Your search keyword '"Guo, Yadi"' showing total 4 results

1. Integrated analyses of ionomics, phytohormone profiles, transcriptomics, and metabolomics reveal a pivotal role of carbon-nano sol in promoting the growth of tobacco plants.

Author

Wang, Chen, Hua, Yingpeng, Liang, Taibo, Guo, Yadi, Wang, Lin, Zheng, Xueao, Liu, Pingping, Zheng, Qingxia, Kang, Zhengzhong, Xu, Yalong, Cao, Peijian, and Chen, Qiansi

Subjects

TRANSCRIPTOMES, PHYSIOLOGY, PLANT growth, GROWTH regulators, ROOT growth, METABOLOMIC fingerprinting, METABOLOMICS, TOBACCO

Abstract

Background: Carbon nano sol (CNS) can markedly affect the plant growth and development. However, few systematic analyses have been conducted on the underlying regulatory mechanisms in plants, including tobacco (Nicotiana tabacum L.). Results: Integrated analyses of phenome, ionome, transcriptome, and metabolome were performed in this study to elucidate the physiological and molecular mechanisms underlying the CNS-promoting growth of tobacco plants. We found that 0.3% CNS, facilitating the shoot and root growth of tobacco plants, significantly increased shoot potassium concentrations. Antioxidant, metabolite, and phytohormone profiles showed that 0.3% CNS obviously reduced reactive oxygen species production and increased antioxidant enzyme activity and auxin accumulation. Comparative transcriptomics revealed that the GO and KEGG terms involving responses to oxidative stress, DNA binding, and photosynthesis were highly enriched in response to exogenous CNS application. Differential expression profiling showed that NtNPF7.3/NtNRT1.5, potentially involved in potassium/auxin transport, was significantly upregulated under the 0.3% CNS treatment. High-resolution metabolic fingerprints showed that 141 and 163 metabolites, some of which were proposed as growth regulators, were differentially accumulated in the roots and shoots under the 0.3% CNS treatment, respectively. Conclusions: Taken together, this study revealed the physiological and molecular mechanism underlying CNS-mediated growth promotion in tobacco plants, and these findings provide potential support for improving plant growth through the use of CNS. [ABSTRACT FROM AUTHOR]

Published

2024

2. Associations of essential metals with the risk of aortic arch calcification: a cross‐sectional study in a mid‐aged and older population of Shenzhen, China.

Author

Mo, Mingxing, Yin, Li, Wang, Tian, Lv, Ziquan, Guo, Yadi, Shen, Jiangang, Zhang, Huanji, Liu, Ning, Wang, Qiuling, Huang, Suli, and Huang, Hui

Subjects

THORACIC aorta, COPPER, METALS, CALCIFICATION, ARTERIAL calcification

Abstract

Vascular calcification is a strong predictor of cardiovascular events. Essential metals play critical roles in maintaining human health. However, the association of essential metal levels with risk of aortic arch calcification (AoAC) remains unclear. We measured the plasma concentrations of nine essential metals in a cross‐sectional population and evaluated their individual and combined effects on AoAC risk using multiple statistical methods. We also explored the mediating role of fasting glucose. In the logistic regression model, higher quartiles of magnesium and copper were associated with the decreased AoAC risk, while higher quartile of manganese was associated with higher AoAC risk. The least absolute shrinkage and selection operator penalized regression analysis identified magnesium, manganese, calcium, cobalt, and copper as key metals associated with AoAC risk. The weighted quantile sum regression suggested a combined effect of metal mixture. A linear and positive dose–response relationship was found between manganese and AoAC in males. Moreover, blood glucose might mediate a proportion of 9.38% of the association between manganese exposure and AoAC risk. In summary, five essential metal levels were associated with AoAC and showed combined effect. Fasting glucose might play a significant role in mediating manganese exposure‐associated AoAC risk. [ABSTRACT FROM AUTHOR]

Published

2024

3. Topping Inhibited Potassium Uptake via Regulating Potassium Flux and Channel Gene Expression in Tobacco.

Author

Liang, Taibo, Dai, Huaxin, Khan, Waleed Amjad, Guo, Yadi, Meng, Xiangyu, Wang, Guiyao, and Zhang, Yanling

Subjects

GENE expression, POTASSIUM channels, TOBACCO, INDOLEACETIC acid, POTASSIUM, PLANT-soil relationships

Abstract

Potassium (K+) is mainly absorbed by plants from the soil and is primarily transported within the plant through the xylem. Topping has been reported to cause efflux and loss of K+ in plants; however, its effect on the real-time flow rate and genotypes with varying K+ accumulation ability is still unknown. Therefore, we carried out a pot experiment containing sand culture using two tobacco cultivars EY1 (high K+ accumulating) and Y87 (low K+ accumulating). The results demonstrated the change of K+ flow direction from influx to efflux in the roots of both cultivars due to topping. The percentage ratio of K+ efflux to influx was estimated to be 18.8% in EY-1 and 157.0% in Y87, respectively. We noticed a decline in indole acetic acid (IAA) content due to topping, which activated the expression of K+ efflux channel gene NTORK1 and inhibited the expression of K+ influx channel genes NKT1 and NtKC1. Furthermore, K+ loss from the roots increased due to topping, which led to decreased K+ concentration in entire tobacco plant. Topping had a more serious impact on the K+ efflux rate and K+ loss in Y87. IAA application after topping, in turn, decreased the K+ loss in both the cultivars. We conclude that topping caused a decrease in IAA concentration and K+ losses in tobacco leaves, and these losses can be mitigated by the exogenous application of IAA. [ABSTRACT FROM AUTHOR]

Published

2022

4. Pyrolysis Behavior of Titanium-Containing Polycarbosilane in Air.

Author

Yu, Yuxi, Guo, Yadi, Cheng, Xuan, and Zhang, Ying

Subjects

PYROLYSIS, ORGANOMETALLIC polymers, TITANIUM, CERAMICS, XYLENE, ANALYTICAL chemistry, X-ray diffraction, TRANSMISSION electron microscopy

Abstract

synthesis of titanium-containing polycarbosilane (Ti-PCS) and transformation to SiO/TiO hybrid ceramics are investigated. The Ti-PCS is prepared by blending polycarbosilane (PCS) and tetrabutyl titanate in xylene. The structural evolution and chemical composition change during the pyrolysis of the Ti-PCS are characterized by chemical analysis, TG-DTA, XRD, XPS and TEM. The results reveal that the polymer-to-ceramic transition of the Ti-PCS involves three steps. The final ceramics obtained at 1200 °C contain amorphous silica and rutile-TiO nanocrystallites of ~10 nm. [ABSTRACT FROM AUTHOR]

Published

2010