystis fimbriata, Lasiodiplodia theobromae, boran (B), zinc (Zn), copper (Cu), Agriculture

Abstract

Mango sudden death (MSD) or quick decline (QD) is the most destructive disease found in mango orchards of Pakistan and is characterized by collapse of the vascular system by Ceratocystis fimbriata and Lasiodiplodia theobromae. Cultural practices, chemicals, and biological control are the most valuable tools for the management of MSD, but the role of micronutrient deficiencies has remained an area that is heavily ignored by the farming community. To study the impact of micronutrients, four mango orchards were selected at different locations where different combinations of micronutrients, i.e., Zinc (Zn), Boran (B), and Copper (Cu) in the form of Zinc sulphate (ZnSO4), Borax/Boric acid (H3BO3), and Copper Sulphate (CuSO4), were applied both foliar and in drench along with the recommended doses of Nitrogen: Phosphorous: Potassium (NPK), and Farmyard manure (FYM), respectively. The quantities of micronutrients were determined from the soil and leaves before and after application of the treatments. The impact of micronutrients was measured in terms of reduction in disease severity and increase in fruit yield. The results revealed that the application of all three micronutrients both in soil drench and in foliar form significantly decreased the disease severity at three locations and increased the yield in all four mango orchards. Application of ZnSO4 (0.8%), +H3BO3 (0.8%), +CuSO4 (0.5%) and as soil drench ZnSO4 (400 g) + Borax (200 g) + CuSO4 200 g plant−1 proved to be the best treatments, with an average of 12.88 and 14.03% reduction in disease severity and with an average yield of 128 and 119 kg, respectively. The application of micronutrients would be a promising solution in an integrated disease management program used to tackle MSD.

Published

2022

45. Zinc Supplementation Partially Decreases the Harmful Effects of a Cafeteria Diet in Rats but Does Not Prevent Intestinal Dysbiosis

Author

Samia Squizani, Jeferson Jantsch, Fernanda da Silva Rodrigues, Matheus Filipe Braga, Sarah Eller, Tiago Franco de Oliveira, Alexandre Kleber Silveira, José Cláudio Fonseca Moreira, Marcia Giovenardi, Marilene Porawski, and Renata Padilha Guedes

Subjects

obesity, cafeteria diet (CAF), inflammation, gut microbiota, short-chain fatty acid (SCFA), zinc (Zn), Nutrition. Foods and food supply, TX341-641

Abstract

Zinc (Zn) plays an important role in metabolic homeostasis and may modulate neurological impairment related to obesity. The present study aimed to evaluate the effect of Zn supplementation on the intestinal microbiota, fatty acid profile, and neurofunctional parameters in obese male Wistar rats. Rats were fed a cafeteria diet (CAF), composed of ultra-processed and highly caloric and palatable foods, for 20 weeks to induce obesity. From week 16, Zn supplementation was started (10 mg/kg/day). At the end of the experiment, we evaluated the colon morphology, composition of gut microbiota, intestinal fatty acids, integrity of the intestinal barrier and blood–brain barrier (BBB), and neuroplasticity markers in the cerebral cortex and hippocampus. Obese rats showed dysbiosis, morphological changes, short-chain fatty acid (SCFA) reduction, and increased saturated fatty acids in the colon. BBB may also be compromised in CAF-fed animals, as claudin-5 expression is reduced in the cerebral cortex. In addition, synaptophysin was decreased in the hippocampus, which may affect synaptic function. Our findings showed that Zn could not protect obese animals from intestinal dysbiosis. However, an increase in acetate levels was observed, which suggests a partial beneficial effect of Zn. Thus, Zn supplementation may not be sufficient to protect from obesity-related dysfunctions.

Published

2022

46. The Influence of Lead (Pb), Zinc (Zn), Ratio Lead (Pb) to Zinc (Zn) in Attention Deficit Hyperactivity Disorder (ADHD)

Author

Setiawati, Yunias, Mukono, H J, Wahyuhadi, Joni, and Warsiki, Endang

Published

2019

47. Potential molecular mechanisms of zinc- and copper-mediated antiviral activity on COVID-19.

Author

Rani, Isha, Goyal, Anmol, Bhatnagar, Mini, Manhas, Sunita, Goel, Parul, Pal, Amit, and Prasad, Rajendra

Subjects

*DRUG efficacy, *COVID-19, *ANTI-inflammatory agents, *AUTOPHAGY, *ANTIOXIDANTS, *ANTIVIRAL agents, *MOLECULAR biology, *DIETARY supplements, *CELLULAR signal transduction, *IMMUNITY, *GENOMES, *ZINC, *COPPER, *PATIENT safety, *OXIDATION-reduction reaction, *PHARMACODYNAMICS

Abstract

Novel coronavirus disease 2019 (COVID-19) has spread across the globe; and surprisingly, no potentially protective or therapeutic antiviral molecules are available to treat severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) infection. However, zinc (Zn) and copper (Cu) have been shown to exert protective effects due to their antioxidant, anti-inflammatory, and antiviral properties. Therefore, it is hypothesized that supplementation with Zn and Cu alone or as an adjuvant may be beneficial with promising efficacy and a favorable safety profile to mitigate symptoms, as well as halt progression of the severe form of SARS-CoV-2 infection. The objective of this review is to discuss the proposed underlying molecular mechanisms and their implications for combating SARS-CoV-2 infection in response to Zn and Cu administration. Several clinical trials have also included the use of Zn as an adjuvant therapy with dietary regimens/antiviral drugs against COVID-19 infection. Overall, this review summarizes that nutritional intervention with Zn and Cu may offer an alternative treatment strategy by eliciting their virucidal effects through several fundamental molecular cascades, such as, modulation of immune responses, redox signaling, autophagy, and obstruction of viral entry and genome replication during SARS-CoV-2 infection. [ABSTRACT FROM AUTHOR]

Published

2021

48. The effect of adrenaline on the mineral and trace element status in rats

Author

Shkurashivska Svitlana and Ersteniuk Hanna

Subjects

adrenaline, copper (cu), zinc (zn), magnesium (mg), calcium (ca), rat, Biology (General), QH301-705.5

Abstract

Up until now, changes in biochemical and physiological parameters occurring a long time after stress are not yet elucidated. This is particularly the case for metals, some of which may considerably influence other branches of metabolism, such as bioenergetics and antioxidant defense. The aim of the current study was to investigate changes in levels of minerals (calcium and magnesium) and trace elements (copper and zinc) in erythrocytes and the liver of rats injected once or twice (modeling repeated stress) with adrenaline. The tissues were sampled 0.5 and 24 hours after the injection. A single injection of adrenaline in rats led to a dramatic increase in the levels of zinc (Zn), magnesium (Mg), and calcium (Ca) in their erythrocytes and liver, without a return to the control level (unstressed animals) after 24 hours. The levels of copper (Cu) increased 0.5 hour after a single adrenaline injection in erythrocytes and the liver, but returned to the control level after 24 hours. Double injection of rats with adrenaline led to an increase in the levels of Cu and Zn in their erythrocytes, and Mg in the liver, without a return to the control level after 24 hours. On the other hand, the double injection led to a drastic but transient increase in levels of Mg and Ca in erythrocytes, and Cu, Zn, and Ca in the liver. Thus, injection with adrenaline results in dramatic changes in levels of minerals and trace elements, which do not return to the control level after stress. Low doses of adrenaline lead to more stable changes in levels of essential metals.

Published

2019

49. Identification of Zinc Efficiency-Associated Loci (ZEALs) and Candidate Genes for Zn Deficiency Tolerance of Two Recombination Inbred Line Populations in Maize

Author

Jianqin Xu, Xiaoxin Qin, Zhongfu Ni, Fanjun Chen, Xiuyi Fu, and Futong Yu

Subjects

zinc (Zn), Zn deficiency tolerance, quantitative trait locus (QTL), candidate gene, maize (Zea mays L.), Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Zinc (Zn) deficiency is one of the most common micronutrient disorders in cereal plants, greatly impairing crop productivity and nutritional quality. Identifying the genes associated with Zn deficiency tolerance is the basis for understanding the genetic mechanism conferring tolerance. In this study, the K22×BY815 and DAN340×K22 recombination inbred line (RIL) populations, which were derived from Zn-inefficient and Zn-efficient inbred lines, were utilized to detect the quantitative trait loci (QTLs) associated with Zn deficiency tolerance and to further identify candidate genes within these loci. The BLUP (Best Linear Unbiased Prediction) values under Zn-deficient condition (-Zn) and the ratios of the BLUP values under Zn deficient condition to the BLUP values under Zn-sufficient condition (-Zn/CK) were used to perform linkage mapping. In QTL analysis, 21 QTLs and 33 QTLs controlling the Zn score, plant height, shoot and root dry weight, and root-to-shoot ratio were detected in the K22×BY815 population and the DAN340×K22 population, explaining 5.5–16.6% and 4.2–23.3% of phenotypic variation, respectively. In addition, seventeen candidate genes associated with the mechanisms underlying Zn deficiency tolerance were identified in QTL colocalizations or the single loci, including the genes involved in the uptake, transport, and redistribution of Zn (ZmIRT1, ZmHMAs, ZmNRAMP6, ZmVIT, ZmNAS3, ZmDMAS1, ZmTOM3), and the genes participating in the auxin and ethylene signal pathways (ZmAFBs, ZmIAA17, ZmETR, ZmEIN2, ZmEIN3, ZmCTR3, ZmEBF1). Our findings will broaden the understanding of the genetic structure of the tolerance to Zn deficiency in maize.

Published

2022

50. Combination of High Zn Density and Low Phytic Acid for Improving Zn Bioavailability in Rice (Oryza stavia L.) Grain.

Author

Wang, Yin, Meng, Yusha, Ma, Yanping, Liu, Lei, Wu, Dianxing, Shu, Xiaoli, Pan, Liqing, and Lai, Qixian

Subjects

*PHYTIC acid, *BROWN rice, *ORYZA, *BIOAVAILABILITY, *RICE, *FOOD crops

Abstract

Background: Zn deficiency is one of the leading public health problems in the world. Staple food crop, such as rice, cannot provide enough Zn to meet the daily dietary requirement because Zn in grain would chelate with phytic acid, which resulted in low Zn bioavailability. Breeding new rice varieties with high Zn bioavailability will be an effective, economic and sustainable strategy to alleviate human Zn deficiency. Results: The high Zn density mutant LLZ was crossed with the low phytic acid mutant Os-lpa-XS110–1, and the contents of Zn and phytic acid in the brown rice were determined for the resulting progenies grown at different sites. Among the hybrid progenies, the double mutant always displayed significantly higher Zn content and lower phytic acid content in grain, leading to the lowest molar ratio of phytic acid to Zn under all environments. As assessed by in vitro digestion/Caco-2 cell model, the double mutant contained the relatively high content of bioavailable Zn in brown rice. Conclusions: Our findings suggested pyramiding breeding by a combination of high Zn density and low phytic acid is a practical and useful approach to improve Zn bioavailability in rice grain. [ABSTRACT FROM AUTHOR]

Published

2021