Jingdu Li scite author profile

Jingdu Li

5Publications

10Citation Statements Received

131Citation Statements Given

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193

129

Affiliations

Huazhong Agricultural University, Northeast Agricultural University, Northeast Forestry University

Publications

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Arabidopsis LSH8 Positively Regulates ABA Signaling by Changing the Expression Pattern of ABA-Responsive Proteins

Zou

Tang

et al. 2021

IJMS

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Phytohormone ABA regulates the expression of numerous genes to significantly affect seed dormancy, seed germination and early seedling responses to biotic and abiotic stresses. However, the function of many ABA-responsive genes remains largely unknown. In order to improve the ABA-related signaling network, we conducted a large-scale ABA phenotype screening. LSH, an important transcription factor family, extensively participates in seedling development and floral organogenesis in plants, but whether its family genes are involved in the ABA signaling pathway has not been reported. Here we describe a new function of the transcription factor LSH8 in an ABA signaling pathway. In this study, we found that LSH8 was localized in the nucleus, and the expression level of LSH8 was significantly induced by exogenous ABA at the transcription level and protein level. Meanwhile, seed germination and root length measurements revealed that lsh8 mutant lines were ABA insensitive, whereas LSH8 overexpression lines showed an ABA-hypersensitive phenotype. With further TMT labeling quantitative proteomic analysis, we found that under ABA treatment, ABA-responsive proteins (ARPs) in the lsh8 mutant presented different changing patterns with those in wild-type Col4. Additionally, the number of ARPs contained in the lsh8 mutant was 397, six times the number in wild-type Col4. In addition, qPCR analysis found that under ABA treatment, LSH8 positively mediated the expression of downstream ABA-related genes of ABI3, ABI5, RD29B and RAB18. These results indicate that in Arabidopsis, LSH8 is a novel ABA regulator that could specifically change the expression pattern of APRs to positively mediate ABA responses.

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Decoding biomass recalcitrance: Dispersion of ionic liquid in aqueous solution and efficient extraction of lignans with microwave magnetic field

Xia

Zhang

et al. 2020

PLoS ONE

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Alkaline ionic liquid aqueous solutions were used to extract biphenyl cyclooctene lignans derivatives, and hydrolyze to the free-state biphenyl cyclooctene lignans simultaneously from Schisandra chinensis by microwave-assisted heating. The hydrogen bonds formatted between ionic liquid and water molecular attacks the amorphous region of cellulose. Selective heating by microwave produce the more polar regions, which results in swelling and fragmentation of raw materials near the hot spots. Therefore, ionic liquid-microwave-assisted extraction method of free-state biphenyl cyclooctene lignans was set up. The solid residue after treatment was characterized by infrared spectroscopy and scanning electron microscopy, which showed that cellulose, hemicellulose, and lignin were removed partially. The water content of ionic liquid solution affected its viscosity and diffusivity, and in turns the extraction efficiency of lignans. The IL solutions with different mole fractions of IL were detected by FTIR and Raman spectroscopy, the result shows that IL solutions with higher water contents (>0.6) won't form clusters. The optimum hydrolysis conditions were 0.2 g of ionic liquid catalyst per 5.0 g of S. chinensis fruits, a microwave irradiation power of 600 W, and heating time of 12 min, which gave a yield of free-state biphenyl cyclooctene lignans of 4.12±0.37 mg g −1. Besides, a hydrolysis mechanism of ester-bond biphenyl cyclooctene lignans and decreasing "biomass recalcitrance effect" by ionic liquid microwave-assisted method was proposed.

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Taurine Alleviates Heat Stress-Induced Mammary Inflammation and Impairment of Mammary Epithelial Integrity Via the Erk1/2-Mlck Signaling Pathway

Li¹,

Chen²,

Zhang³

et al. 2022

SSRN Journal

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Comparative proteomics combined with morphophysiological analysis revealed low temperature response mechanism in two contrasting maize genotypes

Zou

Yang

et al. 2022

Preprint

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Environmental conditions affect the growth and development of maize, and low temperature has been widely concerned as one of the most important factors. In the temperate zone, maize is found to be under chilling stress in its growth and development, especially at the seedling stage. Correspondingly, maize generates various measures to alleviate such stress, and its regulation of protein expression is one of the most effective. However, further research on the regulation mold has not yet been carried out. To gain a better understanding of the regulation mold, we used two inbred lines with different resistance, which are chilling tolerant KR701 and chilling sensitive hei8834, to undergo quantitative proteomics analysis under chilling stress at the one- and three-leaf stages, respectively. The results revealed diversified cold-resistant pathways of maize with different resistance at different stages of seedling, and the reasons behind. Meanwhile, we found that ABA in hormone response pathway plays an important role in improving the cold resistance of maize at one-leaf stage, which lays a solid foundation for further explorations of the cold-resistant mechanism in maize at the seedling stage, and enlightens strategic improvements of the cold resistance in world crops.

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Taurine alleviates heat stress-induced mammary inflammation and impairment of mammary epithelial integrity via the ERK1/2-MLCK signaling pathway

Han

Chen²,

Zhang

et al. 2023

Journal of Thermal Biology

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Jingdu Li

Arabidopsis LSH8 Positively Regulates ABA Signaling by Changing the Expression Pattern of ABA-Responsive Proteins

Decoding biomass recalcitrance: Dispersion of ionic liquid in aqueous solution and efficient extraction of lignans with microwave magnetic field

Taurine Alleviates Heat Stress-Induced Mammary Inflammation and Impairment of Mammary Epithelial Integrity Via the Erk1/2-Mlck Signaling Pathway

Comparative proteomics combined with morphophysiological analysis revealed low temperature response mechanism in two contrasting maize genotypes

Taurine alleviates heat stress-induced mammary inflammation and impairment of mammary epithelial integrity via the ERK1/2-MLCK signaling pathway

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