Kexin Ning scite author profile

Kexin Ning

4Publications

41Citation Statements Received

123Citation Statements Given

How they've been cited

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163

118

Affiliations

Peking University, Hebei Normal University, Lanzhou Institute of Chemical Physics

Publications

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AtPFA‐DSP3, an atypical dual‐specificity protein tyrosine phosphatase, affects salt stress response by modulating MPK3 and MPK6 activity

Xin

Ning

et al. 2021

Plant Cell & Environment

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Protein phosphorylation, especially serine/threonine and tyrosine phosphorylation, plays significant roles in signalling during plant growth and development as well as plant responses to biotic or abiotic stresses. Dual-specificity protein tyrosine phosphatases dephosphorylate components of these signalling pathways. Here, we report that an atypical dual-specificity protein tyrosine phosphatase, AtPFA-DSP3 (DSP3), negatively affects the response of plants to high-salt conditions. A DSP3 loss-offunction mutant showed reduced sensitivity to salt treatment. DSP3 was primarily localized in nuclei and was degraded during salt treatment. Compared to wild type, the level of ROS was lower in the dsp3 mutant and higher in plants ectopically expressing DSP3, indicating that higher DSP3 level was associated with increased ROS production. DSP3 interacted with and dephosphorylated MPK3 and MPK6.Genetic analyses of a dsp3mpk3 double mutant revealed that DSP3's effect on salt stress depends on MPK3. Moreover, the phosphatase activity of DSP3 was required for its role in salt signalling. These results indicate that DSP3 is a negative regulator of salt responses in Arabidopsis by directly modulating the accumulation of phosphorylated MPK3 and MPK6.

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Comparative study on microstructure, mechanical, and tribological property of gamma‐irradiated polytetrafluoroethylene, polyetheretherketone, and polyimide polymers

Chai

Ning

Qiao

et al. 2021

Surface & Interface Analysis

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In this paper, three commercial polymers (polytetrafluoroethylene [PTFE], polyetheretherketone [PEEK], and polyimide [PI]) were irradiated by gamma rays in the ambient air. The changes in microstructure, mechanical, and tribological properties of these three polymers after irradiation were investigated comparatively. The results display that both the surface and internal structures of PTFE are degraded due to the irradiation chemical reaction, and the molecular chain scission at the surface is more severe than that at its internal as a result of the involvement of oxygen. The oxidative degradation also plays a dominant role in the PEEK surface, but the molecular chain crosslink is dominant in the PEEK internal. The top layer of PI also shows the characteristics of oxidative irradiation degradation, but its internal exhibits excellent irradiation resistance and no structure change occurs even at irradiation doses up to 20 MGy. The microhardness and scratch resistance of irradiated surfaces for all three polymers decrease but only the scratching damage mode of PTFE changes after irradiation. Friction experiments show that the friction coefficients of PTFE increase but that of PEEK decrease after irradiation. The wear rates on the irradiated surfaces of all three polymers increase compared with the unirradiated samples. Moreover, there is a depth gradient effect on the wear properties of both irradiated PTFE and PEEK polymers. The changes in wear rates of irradiated surfaces are consistent with the structural variations of all three polymers.

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Spatiotemporal Heterogeneities in the Causal Effects of Mobility Intervention Policies during the COVID-19 Outbreak: A Spatially Interrupted Time-Series (SITS) Analysis

Zhang

Ning

2023

Annals of the American Association of Geographers

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Effect of L-Histidine on Creatine, Histidine, and 1-Methylhistidine Excretion of Normal and Vit. E-Deficient Rabbits.

Smith

Ning

1961

Experimental Biology and Medicine

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I t has been shown(l,2) that Vit. E-deficient diet caused rabbits to excrete 1-methylhistidine in large amounts. Appeuance of this amino acid in urine generally precedes that of creatine making it one of the earliest detectable symptoms of nutritional muscular dystrophy. McManus( 1) has shown a diminished concentration af muscle carnosine and anserine suggesting an abnormality in the metabolism of these dipeptides. She believes that Vit. E-deficiency results in a hydrolysis of muscle anserine to beta-alanine and 1-methylhistidine as well as a decreased synthesis of anserine.Regardless of the causative mechanism, the loss of large amounts of 1-methylhistidine might itself produce secondary effects such as a significant drain on the body's reserve of the essential amino acid histidine. Our studies describe the effect of dietary L-histidine on excretion of creatine, histidine, and 1-methylhistidine of normal and Vit. E-deficient rabbits.Methods. Twelve male rabbits, divided into 4 equal groups, were fed the following diets ud Zib.: A. Dystrophy-producing diet of Young and Dinning(3) plus 8 rng alphatocopherol acetate thrice weekly: R. Dystrophy-producing diet containing 1 % L-histidine plus 8 mg oral alpha-tocopherol acetate thrice weekly: C. Dystrophy-producing diet: D. Dystrophy-producing diet containing 1 % L-histidine. When histidine was inmrporated into the diet, an equivalent weight of sucrose was deducted.Twenty-four hour urine samples were collected occasionally in a rabbit metabolism cage. Creatine and creatinine were determined by the method of Folin(4) while quantitative determinations of histidine and 1methylhistidine were made by Dowex-50 chromatography using the method of Tallan et a l . ( 5 ) .

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Kexin Ning

AtPFA‐DSP3, an atypical dual‐specificity protein tyrosine phosphatase, affects salt stress response by modulating MPK3 and MPK6 activity

Comparative study on microstructure, mechanical, and tribological property of gamma‐irradiated polytetrafluoroethylene, polyetheretherketone, and polyimide polymers

Spatiotemporal Heterogeneities in the Causal Effects of Mobility Intervention Policies during the COVID-19 Outbreak: A Spatially Interrupted Time-Series (SITS) Analysis

Effect of L-Histidine on Creatine, Histidine, and 1-Methylhistidine Excretion of Normal and Vit. E-Deficient Rabbits.

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