Your search keyword '"Xie, Yunxia"' showing total 22 results

1. Effects of Organic Manure and Other Nitrogen Substitutes on Spring Maize Growth, Yield, and Water and Fertilizer Utilization Efficiency

Author

CHEN Mengru, XING Yingying, XIE Yunxia, LIU Xuning, SHAO Yating, LI Shanshan, ZHAO Tiansheng, LU Jie, and WANG Xiukang

Subjects

spring maize, yield, organic fertilizer, water use efficiency, multiple regression analysis, Environmental sciences, GE1-350, Agriculture

Abstract

[Objective] This study was aimed to investigate the effects of organic manure replacing chemical fertilizer with equal nitrogen under different nitrogen application rates on the growth, yield and water-fertilizer use efficiency of spring maize in the dry zone of northern Shaanxi. [Methods] Multiple regression analysis and three-dimensional fitting models were used to establishing an optimal nitrogen management model for spring maize cultivation in northern Shaanxi. In this experiment, three nitrogen application levels (240, 180, 120 kg/hm2 for N1, N2, N3, respectively) and five organic manure replacing chemical fertilizer with equal nitrogen ratios (R0, R12.5, R25, R37.5, R50 for 100% chemical fertilizer nitrogen, 12.5% organic fertilizer nitrogen+87.5% chemical fertilizer nitrogen, 25% organic fertilizer nitrogen+75% chemical fertilizer nitrogen, 37.5% organic fertilizer nitrogen+62.5% chemical fertilizer nitrogen, 50% organic fertilizer nitrogen+50% chemical fertilizer nitrogen, respectively), a total of 15 treatments. During the main reproductive period of spring maize, spring maize growth and yield and yield components were measured, and water consumption (ET), water use efficiency (WUE), nitrogen fertilizer partial productivity (NPFP) and economic benefits were calculated. [Results] The Logistic function had a high fit for dry matter accumulation in spring maize, the R12.5 treatment delayed the start, the end and the appearance of the maximum value of the period of rapid dry matter accumulation, and the N2 treatment enhanced the maximum daily growth rate of dry matter accumulation. Nitrogen application and replacement ratio significantly affected dry matter accumulation, yield and components, ET, NPFP and economic efficiency of spring maize (p

Published

2024

2. Optimizing Irrigation and Fertilization to Simultaneously Improve Potato Tuber Yield, Water and Fertilizer Use Efficiency and Net Income in Northwest China

Author

Zhang, Fan, primary, Chen, Mengru, additional, Zheng, Yu, additional, Xie, Yunxia, additional, and Xing, Yingying, additional

Published

2024

3. CD36 palmitoylation disrupts free fatty acid metabolism and promotes tissue inflammation in non-alcoholic steatohepatitis

Author

Zhao, Lei, Zhang, Chang, Luo, Xiaoxiao, Wang, Pei, Zhou, Wei, Zhong, Shan, Xie, Yunxia, Jiang, Yibo, Yang, Ping, Tang, Renkuang, Pan, Qin, Hall, Andrew R., Luong, Tu Vinh, Fan, Jiangao, Varghese, Zac, Moorhead, John F., Pinzani, Massimo, Chen, Yaxi, and Ruan, Xiong Z.

Published

2018

4. HAK/KUP/KT family potassium transporter genes are involved in potassium deficiency and stress responses in tea plants (Camellia sinensis L.): expression and functional analysis

Author

Yang, Tianyuan, Lu, Xin, Wang, Yan, Xie, Yunxia, Ma, Jingzhen, Cheng, Xunmin, Xia, Enhua, Wan, Xiaochun, and Zhang, Zhaoliang

Published

2020

5. Comprehensive comparative analysis of volatile compounds in citrus fruits of different species

Author

Zhang, Haipeng, Xie, Yunxia, Liu, Cuihua, Chen, Shilin, Hu, Shuangshuang, Xie, Zongzhou, Deng, Xiuxin, and Xu, Juan

Published

2017

6. Content evaluation of 4 furanocoumarin monomers in various citrus germplasms

Author

Xu, Juan, Ma, Lili, Jiang, Dong, Zhu, Shiping, Yan, Fuhua, Xie, Yunxia, Xie, Zongzhou, Guo, Wenwu, and Deng, Xiuxin

Published

2015

7. CsGDH2.1 negatively regulates theanine accumulation in late-spring tea plants (Camellia sinensis var. sinensis)

Author

Chen, Tingting, primary, Ma, Jingzhen, additional, Li, Huiping, additional, Lin, Shijia, additional, Dong, Chunxia, additional, Xie, Yunxia, additional, Yan, Xiaomei, additional, Zhang, Shupei, additional, Yang, Tianyuan, additional, Wan, Xiaochun, additional, and Zhang, Zhaoliang, additional

Published

2022

8. Genetic evidence for facial variation being a composite phenotype of cranial variation and facial soft tissue thickness

Author

Qian, Wei, primary, Zhang, Manfei, additional, Wan, Kaiwen, additional, Xie, Yunxia, additional, Du, Siyuan, additional, Li, Jiarui, additional, Mu, Xiongzheng, additional, Qiu, Jiange, additional, Xue, Xiangyang, additional, Zhuang, Xiahai, additional, Wu, Yingzhi, additional, Liu, Fan, additional, and Wang, Sijia, additional

Published

2022

9. HDAC2- and EZH2-Mediated Histone Modifications Induce PDK1 Expression through miR-148a Downregulation in Breast Cancer Progression and Adriamycin Resistance

Author

Xie, Yunxia, primary, Shi, Zhumei, additional, Qian, Yingchen, additional, Jiang, Chengfei, additional, Liu, Wenjing, additional, Liu, Bingjie, additional, and Jiang, Binghua, additional

Published

2022

10. CsGDH2.1 negatively regulates theanine accumulation in late-spring tea plants (Camellia sinensis var. sinensis).

Author

Chen, Tingting, Ma, Jingzhen, Li, Huiping, Lin, Shijia, Dong, Chunxia, Xie, Yunxia, Yan, Xiaomei, Zhang, Shupei, Yang, Tianyuan, Wan, Xiaochun, and Zhang, Zhaoliang

Subjects

THEANINE, TEA, UMAMI (Taste), PLANT shoots, GREEN tea, PLANT extracts

Abstract

Theanine, a unique and the most abundant non-proteinogenic amino acid in tea plants, endows tea infusion with the umami taste and anti-stress effects. Its content in tea correlates highly with green tea quality. Theanine content in new shoots of tea plants is high in mid-spring and greatly decreases in late spring. However, how the decrease is regulated is largely unknown. In a genetic screening, we observed that a yeast mutant, glutamate dehydrolase 2 (gdh2), was hypersensitive to 40 mM theanine and accumulated more theanine. This result implied a role of CsGDH2s in theanine accumulation in tea plants. Therefore, we identified the two homologs of GDH2, CsGDH2.1 and CsGDH2.2, in tea plants. Yeast complementation assay showed that the expression of CsGDH2.1 in yeast gdh2 mutant rescued the theanine hypersensitivity and hyperaccumulation of this mutant. Subcellular localization and tissue-specific expression showed CsGDH2.1 localized in the mitochondria and highly expressed in young tissues. Importantly, CsGDH2.1 expression was low in early spring, and increased significantly in late spring, in the new shoots of tea plants. These results all support the idea that CsGDH2.1 regulates theanine accumulation in the new shoots. Moreover, the in vitro enzyme assay showed that CsGDH2.1 had glutamate catabolic activity, and knockdown of CsGDH2.1 expression increased glutamate and theanine accumulation in the new shoots of tea plants. These findings suggested that CsGDH2.1-mediated glutamate catabolism negatively regulates theanine accumulation in the new shoots in late spring, and provides a functional gene for improving late-spring green tea quality. [ABSTRACT FROM AUTHOR]

Published

2023

11. Comparative analysis of volatile and carotenoid metabolites and mineral elements in the flesh of 17 kiwifruit

Author

Zhang, Haipeng, primary, Mo, Xiaoqin, additional, Tang, Dongmei, additional, Ma, Yuhua, additional, Xie, Yunxia, additional, Yang, Hongbin, additional, Shi, Meiyan, additional, Li, Lin, additional, Li, Wenyun, additional, Yan, Fuhua, additional, Zhang, Yajuan, additional, Zhang, Hongyan, additional, and Xu, Juan, additional

Published

2021

12. Shading Promoted Theanine Biosynthesis in the Roots and Allocation in the Shoots of the Tea Plant (Camellia sinensis L.) Cultivar Shuchazao

Author

Yang, Tianyuan, primary, Xie, Yunxia, additional, Lu, Xin, additional, Yan, Xiaomei, additional, Wang, Yan, additional, Ma, Jingzhen, additional, Cheng, Xunmin, additional, Lin, Shijia, additional, Bao, Shilai, additional, Wan, Xiaochun, additional, Lucas, William J., additional, and Zhang, Zhaoliang, additional

Published

2021

13. Shading Promoted Theanine Biosynthesis in the Roots and Allocation in the Shoots of the Tea Plant (Camellia sinensisL.) Cultivar Shuchazao

Author

Yang, Tianyuan, Xie, Yunxia, Lu, Xin, Yan, Xiaomei, Wang, Yan, Ma, Jingzhen, Cheng, Xunmin, Lin, Shijia, Bao, Shilai, Wan, Xiaochun, Lucas, William J., and Zhang, Zhaoliang

Abstract

Shading was thought as an effective approach to increase theanine in harvested tea shoots. Previous studies offered conflicting findings, perhaps since the integration of theanine metabolism and transport in different tissues was not considered. Theanine is synthesized primarily in the roots and is then transported, via the vascular system, to new vegetative tissues. Here, we found that theanine increased in the stem, was reduced in the leaf, and remained stable in the roots, under shading conditions. Notably, in tea roots, shading significantly increased ethylamine and activated the theanine biosynthesis pathway and theanine transporter genes. Furthermore, shading significantly increased the expression of theanine transporter genes, CsAAP2/4/5/8, in the stem, while decreasing the expression of CsAAP1/2/4/5/6in the leaf, in accordance with shading effects on theanine levels in these tissues. These findings reveal that shading of tea plants promotes theanine biosynthesis and allocation in different tissues, processes which appear to involve the theanine biosynthesis pathway enzymes and AAP family of theanine transporters.

Published

2021

14. A characterization of L 3(4) by its character degree graph and order

Author

Liu, Shitian, primary and Xie, Yunxia, additional

Published

2016

15. Study on a Compression Algorithm for SAR Raw Data

Author

Xia Ming, Zhu Zhao-da, Zeng Shangchun, Xie Yunxia, and Chen Yixian

Subjects

Synthetic aperture radar, symbols.namesake, Computer science, Scalar quantization, Quantization (signal processing), Gaussian, Gauss, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Vector quantization, symbols, Raw data, Algorithm, Data compression

Abstract

The block adaptive quantization(BAQ) algorithm is comparatively mature for SAR raw data compression at present. This algorithm is on the premise that SAR raw data should satisfy Gauss distribution. But the imaged region is quite rugged, some blocks of data doesn’t satisfy Gaussian distribution. Therefore, a block adative scalar-vector quantization(BASVQ) algorithm is put forward in this paper, namely, scalar quantization is applied when data blocks satisfy Gaussian distribution while vector quantization is applied when don’t satisfy. The experiments demonstrate that the performance of BASVQ algorithm outperforms that of BAQ algorithm. The BASVQ algorithm has practical value in some degree.

Published

2013

16. Study on an algorithm for SAR raw data compression

Author

Xie Yunxia, Zeng Shangchun, Zhu Zhao-da, and Chen Yixian

Subjects

business.industry, Computer science, Compression (functional analysis), Pattern recognition, Artificial intelligence, Raw data, business

Published

2012

17. Chronic inflammation aggravates metabolic disorders of hepatic fatty acids in high-fat diet-induced obese mice

Author

Zhao, Lei, primary, Zhong, Shan, additional, Qu, Haiyang, additional, Xie, Yunxia, additional, Cao, Zhennan, additional, Li, Qing, additional, Yang, Ping, additional, Varghese, Zac, additional, Moorhead, John F., additional, Chen, Yaxi, additional, and Ruan, Xiong Z., additional

Published

2015

18. Block adaptive scalar-vector quantization for SAR raw data compression

Author

Zeng, Shangchun, primary, Xie, Yunxia, additional, Chen, Yixian, additional, and Wang, Huazhang, additional

Published

2013

19. CsGDH2.1 negatively regulates theanine accumulation in late-spring tea plants (Camellia sinensisvar. sinensis)

Author

Chen, Tingting, Ma, Jingzhen, Li, Huiping, Lin, Shijia, Dong, Chunxia, Xie, Yunxia, Yan, Xiaomei, Zhang, Shupei, Yang, Tianyuan, Wan, Xiaochun, and Zhang, Zhaoliang

Abstract

Theanine, a unique and the most abundant non-proteinogenic amino acid in tea plants, endows tea infusion with the umami taste and anti-stress effects. Its content in tea correlates highly with green tea quality. Theanine content in new shoots of tea plants is high in mid-spring and greatly decreases in late spring. However, how the decrease is regulated is largely unknown. In a genetic screening, we observed that a yeast mutant, glutamate dehydrolase 2(gdh2), was hypersensitive to 40 mM theanine and accumulated more theanine. This result implied a role of CsGDH2s in theanine accumulation in tea plants. Therefore, we identified the two homologs of GDH2, CsGDH2.1 and CsGDH2.2, in tea plants. Yeast complementation assay showed that the expression of CsGDH2.1in yeast gdh2mutant rescued the theanine hypersensitivity and hyperaccumulation of this mutant. Subcellular localization and tissue-specific expression showed CsGDH2.1 localized in the mitochondria and highly expressed in young tissues. Importantly, CsGDH2.1expression was low in early spring, and increased significantly in late spring, in the new shoots of tea plants. These results all support the idea that CsGDH2.1 regulates theanine accumulation in the new shoots. Moreover, the in vitroenzyme assay showed that CsGDH2.1 had glutamate catabolic activity, and knockdown of CsGDH2.1expression increased glutamate and theanine accumulation in the new shoots of tea plants. These findings suggested that CsGDH2.1-mediated glutamate catabolism negatively regulates theanine accumulation in the new shoots in late spring, and provides a functional gene for improving late-spring green tea quality.

Published

2023

20. Study on an algorithm for SAR raw data compression.

Author

Zeng Shangchun, Xie Yunxia, Chen Yixian, and Zhu Zhaoda

Published

2012

21. Block adaptive scalar-vector quantization for SAR raw data compression

Author

Wang, Yulin, Yi, Xie, Zeng, Shangchun, Xie, Yunxia, Chen, Yixian, and Wang, Huazhang

Published

2013

22. Integrated Transcriptomic Landscape and Deep Learning Based Survival Prediction in Uterine Sarcomas.

Author

Song Y, Li G, Zhang Z, Liu Y, Jia H, Zhang C, Wang J, Hu Y, Hao F, Liu X, Xie Y, Ma D, Li G, Tai Z, and Xing X

Abstract

Purpose: The genomic characteristics of uterine sarcomas have not been fully elucidated. This study aimed to explore the genomic landscape of the USs., Materials and Methods: Comprehensive genomic analysis through RNA-sequencing was conducted. Gene fusion, differentially expressed genes (DEGs), signaling pathway enrichment, immune cell infiltration, and prognosis were analyzed. A deep learning model was constructed to predict the survival of US patients., Results: A total of 71 US samples were examined, including 47 endometrial stromal sarcomas (ESS), 18 uterine leiomyosarcomas (uLMS), 3 adenosarcomas, 2 carcinosarcomas, and 1 uterine tumor resembling an ovarian sex-cord tumor (UTROSCT). ESS (including high-grade ESS and low-grade ESS) and uLMS showed distinct gene fusion signatures; a novel gene fusion site, MRPS18A - PDC-AS1 could be a potential diagnostic marker for the pathology differential diagnosis of uLMS and ESS; 797 and 477 uDEGs were identified in the ESS vs. uLMS and HGESS vs. LGESS groups, respectively. The uDEGs were enriched in multiple pathways. Fifteen genes including LAMB4 were confirmed with prognostic value in USs; immune infiltration analysis revealed the prognositic value of myeloid dendritic cells, plasmacytoid dendritic cells, natural killer cells, macrophage M1, monocytes and hematopoietic stem cells in USs; the deep learning model named MMN-MIL showed satisfactory performance in predicting the survival of US patients, with the area under the receiver operating curve curve reached 0.909 and accuracy achieved 0.804., Conclusion: USs harbored distinct gene fusion characteristics and gene expression features between HGESS, LGESS, and uLMS. The MMN-MIL model could effectively predict the survival of US patients.

Published

2024