1,063 results on '"Wan, Hong"'
Search Results
2. Effects of 6-methoxybenzoxazolinone (6-MBOA) on animals: state of knowledge and open questions
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Shi, Jia-Yi, Gu, Ke-Han, Yang, Sheng-Mei, Wei, Wan-Hong, and Dai, Xin
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- 2024
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3. Ameliorating effects of natural herbal supplements against water-borne induced toxicity of heavy metals on Nile tilapia, (Oreochromis niloticus)
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Arzoo Fatima, Syed Makhdoom Hussain, Shafaqat Ali, Muhammad Rizwan, Khalid A. Al-Ghanim, and Jean Wan Hong Yong
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Heavy metal ,Herbal supplement ,Growth ,Histopathology ,Nile tilapia ,Toxicity ,Medicine ,Science - Abstract
Abstract The efficacy of herbal supplements in mitigating heavy metals (HMs) toxicity was investigated using a widely grown fish, the Nile tilapia (Oreochromis niloticus). The experiment was conducted over two phases: during the stress phase, the experimental fishes were exposed to sub-lethal concentrations of HMs, including lead, cadmium, zinc, and copper for 15 days; following which during the feeding phase, herbal supplements were given for 70 days to ameliorate their effects. Seven groups were established: the control negative group (CON−ve), control positive group (CON+ve, without any treatment), and five groups with supplementation of 1% turmeric (TUR), cinnamon (CIN), ginger (GIN), garlic (GAR), and their mixture (MIX), respectively. A total of 315 fishes were distributed evenly in experimental tanks (15 fishes per tank, in triplicates). The results revealed that exposure to HMs led to significant (p
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- 2024
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4. BIM and individual physical needs-trained model-enabled approach to spatial redesign and visualization
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Jin-Kook Lee, Sumin Chae, Eunhwa Yang, and Seung Wan Hong
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design visualization ,user-friendly interior design ,interior space redesign ,building information modeling (bim) ,image-generation ai model ,Architecture ,NA1-9428 ,Building construction ,TH1-9745 - Abstract
This paper presents a new spatial visualization technique to redesign indoor spaces that reflect individual physical requirements. Designing safe and convenient environments necessitates differentiated facility installations based on factors such as age, gender, and disability status, emphasizing the need for customized spatial configurations. The study specifically focuses on elderly users, visualizing appropriate safety equipment placement to address physical aging challenges and proposing tailored space redesigns. High-Level of detail (LoD) Building Information Modeling (BIM) components were developed for the training model and utilized in the data processing workflow. The training data consists of images paired with explanatory text, and additional training was completed by optimizing the training hyperparameters. The resulting trained model generates high-quality images that accurately reflect the provided contextual prompts. Furthermore, this study showcases a practical application through the development of a user-friendly mobile web/application interface. This tool allows non-professional users to capture images using their smartphones and visualize potential redesign alternatives tailored to their specific physical requirements. By bridging the gap between spatial visualization techniques and users, this study contributes to making more inclusive and adaptable indoor environments for diverse users, particularly the elderly.
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- 2024
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5. Effects of Hydrogen Charging Time and Pressure on the Hydrogen Embrittlement Susceptibility of X52 Pipeline Steel Material
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Wan, Hong-Jiang, Wu, Xiao-Qi, Ming, Hong-Liang, Wang, Jian-Qiu, and Han, En-Hou
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- 2024
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6. Preparation and Tribological Properties of Potassium Borate/Graphene Nano-composite as Lubricant Additive
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Hou, Xianbin, Liu, Xiang, Dai, Leyang, Yang, Yuhao, Du, Jinhong, Wang, Yongjian, Wan, Hong, and Rao, Xiang
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- 2024
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7. Influence of Bias Voltage on Microstructure and Properties of TiAlSiN Coatings Prepared by HiPIMS
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DU Jianrong, TAO Guanyu, CHEN Hui, YI Juan, WAN Hong, LIU Shuyang, ZHANG Yu
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tialsin coatings ,high power impulse magnetron sputtering ,substrate bias voltage ,microstructure ,mechanical properties ,Materials of engineering and construction. Mechanics of materials ,TA401-492 ,Technology - Abstract
For investigating the influence and mechanism of bias voltage on the composition structure, mechanical properties and tribological properties of TiAlSiN coatings prepared by high-power pulsed magnetron sputtering(HiPIMS), TiAlSiN coatings were deposited on YG8 hardness alloy and N-type single crystal (111) Si by HiPIMS technology with regulating substrate bias voltage (0~-200 V).The microstructure,composition characterization and performance testing of TiAlSiN coatings were carried out by scanning electron microscopy (SEM),X-ray diffraction (XRD), electron probe microscopy (EPMA), X-ray photoelectron spectroscopy (XPS), ultra depth of field microscopy, white light interferometry, nanoindentation, scratch and reciprocating friction and wear testing machines.Results showed that in terms of HiPIMS discharge behavior, an increase in bias voltage could increase the HiPIMS ignition voltage, but the impact on the discharge voltage and current during the platform stage was not significant.The relative changes in elemental composition of TiAlSiN coatings prepared under different bias conditions were relatively small.As the bias voltage increased, the TiAlSiN coating changed from hcp-(Ti, Al)N+fcc-(Ti, Al) N to fcc-(Ti, Al)N.In addition, as the bias voltage increased, the cross-sectional structure of the coating transformed from a loose columnar crystal structure to a dense stacked structure without obvious defects, with surface nodular defects disappearing and grain size gradually decreasing.In terms of mechanical properties, with the increase of bias voltage, the hardness and adhesion of TiAlSiN coating exhibited an upward trend.The coating prepared at-200 V achieved optimal performance, with a maximum hardness of 26.19 GPa and a maximum H/E* of 0.099 5.When the bonding force reached a maximum of 19.63 N,the coating had the lowest wear rate,which was 9×10-15 μm3/(N·m).Based on the above analysis, the microstructure and properties of the coating could be controlled by changing the substrate bias voltage during HiPIMS process, which also improved the toughness of the coating and enhanced the adhesion and tribological properties of the coating significantly.
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- 2024
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8. Combining Urea with Chemical and Biological Amendments Differentially Influences Nitrogen Dynamics in Soil and Wheat Growth
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Asim Hayat, Ghulam Jilani, Sanaullah Jalil, Tanveer Iqbal, Muhammad Rasheed, Arshad Nawaz Chaudhry, Zeshan Ali, Faisal Zulfiqar, Hayssam M. Ali, and Jean Wan Hong Yong
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Chemistry ,QD1-999 - Published
- 2024
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9. Mitigating drought-induced oxidative stress in wheat (Triticum aestivum L.) through foliar application of sulfhydryl thiourea
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Nazia Ishfaq, Ejaz Ahmad Waraich, Muhammad Ahmad, Saddam Hussain, Usman Zulfiqar, Kaleem Ul Din, Arslan Haider, Jean Wan Hong Yong, Syed Muhammad Hassan Askri, and Hayssam M. Ali
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Drought stress ,Antioxidants activities ,Malondialdehyde production ,Osmolytes ,Medicine ,Science - Abstract
Abstract Drought stress is a major abiotic stress affecting the performance of wheat (Triticum aestivum L.). The current study evaluated the effects of drought on wheat phenology, physiology, and biochemistry; and assessed the effectiveness of foliar-applied sulfhydryl thiourea to mitigate drought-induced oxidative stress. The treatments were: wheat varieties; V1 = Punjab-2011, V2 = Galaxy-2013, V3 = Ujala-2016, and V4 = Anaaj-2017, drought stress; D1 = control (80% field capacity [FC]) and D2 = drought stress (40% FC), at the reproductive stage, and sulfhydryl thiourea (S) applications; S0 = control-no thiourea and S1 = foliar thiourea application @ 500 mg L−1. Results of this study indicated that growth parameters, including height, dry weight, leaf area index (LAI), leaf area duration (LAD), crop growth rate (CGR), net assimilation rate (NAR) were decreased under drought stress-40% FC, as compared to control-80% FC. Drought stress reduced the photosynthetic efficiency, water potential, transpiration rates, stomatal conductances, and relative water contents by 18, 17, 26, 29, and 55% in wheat varieties as compared to control. In addition, foliar chlorophyll a, and b contents were also lowered under drought stress in all wheat varieties due to an increase in malondialdehyde and electrolyte leakage. Interestingly, thiourea applications restored wheat growth and yield attributes by improving the production and activities of proline, antioxidants, and osmolytes under normal and drought stress as compared to control. Thiourea applications improved the osmolyte defense in wheat varieties as peroxidase, superoxide dismutase, catalase, proline, glycine betaine, and total phenolic were increased by 13, 20, 12, 17, 23, and 52%; while reducing the electrolyte leakage and malondialdehyde content by 49 and 32% as compared to control. Among the wheat varieties, Anaaj-2017 showed better resilience towards drought stress and also gave better response towards thiourea application based on morpho-physiological, biochemical, and yield attributes as compared to Punjab-2011, Galaxy-2013, and Ujala-2016. Eta-square values showed that thiourea applications, drought stress, and wheat varieties were key contributors to most of the parameters measured. In conclusion, the sulfhydryl thiourea applications improved the morpho-physiology, biochemical, and yield attributes of wheat varieties, thereby mitigating the adverse effects of drought. Moving forward, detailed studies pertaining to the molecular and genetic mechanisms under sulfhydryl thiourea-induced drought stress tolerance are warranted.
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- 2024
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10. Alleviating salinity stress in canola (Brassica napus L.) through exogenous application of salicylic acid
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Maria Ilyas, Muhammad Faisal Maqsood, Muhammad Shahbaz, Usman Zulfiqar, Kamran Ahmad, Nargis Naz, Muhammad Fraz Ali, Muhammad Ahmad, Qasim Ali, Jean Wan Hong Yong, and Hayssam M. Ali
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Canola ,Salinity stress ,Salicylic acid ,Antioxidants ,Osmolytes ,Botany ,QK1-989 - Abstract
Abstract Canola, a vital oilseed crop, is grown globally for food and biodiesel. With the enormous demand for growing various crops, the utilization of agriculturally marginal lands is emerging as an attractive alternative, including brackish-saline transitional lands. Salinity is a major abiotic stress limiting growth and productivity of most crops, and causing food insecurity. Salicylic acid (SA), a small-molecule phenolic compound, is an essential plant defense phytohormone that promotes immunity against pathogens. Recently, several studies have reported that SA was able to improve plant resilience to withstand high salinity. For this purpose, a pot experiment was carried out to ameliorate the negative effects of sodium chloride (NaCl) on canola plants through foliar application of SA. Two canola varieties Faisal (V1) and Super (V2) were assessed for their growth performance during exposure to high salinity i.e. 0 mM NaCl (control) and 200 mM NaCl. Three levels of SA (0, 10, and 20 mM) were applied through foliar spray. The experimental design used for this study was completely randomized design (CRD) with three replicates. The salt stress reduced the shoot and root fresh weights up to 50.3% and 47% respectively. In addition, foliar chlorophyll a and b contents decreased up to 61–65%. Meanwhile, SA treatment diminished the negative effects of salinity and enhanced the shoot fresh weight (49.5%), root dry weight (70%), chl. a (36%) and chl. b (67%). Plants treated with SA showed an increased levels of both enzymatic i.e. (superoxide dismutase (27%), peroxidase (16%) and catalase (34%)) and non-enzymatic antioxidants i.e. total soluble protein (20%), total soluble sugar (17%), total phenolic (22%) flavonoids (19%), anthocyanin (23%), and endogenous ascorbic acid (23%). Application of SA also increased the levels of osmolytes i.e. glycine betaine (31%) and total free proline (24%). Salinity increased the concentration of Na+ ions and concomitantly decreased the K+ and Ca2+ absorption in canola plants. Overall, the foliar treatments of SA were quite effective in reducing the negative effects of salinity. By comparing both varieties of canola, it was observed that variety V2 (Super) grew better than variety V1 (Faisal). Interestingly, 20 mM foliar application of SA proved to be effective in ameliorating the negative effects of high salinity in canola plants.
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- 2024
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11. Effectiveness of feeding different biochars on growth, digestibility, body composition, hematology and mineral status of the Nile tilapia, Oreochromis niloticus
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Muhammad Amjad, Syed Makhdoom Hussain, Shafaqat Ali, Muhammad Rizwan, Khalid A. Al-Ghanim, and Jean Wan Hong Yong
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Biochar ,Growth ,Nutrient digestibility ,Hematology ,Mineral status ,Medicine ,Science - Abstract
Abstract Oreochromis niloticus fingerlings (5.15 ± 0.02 g; n = 315) were fed with different types of biochar (BC)-supplemented sunflower meal-based (SFM) diet to investigate the effects of various BC inclusions on their nutritional digestibility, body composition, hematology and mineral status for 60 days. Seven different diets were formulated based on the SFM based diet: one was a control (TD-I, CON) and the other six diets were supplemented with 2% BC derived from different sources. These BCs were derived from the following: cotton stick (CSBC, TD-II), wheat straw (WSBC, TD-III), corn cob (CCBC, TD-IV), house waste (HWBC, TD-V), grass waste (GWBC, TD-VI), and green waste (GwBC, TD-VII) biochar. There were three replicates for each test diet. Each tank had fifteen tilapia fingerlings, and they were fed with 5% of their live wet weight and twice daily. The outcomes showed that the supplementation of CCBC significantly elevated the growth, nutrient absorption, and body composition of the O. niloticus fingerlings (p
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- 2024
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12. Agricultural waste-based modified biochars differentially affected the soil properties, growth, and nutrient accumulation by maize (Zea mays L.) plants
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Muhammad Farooq Qayyum, Dur-e-Sameen Khan, Suliman Mohammed Suliman Alghanem, Haifa Abdulaziz Sakit Alhaithloul, Ibtisam Mohammed Alsudays, Muhammad Rizwan, and Jean Wan Hong Yong
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Pyrolysis ,Protonated biochars ,Maize crop ,Germination ,Alkaline soil properties ,Botany ,QK1-989 - Abstract
Abstract Biochar (BC) is an organic compound formed by the pyrolysis of organic wastes. Application of BCs as soil amendments has many benefits including carbon sequestration, enhanced soil fertility and sustainable agriculture production. In the present study, we acidified the different BCs prepared from rice straw, rice husk, wheat straw, cotton stalk, poultry manure, sugarcane press mud and vegetable waste; following which, we applied them in a series of pot experiments. Comparisons were made between acidified and non- acidified BCs for their effects on seed germination, soil properties (EC, pH) nutrient contents (P, K, Na) and organic matter. The treatments comprised of a control, and all above-described BCs (acidified as well as non-acidified) applied to soil at the rate of 1% (w/w). The maize crop was selected as a test crop. The results showed that acidified poultry manure BC significantly improved germination percentage, shoot length, and biomass of maize seedlings as compared to other BCs and their respective control plants. However, acidified BCs caused a significant decrease in nutrient contents (P, K, Na) of soil,maize seedlings, and the soil organic matter contents as compared to non- acidified BCs. But when compared with control treatments, all BCs treatments (acidified and non-acidified) delivered higher levels of nutrients and organic matter contents. It was concluded that none of the BCs (acidified and non-acidified) had caused negative effect on soil conditions and growth of maize. In addition, the acidification of BC prior to its application to alkaline soils might had altered soil chemistry and delivered better maize growth. Moving forward, more research is needed to understand the long-term effects of modified BCs on nutrient dynamics in different soils. In addition, the possible effects of BC application timings, application rates, particle size, and crop species have to be evaluated systemtically.
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- 2024
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13. Effects of biochar types on seed germination, growth, chlorophyll contents, grain yield, sodium, and potassium uptake by wheat (Triticum aestivum L.) under salt stress
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Sumei Duan, Arwa Abdulkreem AL-Huqail, Ibtisam Mohammed Alsudays, Mobeen Younas, Alishba Aslam, Ahmad Naeem Shahzad, Muhammad Farooq Qayyum, Muhammad Rizwan, Yousef Alhaj Hamoud, Hiba Shaghaleh, and Jean Wan Hong Yong
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Salinity ,Cereals ,Pyrolysis ,Organic-waste-management ,Botany ,QK1-989 - Abstract
Abstract Soil salinity is a significant challenge in agriculture, particularly in arid and semi-arid regions such as Pakistan, leading to soil degradation and reduced crop yields. The present study assessed the impact of different salinity levels (0, 25, and 50 mmol NaCl) and biochar treatments (control, wheat-straw biochar, rice-husk biochar, and sawdust biochar applied @ 1% w/w) on the germination and growth performance of wheat. Two experiments: a germination study and a pot experiment (grown up to maturity), were performed. The results showed that NaCl-stress negatively impacted the germination parameters, grain, and straw yield, and agronomic and soil parameters. Biochar treatments restored these parameters compared to control (no biochar), but the effects were inconsistent across NaCl levels. Among the different biochars, wheat-straw biochar performed better than rice-husk and sawdust-derived biochar regarding germination and agronomic parameters. Biochar application notably increased soil pHs and electrical conductivity (ECe). Imposing NaCl stress reduced K concentrations in the wheat shoot and grains with concomitant higher Na concentrations in both parts. Parameters like foliar chlorophyll content (a, b, and total), stomatal and sub-stomatal conductance, and transpiration rate were also positively influenced by biochar addition. The study confirmed that biochar, particularly wheat-straw biochar, effectively mitigated the adverse effects of soil salinity, enhancing both soil quality and wheat growth. The study highlighted that biochar application can minimize the negative effects of salinity stress on wheat. Specifically, the types and dosages of biochar have to be optimized for different salinity levels under field conditions.
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- 2024
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14. Relationship Between Mindfulness and Affiliate Stigma in Parents of Children with Autism Spectrum Disorder in China: The Mediating Role of Coping Styles
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Ya-Nan Wang, Qi-Heng Lin, Dan Meng, Jing Wang, Hai-Ping Xu, Wan-Hong Wei, and Jin-Yan Zhang
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autism spectrum disorder ,mindfulness ,parents ,Nursing ,RT1-120 - Abstract
Purpose: This study aims to investigate the current status of affiliate stigma among parents of autistic children, analyze the influencing factors, explore the relationship among mindfulness, coping styles, and affiliate stigma, and verify the mediating role of coping styles between mindfulness and affiliate stigma in parents of children with autism in China. Method: Between February and April 2023, the Child Development Behaviour Centre of a public hospital in China recruited 345 parents of children with autism. These parents completed the general information questionnaire, the Mindful Attention Awareness Scale, the Affiliate Stigma Scale, and the Simple Coping Style Questionnaire. We then adapted the Hayes Process Macro and Bootstrap methods to examine the mediating effects of coping styles between mindfulness and affiliate stigma. Results: (1) The total affiliate stigma score of parents of children with autism was 48.53 (standard deviation:: 10.74). Parents' age, monthly family income, duration of care, mindfulness, and coping styles were the influencing factors of parental affiliate stigma. (2) Mindfulness was positively correlated with positive coping style (r = 0.33, p
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- 2024
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15. Thiourea improves yield and quality traits of Brassica napus L. by upregulating the antioxidant defense system under high temperature stress
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Muhammad Ahmad, Ejaz Ahmad Waraich, Usman Zulfiqar, Jean Wan Hong Yong, Muhammad Ishfaq, Kaleem ul din, Aman Ullah, Adeel Abbas, Masood Iqbal Awan, Ihab Mohamed Moussa, and Mohamed S. Elshikh
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Antioxidants ,Canola genotypes ,Electrolyte leakage ,Fatty acid profile ,Hydrogen peroxide ,Lipid peroxidation ,Medicine ,Science - Abstract
Abstract High temperature stress influences plant growth, seed yield, and fatty acid contents by causing oxidative damage. This study investigated the potential of thiourea (TU) to mitigate oxidative stress and restoring seed oil content and quality in canola. The study thoroughly examined three main factors: (i) growth conditions—control and high temperature stress (35 °C); (ii) TU supplementation (1000 mg/L)—including variations like having no TU, water application at the seedling stage, TU application at seedling stage (BBCH Scale-39), water spray at anthesis stage, and TU application at anthesis stage (BBCH Scale-60); (iii) and two canola genotypes, 45S42 and Hiola-401, were studied separately. High temperature stress reduced growth and tissue water content, as plant height and relative water contents were decreased by 26 and 36% in 45S42 and 27 and 42% Hiola-401, respectively, resulting in a substantial decrease in seed yield per plant by 36 and 38% in 45S42 and Hiola-401. Seed oil content and quality parameters were also negatively affected by high temperature stress as seed oil content was reduced by 32 and 35% in 45S42 and Hiola-401. High-temperature stress increased the plant stress indicators like malondialdehyde, H2O2 content, and electrolyte leakage; these indicators were increased in both canola genotypes as compared to control. Interestingly, TU supplementation restored plant performance, enhancing height, relative water content, foliar chlorophyll (SPAD value), and seed yield per plant by 21, 15, 30, and 28% in 45S42; 19, 13, 26, and 21% in Hiola-401, respectively, under high temperature stress as compared to control. In addition, seed quality, seed oil content, linoleic acid, and linolenic acid were improved by 16, 14, and 22% in 45S42, and 16, 11, and 23% in Hiola-401, as compared to control. The most significant improvements in canola seed yield per plant were observed when TU was applied at the anthesis stage. Additionally, the research highlighted that canola genotype 45S42 responded better to TU applications and exhibited greater resilience against high temperature stress compared to genotype Hiola-401. This interesting study revealed that TU supplementation, particularly at the anthesis stage, improved high temperature stress tolerance, seed oil content, and fatty acid profile in two canola genotypes.
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- 2024
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16. Intersecting planetary health: Exploring the impacts of environmental stressors on wildlife and human health
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Fu Chen, Feifei Jiang, Jing Ma, Mohammed A. Alghamdi, Yanfeng Zhu, and Jean Wan Hong Yong
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Planetary Health ,Environmental Stressors ,Wildlife Health ,Zoonoses ,Endocrine Disruption ,Biodiversity Conservation ,Environmental pollution ,TD172-193.5 ,Environmental sciences ,GE1-350 - Abstract
This comprehensive review articulates critical insights into the nexus of environmental stressors and their health impacts across diverse species, underscoring significant findings that reveal profound effects on both wildlife and human health systems. Central to our examination is the role of pollutants, climate variables, and pathogens in contributing to complex disease dynamics and physiological disruptions, with particular emphasis on immune and endocrine functions. This research brings to light emerging evidence on the severe implications of environmental pressures on a variety of taxa, including predatory mammals, raptorial birds, seabirds, fish, and humans, which are pivotal as indicators of broader ecosystem health and stability. We delve into the nuanced interplay between environmental degradation and zoonotic diseases, highlighting novel intersections that pose significant risks to biodiversity and human populations. The review critically evaluates current methodologies and advances in understanding the morphological, histopathological, and biochemical responses of these organisms to environmental stressors. We discuss the implications of our findings for conservation strategies, advocating for a more integrated approach that incorporates the dynamics of zoonoses and pollution control. This synthesis not only contributes to the academic discourse but also aims to influence policy by aligning with the Global Goals for Sustainable Development. It underscores the urgent need for sustainable interactions between humans and their environments, which are critical for preserving biodiversity and ensuring global health security. By presenting a detailed analysis of the interdependencies between environmental stressors and biological health, this review highlights significant gaps in current research and provides a foundation for future studies aimed at mitigating these pressing issues. Our study is significant as it proposes integrative and actionable strategies to address the challenges at the intersection of environmental change and public health, marking a crucial step forward in planetary health science.
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- 2024
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17. Phytoremediation efficiency of poplar hybrid varieties with diverse genetic backgrounds in soil contaminated by multiple toxic metals (Cd, Hg, Pb, and As)
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Mengge Li, Qimeng Heng, Chaobo Hu, Zhiyong Wang, Yawei Jiang, Xintong Wang, Xuelian He, Jean Wan Hong Yong, Turki M. Dawoud, Siddiq Ur Rahman, Junfeng Fan, and Yi Zhang
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Populus ,Hybrid variety ,Phytoremediation ,Inter-specific hybrid ,Intra-specific hybrid ,Environmental pollution ,TD172-193.5 ,Environmental sciences ,GE1-350 - Abstract
Fifteen poplar varieties were used in a field trial to investigate the phytoremediation efficiency, stress resistance, and wood property of poplar hybrid varieties with diverse genetic backgrounds under the composite pollution of heavy metals. The coefficient of variation and clone repeatability for growth traits and Cd concentration were large. The Cd accumulation of poplar varieties 107 and QHQ reached 1.9 and 1.7 mg, respectively, followed by QHB, Ti, 69, and Pa, in which Cd accumulation reached 1.3 mg. Most of the intra-specific hybrid varieties (69, QH1, SL4, T3, and ZL46) had low Cd concentrations and small biomass, resulting in weak Cd accumulation and low phytoremediation efficiency for Cd-polluted soil. By contrast, the inter-sectional and inter-specific hybrid varieties exhibited better growth performance and accumulated higher concentrations of heavy metals than the intra-specific hybrids. The bioconcentration factor and translocation factor of Hg, As, and Pb were less than 1, indicating that poplars have low phytoremediation efficiency for these heavy metals. The hybrids between section Aigeiros and Tacamahaca (QHQ and QHB) and the inter-specific hybrid 107 within section Aigeiros were more resistant to composite heavy metal stress than the other poplar varieties were partially because of their high levels of free proline that exceeded 93 μg·g−1 FW. According to the correlation analysis of the concentrations of the different heavy metals, the poplar roots absorbed different heavy metals in a cooperative manner, indicating that elite poplar varieties with superior capacity for accumulating diverse heavy metals can be bred feasibly. Compared with the intra-specific hybrid varieties, the inter-sectional (QHQ and QHB) and inter-specific (107) hybrid varieties had higher pollution remediation efficiency, larger biomass, higher cellulose content, and lower lignin content, which is beneficial for pulpwood. Therefore, breeding and extending inter-sectional (QHQ and QHB) and inter-specific hybrid varieties can improve the phytoremediation of composite pollution.
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- 2024
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18. Melatonin priming could modulate primary and secondary metabolism of sunflower with better nutraceutical value and tolerance against water deficit environment
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Saqib Mahmood, Beenish Afzal, Rohina Bashir, Muhammad Bilal Shakoor, Zaib Un Nisa, Muhammad Rizwan, Muhammad Awais, Muhammad Azeem, Abdul Wahid, and Jean Wan Hong Yong
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Melatonin priming ,Water stress ,Antioxidants ,Phenolic ,Fatty-acids ,Oil profile ,Plant ecology ,QK900-989 - Abstract
Water deficit severely limits plant growth especially in arid and semi-arid regions. Sunflower is one of the economically important oil producing crops. It is usually grown in water limited environment due to its moderate biological tolerance towards water stress. Interestingly,sunflower growth was improved in water deficit conditions using a plant growth promoter i.e. melatonin. Seeds were primed for 12 hours with melatonin (0, 50, 75, 100 µM) and these plants were later exposed to water limited environment (100 and 50 %). Results showed that reduced water conditions negatively affected various parameters such as leaf area, plant height, leaf number, achene weight/plant, capitulum weight, leaf total soluble sugars, catalase activity, anthocyanin, quercetin, gallic acid, vanillic acid, chlorogenic acid and cinnamic acid. The seed oil content also showed reduction of unsaturated to saturated fatty acid ratio. Specifically, almost all levels of melatonin applications improved growth (leaf area, leaf fresh and dry weight, plant height), yield (achene weight/plant, number of achenes/capitulum) and leaf metabolites (total soluble proteins, total soluble sugars, proline, total phenolics, anthocyanins, quercetin, gallic acid, vanillic acid, benzoic acid, syringic acid, sinapic acid) of stressed plants. The primed sunflowers exhibited enhanced leaf catalase activity, metabolizable energy and tissue nutritive value. The following phenolic profiles were observed: caffeic acid 100, syringic acid 100, p-coumaric 100, m-coumaric 9.8 and ferulic acid 100 % increased under 100 % water irrigations. Whereas, quercetin (4.7), gallic acid (76.2), vanillic acid (34.0), benzoic acid (334.5), cinnamic (0.6), sinapic acid (22.5) exhibited proportional % reduction. The unsaturation to saturation ratio of fatty acids was also better in the melatonin (100 µM) primed plants. Unprimed plants gave 47.0, while the primed plant exhibited 58.1 unsaturated to saturated fatty acids ratio. Moving forward, the application of 100 µM melatonin delivered better antioxidant protection and nutraceutical value of sunflower plants under water deficit along with enhanced yield.
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- 2024
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19. Microwave seed priming and ascorbic acid assisted phytoextraction of heavy metals from surgical industry effluents through spinach
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Muhammad Abubakar, Suliman Mohammed Suliman Alghanem, Haifa Abdulaziz Sakit Alhaithloul, Ibtisam Mohammed Alsudays, Mujahid Farid, Muhammad Zubair, Sheharyaar Farid, Muhammad Rizwan, Jean Wan Hong Yong, and Amany H.A. Abeed
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Heavy metals ,Accumulation ,Phyto-treatment ,Antioxidant enzymes ,Photosynthetic pigments ,Reactive oxygen species ,Environmental pollution ,TD172-193.5 ,Environmental sciences ,GE1-350 - Abstract
The prevalence of inorganic pollutants in the environment, including heavy metals (HMs), necessitates a sustainable and cost-effective solution to mitigate their impacts on the environment and living organisms. The present research aimed to assess the phytoextraction capability of spinach (Spinach oleracea L.), under the combined effects of ascorbic acid (AA) and microwave (MW) irradiation amendments, cultivated using surgical processing wastewater. In a preliminary study, spinach seeds were exposed to MW radiations at 2.45 GHz for different durations (15, 30, 45, 60, and 90 seconds). Maximum germination was observed after the 30 seconds of radiation exposure. Healthy spinach seeds treated with MW radiations for 30 s were cultivated in the sand for two weeks, after which juvenile plants were transferred to a hydroponic system. Surgical industry wastewater in different concentrations (25 %, 50 %, 75 %, 100 %) and AA (10 mM) were provided to both MW-treated and untreated plants. The results revealed that MW-treatment significantly enhanced the plant growth, biomass, antioxidant enzyme activities and photosynthetic pigments, while untreated plants exhibited increased reactive oxygen species (ROS) and electrolyte leakage (EL) compared with their controls. The addition of AA to both MW-treated and untreated plants improved their antioxidative defense capacity under HMs-induced stress. MW-treated spinach plants, under AA application, demonstrated relatively higher concentrations and accumulation of HMs including lead (Pb), cadmium (Cd) and nickel (Ni). Specifically, MW-treated plants with AA amendment showed a significant increase in Pb concentration by 188 % in leaves, Cd by 98 %, and Ni by 102 % in roots. Additionally, the accumulation of Ni increased by 174 % in leaves, Cd by 168 % in roots, and Pb by 185 % in the stem of spinach plant tissues compared to MW-untreated plants. These findings suggested that combining AA with MW irradiation of seeds could be a beneficial strategy for increasing the phytoextraction of HMs from wastewater and improving overall plant health undergoing HMs stress.
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- 2024
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20. Evaluating the phytotoxicological effects of bulk and nano forms of zinc oxide on cellular respiration-related indices and differential gene expression in Hordeum vulgare L.
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Kirill Azarin, Alexander Usatov, Tatiana Minkina, Nadezhda Duplii, Aleksei Fedorenko, Andrey Plotnikov, Saglara Mandzhieva, Rahul Kumar, Jean Wan Hong Yong, Shafaque Sehar, and Vishnu D. Rajput
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Barley ,Mitochondria ,Nanoparticles ,Oxidative phosphorylation ,ROS ,Ultrastructure ,Environmental pollution ,TD172-193.5 ,Environmental sciences ,GE1-350 - Abstract
The increasing use of nanoparticles is driving the growth of research on their effects on living organisms. However, studies on the effects of nanoparticles on cellular respiration are still limited. The remodeling of cellular-respiration-related indices in plants induced by zinc oxide nanoparticles (nnZnO) and its bulk form (blZnO) was investigated for the first time. For this purpose, barley (Hordeum vulgare L.) seedlings were grown hydroponically for one week with the addition of test compounds at concentrations of 0, 0.3, 2, and 10 mg mL−1. The results showed that a low concentration (0.3 mg mL−1) of blZnO did not cause significant changes in the respiration efficiency, ATP content, and total reactive oxygen species (ROS) content in leaf tissues. Moreover, a dose of 0.3 mg mL−1 nnZnO increased respiration efficiency in both leaves (17 %) and roots (38 %). Under the influence of blZnO and nnZnO at medium (2 mg mL−1) and high (10 mg mL−1) concentrations, a dose-dependent decrease in respiration efficiency from 28 % to 87 % was observed. Moreover, the negative effect was greater under the influence of nnZnO. The gene transcription of the subunits of the mitochondria electron transport chain (ETC) changed mainly only under the influence of nnZnO in high concentration. Expression of the ATPase subunit gene, atp1, increased slightly (by 36 %) in leaf tissue under the influence of medium and high concentrations of test compounds, whereas in the root tissues, the atp1 mRNA level decreased significantly (1.6–2.9 times) in all treatments. A dramatic decrease (1.5–2.4 times) in ATP content was also detected in the roots. Against the background of overexpression of the AOX1d1 gene, an isoform of alternative oxidase (AOX), the total ROS content in leaves decreased (with the exception of 10 mg mL−1 nnZnO). However, in the roots, where the pressure of the stress factor is higher, there was a significant increase in ROS levels, with a maximum six-fold increase under 10 mg mL−1 nnZnO. A significant decrease in transcript levels of the pentose phosphate pathway and glycolytic enzymes was also shown in the root tissues compared to leaves. Thus, the disruption of oxidative phosphorylation leads to a decrease in ATP synthesis and an increase in ROS production; concomitantly reducing the efficiency of cellular respiration.
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- 2024
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21. Dose-dependent regulation of morphological, physio-biochemical, nutritional, and metabolic responses by cobalt in Tagestes erecta L. plants exposed to salinity stress
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Nadiyah M. Alabdallah, Khansa Saleem, Aisha Saud Al-Shammari, Saleha S. AlZahrani, Hafiz Hassan Javed, Ali Raza, Muhammad Ahsan Asghar, and Jean Wan Hong Yong
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Salinity ,Methyglyoxal ,Marigold ,Cobalt application ,MG-detoxification ,ROS-scavenging ,Plant ecology ,QK900-989 - Abstract
Salinity is a major concern globally and causing reduction in crop growth and development thereby lowering food production. Interestingly, cobalt (Co), a multifunctional non-essential micro-element, has an important role in improving growth and development under salinity stress. In the current study, the effects of Co on the morphological, biochemical, nutritional, and metabolic changes of African marigold plants at two salinity levels were assessed. Two concentrations of Co (C1; 10 mg/L and C2; 20 mg/L) were applied as foliar application to the marigold plants under salinity (S1; 300 mM and S2; 600 mM) stress. The results indicated that salinity substantially reduced the growth by negatively affecting the nutritional and metabolic profile. Interestingly, the C1 application mitigated the salinity effects and improved all the studied parameters including vegetative, nutritional, biochemical and metabolites (amino acids, fatty acids, organic acids, sugars, carotenoids, flavonoids, and terpenoids) by reducing the reactive oxygen species (ROS) and methylglyoxal (MG)-induced oxidative stress, at two salinity levels. The overall results revealed that C1was an ideal dose for marigold plants undergoing salinity stress since C2 application showed some toxicity symptoms under both the salinity levels; with reduced growth and impaired development. Based on the observations, the two different oxidative stress scavenging pathways in marigold are discussed i.e. ROS-scavenging by ascorbate-glutathione (AsA-GSH) cycle and the MG-detoxification by glyoxalase. With the limitations imposed upon the glutathione (GSH) pool size and redox homeostasis, the study indicated that GSH played a critical role in both ROS- and MG-detoxification in marigold plants at both salinity levels.
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- 2024
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22. Assessment of rice genotypes through the lens of morpho-physiological and biochemical traits in response to arsenic stress
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Sanaullah Jalil, Muhammad Mudassir Nazir, Mohamed A. Eweda, Faisal Zulfiqar, Hayssam M. Ali, Jean Wan Hong Yong, and Xiaoli Jin
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Antioxidants ,Arsenic ,Catalase ,Malondialdehyde ,Rice ,ROS ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Rice is a globally important food crop which is sensitive to the presence of a metalloid, arsenic (As). There is limited research pertaining to identifying relevant As-tolerant rice germplasm in adaptive breeding research initiatives, despite the fact that As contamination in rice has long been known. This study served to identify the growth performance of different rice genotypes under high levels of As. Rice seed germination analysis (germination percentage, GP) was performed to categorize the eight different rice genotypes and growing under varying As levels including As25, 25 μM and As50, 50 μM. The Zhenong 41 was identified as the highly tolerant genotypes with lowest decrease in GP by 87 %, plant height (PH) by 26 %, and dry weight (DW) by 16 %; while 9311 was observed to be the most sensitive genotype with highest reduction in GP by 44 %, PH by 48 % and DW by 54 % under As25 stress conditions, compared to control treatment. The higher As50 stress treatment delivered more adverse growth inhibitory effects than the rice plants cultivated under As25. Specifically, the As-sensitive rice genotype 9311 showed significantly higher decrease in foliar chlorophyll contents relative to the other genotypes, especially Zhenong 41 (As-tolerant). During exposure to high As levels, the rice genotype 9311 significantly modulated and augmented the production of MDA and H2O2 by stimulating the activities of POD, SOD, and CAT. This study revealed interesting insights into the responses of rice genotypes to variable As stresses throughout the various growth stages. Overall, the findings of this study could be harnessed to support any ongoing As-tolerant rice breeding agendas for cultivation in As-polluted environments.
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- 2024
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23. Phyto-treatment of tannery industry effluents under combined application of citric acid and chromium-reducing bacterial strain through Lemna minor L.: A lab scale study
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Rahat Arshad, Arwa Abdulkreem AL-Huqail, Suliman Mohammed Suliman Alghanem, Ibtisam Mohammed Alsudays, Mujahid Farid, Wajiha Sarfraz, Mohsin Abbas, Zaki ul Zaman Asam, Noreen Khalid, Jean Wan Hong Yong, and Amany H.A. Abeed
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Chromium toxicity ,Lemna minor ,Remediator ,Staphylococcus aureus strain K1 ,Tannery effluents ,Citric acid ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Contamination of agricultural soils with heavy metals (HMs) poses a significant environmental threat, especially because industrial discharges often irrigate agricultural lands. A prominent source of HM(s) pollution occurs from tannery effluents containing high concentrations of chromium (Cr) in both Cr3+ and Cr6+ forms along with other toxic materials. Cr is known for its carcinogenic and mutagenic properties in biological systems. Microbe-assisted phytoremediation has emerged as a promising and environmentally friendly approach for detoxifying Cr-contaminated environments. This study aimed to evaluate the performance of citric acid (CA) and a Cr-reducing bacterial strain (Staphylococcus aureus) on the phytoextraction potential of Lemna minor within a Constructed Wetland System treated with tannery wastewater. Various combinations of tannery wastewater (0, 50, and 100 %), CA (0, 5 and 10 mM), and microbial inoculants were applied to the test plants. The mitigative effects of Staphylococcus aureus strain K1 were examined in combination with different concentrations of CA (0, 5, 10 mM). Data on growth and yield attributes highlighted the beneficial effects of bacterial inoculation and CA in ameliorating Cr toxicity in L. minor, as evidenced by increased foliar chlorophyll and carotenoid contents, enhanced antioxidant enzyme activities (SOD, POD, APX, CAT), and improved nutrient uptake. Specifically, CA application resulted in an enhancement of Cr ranging from 12% to 15% and 23%–31% in concentration, and 134%–141% and 322%–337% in Cr accumulation, respectively. When combined with the S. aureus inoculation treatment, CA application (5 and 10 mM) further increased the concentration and accumulation of Cr in L. minor. The enhancement in Cr ranged from 12% to 23% and 27%–41% in concentration, 68%–75%, and 179%–185% in accumulation, respectively. These results demonstrated that L. minor is an effective choice for environmentally friendly Cr remediation due to its continued ability to grow in polluted wastewater. This study suggested that microbial-assisted phytoextraction combined with chelating agents such as CA could be a practical and effective approach for remediating tannery effluents.
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- 2024
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24. Molecular characterization of fad6 gene and its transcriptional changes in response to different initial diets and nutritional status in yellow catfish (Pelteobagrus fulvidraco)
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Bo Zhou, Xiu-Ying Wei, Zheng-Yong Wen, Bin Wang, Yu-Ying Zhao, Wan-Hong Zeng, Yu He, Panita Prathomya, Yun-Yun Lv, Yan-Ping Li, Jun Wang, Rui Li, Xu-Guang Li, Jun Zhou, Shi-Yong Zhang, Jun-De Fan, and Qiong Shi
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yellow catfish ,fad6 ,HUFA biosynthesis ,gene expression ,nutritional regulation ,Science ,General. Including nature conservation, geographical distribution ,QH1-199.5 - Abstract
Fatty acid desaturases (FADs) are rate-limiting enzymes for the biosynthesis of highly unsaturated fatty acids (HUFAs). As a new member of the FAD family, Fad6 and its roles remain unclear in various teleost fishes. In this study, we identified a fad6 gene from yellow catfish (ycfad6) and determined its spatiotemporal expression patterns and responses to different initial diets and nutritional status in yellow catfish. Our results showed that the open reading frame (ORF) of ycfad6 was 1,080 bp in length, encoding a protein of 359 amino acids. Multiple protein sequences alignment proved that fad6 is highly conserved among diverse vertebrates. Meanwhile, phylogenetic analysis revealed that Southern catfish and yellow catfish were clustered into one branch, supporting evolutionary consistence between the fad6 gene and fish morphology. Moreover, comparisons of genomic synteny and gene structure revealed functional and evolutionary conservation of the fad6 gene in various teleost fishes. Tissue distribution analysis by quantitative RT-PCR demonstrated that the ycfad6 gene was extensively expressed in examined tissues, with higher transcription levels in the heart and liver. Meanwhile, ycfad6 gene was widely expressed in various developmental stages, indicating Fad6 may play important roles in HUFA biosynthesis at early developmental stages in yellow catfish. Functional experiments verified that the transcription of ycfad6 decreased significantly with the extension of feeding time (with egg yolk or Artemia nauplii) at the early developmental stages, indicating that a diet rich in HUFA can remarkably inhibit the transcription of ycfad6 in yellow catfish. In addition, ycfad6 transcription was significantly reduced after a short-term (24-h) or long-term food deprivation (1-week) and then continued to decrease during refeeding, suggesting that nutritional states can affect the transcription of ycfad6, which further regulates the metabolism of HUFAs. Anyway, these fundamental findings provide basic references for further investigating evolutionary and physiological functions of the fad6 gene in yellow catfish as well as in other teleost fishes.
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- 2024
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25. Harnessing plant extracts for eco-friendly synthesis of iron nanoparticle (Fe-NPs): Characterization and their potential applications for ameliorating environmental pollutants
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Fasih Ullah Haider, Usman Zulfiqar, Noor ul Ain, Saddam Hussain, Muhammad Faisal Maqsood, Mukkaram Ejaz, Jean Wan Hong Yong, and Yuelin Li
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Green synthesis ,Iron-nanoparticles ,Plant extract, heavy metals, pollution, remediation ,Environmental pollution ,TD172-193.5 ,Environmental sciences ,GE1-350 - Abstract
Iron-nanoparticles (Fe-NPs) are increasingly been utilized in environmental applications due to their efficacy and strong catalytic activities. The novelty of nanoparticle science had attracted many researchers and especially for their green synthesis, which can effectively reuse biological resources during the polymerization reactions. Thus, the synthesis of Fe-NPs utilizing plant extracts could be considered as the eco-friendly, simple, rapid, energy-efficient, sustainable, and cost-effective. The green synthesis route can be recognized as a practical, valuable, and economically effective alternative for large-scale production. During the production process, some biomolecules present in the extracts undergo metal salts reduction, which can serve as both a capping and reducing mechanism, enhancing the reactivity and stability of green-synthesized Fe-NPs. The diversity of species provided a wide range of potential sources for green synthesis of Fe-NPs. With improved understanding of the specific biomolecules involved in the bioreduction and stabilization processes, it will become easier to identify and utilize new, potential plant materials for Fe-NPs synthesis. Newly synthesized Fe-NPs require different characterization techniques such as transmission electron microscope, ultraviolet-visible spectrophotometry, and X-ray absorption fine structure, etc, for the determination of size, composition, and structure. This review described and assessed the recent advancements in understanding green-synthesized Fe-NPs derived from plant-based material. Detailed information on various plant materials suitable of yielding valuable biomolecules with potential diverse applications in environmental safety. Additionally, this review examined the characterization techniques employed to analyze Fe-NPs, their stability, accumulation, mobility, and fate in the environment. Holistically, the review assessed the applications of Fe-NPs in remediating wastewaters, organic residues, and inorganic contaminants. The toxicity of Fe-NPs was also addressed; emphasizing the need to refine the synthesis of green Fe-NPs to ensure safety and environmental friendliness. Moving forward, the future challenges and opportunities associated with the green synthesis of Fe-NPs would motivate novel research about nanoparticles in new directions.
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- 2024
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26. Optimal Design of Riserless Test String for Deepwater Gas Hydrate
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Li, Shu-Zhan, Yang, Jin, Zhu, Guo-Jing, Huang, Yi, Wang, Jia-Kang, Wan, Hong-Yu, Wu, Wei, Series Editor, and Lin, Jia'en, editor
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- 2024
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27. Pharmacokinetics, Tolerability, and Safety of Doravirine and Doravirine/Lamivudine/Tenofovir Disoproxil Fumarate Fixed-Dose Combination Tablets in Adolescents Living With HIV: Week 24 Results From IMPAACT 2014
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Melvin, Ann J, Yee, Ka Lai, Gray, Kathryn P, Yedla, Mounika, Wan, Hong, Tobin, Nicole H, Teppler, Hedy, Campbell, Havilland, McCarthy, Katie, Scheckter, Rachel, Aurpibul, Linda, Ounchanum, Pradthana, Rungmaitree, Supattra, Cassim, Hassena, McFarland, Elizabeth, Flynn, Patricia, Cooper, Ellen, Krotje, Chelsea, Townley, Ellen, Moye, Jack, Best, Brookie M, and team, for the IMPAACT 2014 study
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Biomedical and Clinical Sciences ,Clinical Sciences ,Pediatric ,Clinical Trials and Supportive Activities ,Infectious Diseases ,Clinical Research ,HIV/AIDS ,6.1 Pharmaceuticals ,Evaluation of treatments and therapeutic interventions ,Good Health and Well Being ,Adult ,Humans ,Adolescent ,Child ,Lamivudine ,Anti-HIV Agents ,HIV Infections ,Tenofovir ,Anti-Retroviral Agents ,Pyridones ,HIV Seropositivity ,RNA ,Viral ,Tablets ,HIV-1 ,Emtricitabine ,doravirine ,MK-1439 ,MK-1439A ,adolescents ,IMPAACT 2014 study team ,Public Health and Health Services ,Virology ,Clinical sciences ,Epidemiology ,Public health - Abstract
BackgroundWe studied the pharmacokinetics (PK) and safety of 100-mg doravirine and doravirine/lamivudine/tenofovir disoproxil fumarate fixed-dose combination (100/300/300 mg DOR FDC) treatment in adolescents with HIV-1.MethodsAdolescents ages 12 to younger than 18 years were enrolled in 2 sequential cohorts. Cohort 1 evaluated intensive PK and short-term safety of 100-mg single-dose doravirine in adolescents ≥35 kg. Cohort 2 participants either initiated treatment with DOR FDC (antiretroviral (ARV)-naïve) or switched to DOR FDC from a previous ARV regimen (virologically suppressed). The first 10 Cohort 2 participants had intensive PK evaluations, and safety, sparse PK, and HIV RNA were assessed through week 24.ResultsFifty-five adolescents, median age 15.0 years and baseline weight 51.5 kg, were enrolled. Nine participants completed Cohort 1 PK assessments (8 of the 9 participants weighed ≥45 kg) and 45 initiated study drug in Cohort 2. The doravirine geometric mean (GM) AUC 0-∞ was 34.8 μM∙hour, and the GM C 24 was 514 nM after a single dose, with a predicted steady-state GM C 24,ss,pred of 690 nM. Cohort 2 enrolled adolescents weighing ≥45 kg. Plasma concentrations of doravirine, tenofovir, and lamivudine achieved by Cohort 2 participants were similar to those reported in adults. No drug-related serious or grade 3 or 4 adverse events occurred. Forty-two of 45 participants (93.3%; 95% CI: [81.7, 98.6]) achieved or maintained HIV-1 RNA
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- 2023
28. The association of serum anti-PLA2R antibody and glomerular PLA2R antigen staining with clinical manifestations and outcomes in membranous nephropathy
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Yang, Shi-Feng, Xie, Xin-Fang, Lu, Wan-Hong, Lan, Ping, Liu, Hui, and Jin, Li
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- 2023
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29. Long-term remission and survival in patients with relapsed or refractory multiple myeloma after treatment with LCAR-B38M CAR T cells: 5-year follow-up of the LEGEND-2 trial
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Jie Xu, Bai-Yan Wang, Shan-He Yu, Shi-Jun Chen, Shuang-Shuang Yang, Rui Liu, Li-Juan Chen, Jian Hou, Zhu Chen, Wan-Hong Zhao, Ai-Li He, Jian-Qing Mi, and Sai-Juan Chen
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LCAR-B38M ,CAR T-cell therapy ,Relapsed and refractory multiple myeloma ,Long-term follow-up ,Long-persisting CAR T cell ,Diseases of the blood and blood-forming organs ,RC633-647.5 ,Neoplasms. Tumors. Oncology. Including cancer and carcinogens ,RC254-282 - Abstract
Abstract Background The autologous anti–B-cell maturation antigen (BCMA) chimeric antigen receptor (CAR) T-cell therapy LCAR-B38M has been approved for the treatment of relapsed and refractory multiple myeloma in many countries across the world under the name ciltacabtagene autoleucel. LEGEND-2 was the first-in-human trial of LCAR-B38M and yielded deep and durable therapeutic responses. Here, we reported the outcomes in LEGEND-2 after a minimal 5-year follow-up. Methods Participants received an average dose of 0.5 × 106 cells/kg LCAR-B38M in split or single unfractionated infusions after cyclophosphamide-based lymphodepletion therapy. Investigator-assessed response, survival, safety and pharmacokinetics were evaluated. Results Seventy-four participants enrolled and had a median follow-up of 65.4 months. The 5-year progression-free survival (PFS) and overall survival (OS) rates were 21.0% and 49.1%, with progressive flattening of the survival curves over time. Patients with complete response (CR) had longer PFS and OS, with 5-year rates of 28.4% and 65.7%, respectively. Twelve patients (16.2%) remained relapse-free irrespective of baseline high-risk cytogenetic abnormality and all had normal humoral immunity reconstituted. An ongoing CR closely correlated with several prognostic baseline indices including favorable performance status, immunoglobulin G subtype, and absence of extramedullary disease, as well as a combination cyclophosphamide and fludarabine preconditioning strategy. Sixty-two (83.8%) suffered progressive disease (PD) and/or death; however, 61.1% of PD patients could well respond to subsequent therapies, among which, the proteasome inhibitor-based regimens benefited the most. Concerning the safety, hematologic and hepatic function recovery were not significantly different between non-PD and PD/Death groups. A low rate of second primary malignancy (5.4%) and no severe virus infection were observed. The patients who tested positive for COVID-19 merely presented self-limiting symptoms. In addition, a sustainable CAR T population of one case with persistent remission was delineated, which was enriched with indolently proliferative and lowly cytotoxic CD4/CD8 double-negative functional T lymphocytes. Conclusions These data, representing the longest follow-up of BCMA-redirected CAR T-cell therapy to date, demonstrate long-term remission and survival with LCAR-B38M for advanced myeloma. Trial registration LEGEND-2 was registered under the trial numbers NCT03090659, ChiCTRONH-17012285.
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- 2024
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30. Enhancing the Photocatalytic Degradation of Methylene Blue with Graphene Oxide-Encapsulated g‑C3N4/ZnO Ternary Composites
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Muhammad Hassan Shakoor, Muhammad Bilal Shakoor, Asim Jilani, Toheed Ahmed, Muhammad Rizwan, Mohsin Raza Dustgeer, Javed Iqbal, Muhammad Zahid, and Jean Wan Hong Yong
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Chemistry ,QD1-999 - Published
- 2024
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31. Peroxiredoxin 3 regulates breast cancer progression via ERK-mediated MMP-1 expression
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Pei-Jou Chua, Suet-Hui Ow, Cheng-Teng Ng, Wan-Hong Huang, Jie-Ting Low, Puay Hoon Tan, Michael W.Y. Chan, and Boon-Huat Bay
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Breast carcinoma ,Peroxiredoxin ,MMP-1, ERK signaling ,Neoplasms. Tumors. Oncology. Including cancer and carcinogens ,RC254-282 ,Cytology ,QH573-671 - Abstract
Abstract Peroxiredoxin 3 (PRDX3), a mitochondrial hydrogen peroxide scavenger, is known to be upregulated during tumorigenesis and cancer progression. In this study, we provide evidence for the first time that PRDX3 could regulate cellular signaling pathways associated with Matrix Metalloproteinase-1 (MMP-1) expression and activity in breast cancer progression. We show that shRNA-mediated gene silencing of PRDX3 inhibits cell migration and invasion in two triple-negative breast cancer cell lines. Reciprocal experiments show that PRDX3 overexpression promotes invasion and migration of the cancer cells, processes which are important in the metastatic cascade. Notably, this phenomenon may be attributed to the activation of MMP-1, which is observed to be upregulated by PRDX3 in the breast cancer cells. Moreover, immunohistochemical staining of breast cancer tissues revealed a positive correlation between PRDX3 and MMP-1 expression in both epithelial and stromal parts of the tissues. Further pathway reporter array and luciferase assay demonstrated that activation of ERK signaling is responsible for the transcriptional activation of MMP-1 in PRDX3-overexpressed cells. These findings suggest that PRDX3 could mediate cancer spread via ERK-mediated activation of MMP-1. Targeted inhibition of ERK signaling may be able to inhibit tumor metastasis in triple-negative breast cancer.
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- 2024
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32. 8.8 A 97.18% Peak-Efficiency Asymmetrically Implemented Dual-phase (AID) Converter with a full Voltage-Conversion Ratio (VCR) between 0-and-1.
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Hyo-Jin Park 0002, Joo-Mi Cho, Chan-Ho Lee, Young-Ju Oh, Hyunwoo Jeong, Jun-Hyeok Yang, Jaeseung Lee, and Sung-Wan Hong
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- 2024
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33. 8.7 A 92.7% Peak Efficiency 12V-to-60V Input to 1.2V Output Hybrid DC-DC Converter Based on a Series-Parallel-Connected Switched Capacitor.
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Hyeon-Ji Choi, Chan-Ho Lee, Young-Jun Jeon, Hyeonho Park, Jeong-Hun Kim, Young-Jin Woo, Ju-Pyo Hong, Haifeng Jin, and Sung-Wan Hong
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- 2024
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34. Iron biofortification in cereal crops: Recent progress and prospects
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Usman Zulfiqar, Aqsa Ayub, Saddam Hussain, Muhammad Ahmad, Abdul Rehman, Muhammad Ishfaq, Muhammad Fraz Ali, Muhammad Shabaan, and Jean Wan Hong Yong
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biofortification ,genetic engineering ,human health ,iron deficiency ,plant metabolism ,Agriculture ,Agriculture (General) ,S1-972 - Abstract
Abstract Micronutrient malnutrition is one of the major causes of human disorders in the developing world. Iron (Fe) is an important micronutrient due to its use in human metabolism such as immune system and energy production. Estimates indicate that above 30% of the global population is at risk of Fe deficiency, posing a particular threat to infants and pregnant women. Plants have adapted various strategies for uptake, transport, accumulation, and storage of Fe in tissues and organs which later can be consumed by humans. Biofortification refers to increase in micronutrient concentration in edible parts of plants and understanding the pathways for Fe accumulation in plants. Conventional plant breeding, transgenics, agronomic interventions, and microbe‐mediated biofortification are all potential methods to address Fe deficiency. This review article critically evaluates key aspects pertaining to Fe biofortification in cereal crops. It encompasses an in‐depth analysis of the holistic presence of Fe, its significance in both human and plant contexts, and the diverse strategies employed in Fe uptake, transport, accumulation, and storage in plant parts destined for human consumption. Additionally, the article explores the bioavailability of Fe and investigates strategies for biofortification, with a specific emphasis on both traditional methods and recent breakthroughs aimed at enhancing the Fe content in food crops. Keeping in view the significance of Fe for human life, appropriate biofortification strategies may serve better to eliminate hidden hunger rather than its artificial supplementation.
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- 2024
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35. Exploring the effects of supplementing monoterpenoids in Moringa oleifera based-diet in Oreochromis niloticus: Improving the growth performance, feed efficiency, digestibility and body composition
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Aqsa Sharif, Syed Makhdoom Hussain, Shafaqat Ali, Muhammad Rizwan, Khalid A. Al-Ghanim, and Jean Wan Hong Yong
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Moringa leaf meal ,Monoterpenoids ,Carvacrol ,Oreochromis niloticus ,Menthol ,Health status ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Monoterpenoids are interesting hydrocarbons typically found in essential oils and have a significant role in medicinal and biological purposes. The goal of this study was to investigate the effects of two monoterpenoids, carvacrol (CAR) and menthol (MEN), supplemented with Moringa oleifera leaf meal (MOLM) based diets on growth parameters, digestibility and body composition of Nile tilapia (Oreochromis niloticus). Alongside the basal diet (control-T1), nine experimental diets supplemented with categorized levels of CAR and MEN at 200, 300 and 400 mg/kg individually and their mixtures (MIX) (1:1) (CAR-T2, 200; T3, 300; T4, 400 mg/kg, MEN-T5, 200; T6, 300; T7, 400 mg/kg and MIX- (1:1) T8, 200; T9, 300; T10, 400 mg/kg) were fed to the fingerlings (6.55 ± 0.03 g) for the period of 60 days. Monoterpenoids supplementation led to significantly (p
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- 2024
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36. Assessing anticancer, antidiabetic, and antioxidant capacities in green-synthesized zinc oxide nanoparticles and solvent-based plant extracts
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Muhammad Azeem, Muhammad Hussnain Siddique, Muhammad Imran, Muhammad Zubair, Rabia Mumtaz, Madiha Younas, Mostafa A. Abdel-Maksoud, Mohamed A. El-Tayeb, Muhammad Rizwan, and Jean Wan Hong Yong
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Acacia nilotica ,Liver cancer ,HepG2 ,α-Glucosidase inhibition assay ,DPPH assay ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Cancer and diabetes represent significant challenges in the field of biomedicine, with major and global impacts on public health. Acacia nilotica, commonly called 'gum arabic tree,' is recognized for its unique biomedical properties. The current study aimed to investigate the pharmacological potential of A. nilotica-based zinc-oxide nanoparticles (ZnO-NPs) in comparison to the ethanol and methanol-based extracts against cancer, diabetes, and oxidative stress. Green synthesis of ZnO-NPs was performed using barks of Acacia nilotica. Different techniques for the characterization of ZnO-NPs, including UV–Visible spectroscopy, Scanning Electron Microscopy, Fourier Transmission Infrared (FT-IR) spectroscopy, and X-ray Diffraction (XRD), were utilized. The morphological analysis of ZnO-NPs revealed that the fine NPs have mean particle sizes of 15 ± 1.5 nm. For the solvent based-extraction, leaves and barks were utilized and dissolved into ethanol and methanol for further processing. The MTT assay revealed that the optimum concentration of ZnO-NPs to inhibit the proliferation of liver cancer cell line HepG2 was 100 μg/mL where 67.0 % inhibition was observed; and both ethanol- and methanol-based extracts showed optimum inhibition at 100 μg/mL. The DPPH assay further demonstrated that 250 μg/mL of ZnO-NPs and 1000 μg/mL of both ethanol- and methanol-based extracts, as the optimum concentration for antioxidant activity (with 73.1 %, 68.9 % and 68.2 % inhibition respectively). The α-Glucosidase inhibition assay revealed that 250 μg/mL of ZnO-NPs and 10 μg/mL of both ethanol- and methanol-based extracts as the optimum concentration for antidiabetic activity (with 95 %, 93.7 % and 93.4 % inhibition respectively). The study provided interesting insights into the efficacy and reliability of ZnO-NPs for potential pharmacological application. Further research should be focused on examining specific pathways and the safety of ZnO-NPs in comparison to solvent-based extracts.
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- 2024
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37. Effects of the medicinal plant, Tamarindus indica, as a potential supplement, on growth, nutrient digestibility, body composition and hematological indices of Cyprinus carpio fingerlings
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Mahnoor Saleem, Syed Makhdoom Hussain, Shafaqat Ali, Muhammad Rizwan, Khalid A. Al-Ghanim, and Jean Wan Hong Yong
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Fish growth ,Carcass ,Hematology ,Digestibility ,Plant Extract ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Tamarindus indica, a beneficial herb, has many health benefits but there is limited research on its use in fish nutrition industry. The current study investigated the effects of incorporating extracts of T. indica into the canola meal-based diets of Cyprinus carpio (common carp); following which, the growth, digestibility, carcass and hematological markers were assessed. A total of six diets were formulated with varying concentrations of T. indica extracts (TIE) viz, 0 %, 0.5 %, 1 %, 1.5 %, 2 % and 2.5 %. The fish (N = 270, 15 fish/tank with triplicates) in each tank were fed experimental diets for 70 days. The study demonstrated that TIE supplementation significantly improved the growth of common carp when compared to 0 % TIE level (control). The best results were observed at 1 % TIE level for the specific growth rate (1.68 ± 0.03 %), weight gain (15.00 ± 0.57 g), and feed conversion ratio (1.36 ± 0.05). Conversely, the 2.5 % TIE level gave the least improvement in terms of growth performance. Specifically for nutrient digestibility, the maximum values of crude protein (CP, 67.60 ± 0.83 %), crude fat (CF, 67.49 ± 0.45 %) and gross energy (GE, 70.90 ± 0.56 %) were recorded at 1 % TIE level. In addition, the best results of body composition (protein: 63.92 ± 0.06 %, ash: 18.60 ± 0.03 %, fat: 7.12 ± 0.02 % and moisture: 10.36 ± 0.04 %) and hematological indices, were measured in carps fed with 1 % supplementation level. In conclusion, the overall health of C. carpio fingerlings was improved with TIE supplementation in the diet containing 1 % TIE.
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- 2024
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38. A 92 ns Settling-Time Fast-Transient Capacitor-Less LDO With a Stable Class B Bandwidth-Boosting Error Amplifier and an Improved Buffer for Mobile Applications.
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Chan-Kyu Lee, Chan-Ho Lee, Young-Jun Jeon, Young-Ju Oh, Byunghun Lee, and Sung-Wan Hong
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- 2024
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39. A Simultaneous Energy Transferring SIBO Converter Achieving Low Ripple and High Efficiency for AMOLED Applications.
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Hyo-Jin Park 0002, Joo-Mi Cho, Hyeon-Ji Choi, Chan-Ho Lee, Young-Jun Jeon, Jeeyoung Shin, Woong Choi, Junwon Jeong, and Sung-Wan Hong
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- 2024
- Full Text
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40. Application of effluent reduction methods and treatment using advanced oxidation process at leather chemicals and tanning industries
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Azhar Ali, Irfan Ahmed Shaikh, Sajid Rashid Ahmad, Muhammad Bilal Shakoor, Jean Wan Hong Yong, Muhammad Rizwan, and Faiza Samina
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electrocoagulation ,Fenton process ,leather chemicals ,reuse ,water efficiency ,wastewater treatment ,Environmental sciences ,GE1-350 - Abstract
The current study set out to assess and create long-term solutions for improving environmental performance concerning water use, wastewater production, and treatment at Syntan plant (glass-lined vessel unit) and application laboratory (small-scale leather retanning. Based on evaluations and analyses, best available techniques including water gauging, pressurized vessel washing, dedication of vessels to similar production, reuse techniques, developing commercial grade intermediate products from wash water, managing cooling water and developing reuse methods of reverse osmosis reject water were applied to reduce water consumption and effluent generation in process and non-process activities. Furthermore, the reduced effluent was subjected to treat using electrochemical processes, i.e., electrocoagulation and electro-Fenton, before it was drained to outside environment. As a result of the applications, 0%–100% change was measured in various process and non-process activities, whereas, 12.8%–100% reduction was measured in effluent. Soft cooling water consumption was reduced by 46.7%. The results of treated effluent parameters were compared and found the final removal efficiencies of total dissolved solids (51.4%), total suspended solids (99.2%), chemical oxygen demand (98.5%) and electric conductivity (67.7%). It is concluded that this study can be considered as a successful model to increased water efficiency in chemical industries, Furthermore, it could serve as a building block for the incorporation of cleaner and sustainable production approach into national agenda and to overcome stern issues of high-water and energy consumption and effluent management in different industries.
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- 2024
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41. Citrullus colocynthis regulates photosynthetic and biochemical processes to develop stress resilience and sustain growth under sub-optimal temperatures
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Attiat Elnaggar, François Mitterand Tsombou, M. Iftikhar Hussain, Ahmed M. Almehdi, Zainul Abideen, Jean Wan Hong Yong, and Ali El-Keblawy
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Citrullus colocynthis ,Temperatures ,Oxidative stress markers ,Antioxidant enzymes ,Photosynthetic efficiency ,Chlorophyll fluorescence ,Plant ecology ,QK900-989 - Abstract
Sub-optimal temperatures posed significant challenges to leaf photosynthesis and plant growth. This study examined the eco-physiological adaptations of a desert vine (Citrullus colocynthis) to unfavorable temperatures (15/25 °C, 25/35 °C, and 35/45 °C) over 35 days. Plants grown in moderate temperatures increased shoot number and leaf canopy (55 %), chlorophyll a (2.5 folds), and carotenoid accumulation compared to other treatments. Conversely, high-temperature stress resulted in longer shoot development with fewer primary branches, while low temperatures constrained both shoot and leaf growth. Plants treated with high heat exposure produced more oxidative stress markers (MDA and H2O2, by two folds), causing greater cellular damage while attaining lesser growth. During the high-temperature episode, plants increased their antioxidant enzyme activities and proline (2.5-fold) levels to protect the tissues from oxidative damage. Plants treated with either moderate or higher heat stress increased the potential quantum yield of photosystem II (Fv/Fm) and maximum quantum yield ФPSII in the young leaves, which indicated the constitutive plant adaptation to unfavorable temperatures. Additionally, photosynthetic efficiency differed with leaf age and temperature; mature leaves performed better physiologically at low temperatures, whereas young leaves adapted better at high temperatures stress. The results suggested that C. colocynthis plants were highly adaptable to unfavorable temperatures by regulating the plants’ thermal homeostatic ability through their photosynthetic and biochemical processes. This study provided deeper insights into species-specific eco-physiological responses to sub-optimal temperatures and contributed to our broader understanding of plant resilience and ecological adaptability in the era of global climate change.
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- 2024
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42. A review on mechanisms and prospects of endophytic bacteria in biocontrol of plant pathogenic fungi and their plant growth-promoting activities
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Md. Arshad Ali, Temoor Ahmed, Ezzeldin Ibrahim, Muhammad Rizwan, Khim Phin Chong, and Jean Wan Hong Yong
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Bacillus ,Paenibacillus ,Pseudomonas ,Secondary metabolites ,Screening approach ,Agricultural sustainability ,Science (General) ,Q1-390 ,Social sciences (General) ,H1-99 - Abstract
Endophytic bacteria, living inside plants, are competent plant colonizers, capable of enhancing immune responses in plants and establishing a symbiotic relationship with them. Endophytic bacteria are able to control phytopathogenic fungi while exhibiting plant growth-promoting activity. Here, we discussed the mechanisms of phytopathogenic fungi control and plant growth-promoting actions discovered in some major groups of beneficial endophytic bacteria such as Bacillus, Paenibacillus, and Pseudomonas. Most of the studied strains in these genera were isolated from the rhizosphere and soils, and a more extensive study of these endophytic bacteria is needed. It is essential to understand the underlying biocontrol and plant growth-promoting mechanisms and to develop an effective screening approach for selecting potential endophytic bacteria for various applications. We have suggested a screening strategy to identify potentially useful endophytic bacteria based on mechanistic phenomena. The discovery of endophytic bacteria with useful biocontrol and plant growth-promoting characteristics is essential for developing sustainable agriculture.
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- 2024
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43. Synergistic effects of biochar and potassium co-application on growth, physiological attributes, and antioxidant defense mechanisms of wheat under water deficit conditions
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Md. Shah Newaz Chowdhury, Md. Nasir Hossain Sani, Abu Bakar Siddique, Md. Sazzad Hossain, and Jean Wan Hong Yong
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Biochar ,Foliar K ,Drought ,Growth stages ,Wheat ,Antioxidant defense ,Plant ecology ,QK900-989 - Abstract
Global wheat production faces a severe threat from drought stress, necessitating innovative strategies for enhanced crop resilience. This study examined the synergistic impact of biochar and potassium co-application on the growth, physiological attributes, and antioxidant defense system of wheat under water deficit conditions at crown root initiation (CRI), anthesis, and grain development stage. Drought-induced reactive oxygen species (ROS) accumulation, particularly pronounced at the CRI stage, adversely affected all growth stages. At CRI, co-application of biochar and foliar potassium delivered significant improvements in growth parameters, including increased plant height (15.4%), spike length (50%), grain yield (43.0%), photosynthetic performance (chlorophyll content 125.8%), and relative water content (11.2%), compared to untreated drought-exposed counterparts. The combined application of biochar and potassium effectively reduced hydrogen peroxide production, electrolyte leakage, proline accumulation, and malondialdehyde generation, while increasing relative water content and glutathione levels under both well-irrigated and drought stress conditions. Furthermore, the combined biochar and potassium treatment was effective in mitigating oxidative stress and enhancing physiological resilience in wheat, particularly during the anthesis stage of drought stress. Specifically, the combined treatment ameliorated the effects of drought by reducing ROS levels through enhanced antioxidant enzyme activities and elevating osmoprotectants levels. The synergistic modulation of tissue osmotic balance and relative water content holds promise for mitigating drought-induced stress, offering an innovative and practical strategy for resilient wheat production in water-limited environments.
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- 2024
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44. Additional block triangular preconditioners for coupled block two-by-two linear systems arising from Stokes control problems
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Liang, Zhao-Zheng, Wan, Hong-Yi, and Tian, Jun-Lin
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- 2024
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45. Phytoremediation efficiency of poplar hybrid varieties with diverse genetic backgrounds in soil contaminated by multiple toxic metals (Cd, Hg, Pb, and As)
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Li, Mengge, Heng, Qimeng, Hu, Chaobo, Wang, Zhiyong, Jiang, Yawei, Wang, Xintong, He, Xuelian, Yong, Jean Wan Hong, Dawoud, Turki M., Rahman, Siddiq Ur, Fan, Junfeng, and Zhang, Yi
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- 2024
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46. Intersecting planetary health: Exploring the impacts of environmental stressors on wildlife and human health
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Chen, Fu, Jiang, Feifei, Ma, Jing, Alghamdi, Mohammed A., Zhu, Yanfeng, and Yong, Jean Wan Hong
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- 2024
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47. Melatonin priming could modulate primary and secondary metabolism of sunflower with better nutraceutical value and tolerance against water deficit environment
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Mahmood, Saqib, Afzal, Beenish, Bashir, Rohina, Shakoor, Muhammad Bilal, Nisa, Zaib Un, Rizwan, Muhammad, Awais, Muhammad, Azeem, Muhammad, Wahid, Abdul, and Yong, Jean Wan Hong
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- 2024
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48. Microwave seed priming and ascorbic acid assisted phytoextraction of heavy metals from surgical industry effluents through spinach
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Abubakar, Muhammad, Alghanem, Suliman Mohammed Suliman, Alhaithloul, Haifa Abdulaziz Sakit, Alsudays, Ibtisam Mohammed, Farid, Mujahid, Zubair, Muhammad, Farid, Sheharyaar, Rizwan, Muhammad, Yong, Jean Wan Hong, and Abeed, Amany H.A.
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- 2024
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49. Evaluating the phytotoxicological effects of bulk and nano forms of zinc oxide on cellular respiration-related indices and differential gene expression in Hordeum vulgare L.
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Azarin, Kirill, Usatov, Alexander, Minkina, Tatiana, Duplii, Nadezhda, Fedorenko, Aleksei, Plotnikov, Andrey, Mandzhieva, Saglara, Kumar, Rahul, Yong, Jean Wan Hong, Sehar, Shafaque, and Rajput, Vishnu D.
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- 2024
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50. Dose-dependent regulation of morphological, physio-biochemical, nutritional, and metabolic responses by cobalt in Tagestes erecta L. plants exposed to salinity stress
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Alabdallah, Nadiyah M., Saleem, Khansa, Al-Shammari, Aisha Saud, AlZahrani, Saleha S., Javed, Hafiz Hassan, Raza, Ali, Asghar, Muhammad Ahsan, and Yong, Jean Wan Hong
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- 2024
- Full Text
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