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

1. Functional Validation of Different Alternative Splicing Variants of the Chrysanthemum lavandulifolium ClNUM1 Gene in Tobacco.

Author

Zhang, Wenxin, Wang, Hai, Guo, Yuning, Hao, Xueying, Li, Yanxi, He, Wenting, Zhao, Xiang, Cai, Shiyi, and Song, Xuebin

Published

2024

2. The Exploration of Flowering Mechanisms in Cherry Plants.

Author

Xu, Yanxia, Li, Jingjing, Wang, Pengyi, Wang, Wenhui, Guo, Yuning, Hao, Xueying, Du, Liyan, and Zhou, Chunling

Subjects

CHERRIES, BUD development, INDOLEACETIC acid, FLOWERS, FLOWER development, COLD (Temperature)

Abstract

Flowering cherry (Cerasus sp.) are significant spring-blooming trees. However, the short blooming period and the rarity of early and late-flowering varieties limit their use in gardens in northern China. The experiment incorporated annually early-flowering species such as Cerasus discoidea, Cerasus pseudocerasus 'Introtsa', Cerasus dielsiana, Cerasus campanulata 'Youkou', Cerasus yedoensis 'Somei-Yoshino', and Cerasus spachiana f. ascendens, as well as twice-a-year flowering species like Cerasus subhirtella 'Autumnalis' and Cerasus subhirtella 'Accolade'. We observed the timing of natural events and growth measurements for specific plants over a span of two years. This research involved a thorough examination of their ability to withstand cold temperatures, considering their physiological aspects. We examined the levels of nutrients and hormones in the flower buds at various stages of development in plants that bloom yearly and every two years. The findings indicated that C. subhirtella 'Autumnalis' is adaptable, offering the lengthiest autumn blooming phase lasting 54 days. The hierarchy of cold tolerance was as follows: C. pseudocerasus 'Introtsa' > C. discoidea > Cerasus × subhirtella 'Autumnalis' > C. dielsiana > C. 'Youkou'. Furthermore, the soluble protein content in leaves increased before autumn flower buds' sprout of twice-a-year flowering varieties but declined in C. yedoensis 'Somei-Yoshino' within the same time. We determined that changes in nutrient content significantly contribute to the autumn opening of C. subhirtella 'Autumnalis' robust short branch flower buds. During the final phase of flower bud development, the rise in trans-Zeatin-riboside (ZR) and indolacetic acid (IAA) promotes the initiation of the first flowering period in C. subhirtella 'Autumnalis' prior to its mandatory hibernation. The occurrence of secondary flowering involves a multifaceted regulatory process. These findings serve as valuable references for delving deeper into the mechanisms governing cherry blossom formation and secondary flowering. [ABSTRACT FROM AUTHOR]

Published

2023

3. Alternative Splicing for Leucanthemella linearis NST1 Contributes to Variable Abiotic Stress Resistance in Transgenic Tobacco.

Author

Wang, Hai, Guo, Yuning, Hao, Xueying, Zhang, Wenxin, Xu, Yanxia, He, Wenting, Li, Yanxi, Cai, Shiyi, Zhao, Xiang, and Song, Xuebin

Subjects

*CHRYSANTHEMUMS, *ALTERNATIVE RNA splicing, *ABIOTIC stress, *PLANT cell walls, *SPLICEOSOMES, *STRENGTH of materials, *DROUGHT management

Abstract

Leucanthemella linearis is a marsh plant in the family Compositae. It has good water and moisture resistance and ornamental properties, which makes it one of the important materials for chrysanthemum breeding and genetic improvement. The NST1 (NAC secondary wall enhancement factor 1) gene is associated with the thickening of the secondary walls of fiber cells in the plant ducts and the secondary xylem and plays an important role in plant stress resistance. In this study, two variable spliceosomes of the NST1 gene were identified from a chrysanthemum plant by using bioinformatics, qRT-PCR, transgene, and paraffin section methods to explore the molecular mechanism of the variable splicing of NST1 under abiotic stress. The results show that only three amino acids were found to be different between the two LlNST1 variants. After being treated with salt, drought, and low temperatures, analysis of the expression levels of the LlNST1 and LlNST1.1 genes in Ll showed that LlNST1.1 could respond to low temperatures and salt stress and had a weak response to drought stress. However, the expression level of LlNST1 under the three treatments was lower than that of LlNST1.1. LlNST1 transgenic tobacco showed increased saline–alkali resistance and low-temperature resistance at the seedling stage. LlNST1.1 transgenic tobacco also showed enhanced saline–alkali resistance and drought resistance at the seedling stage. In conclusion, the functions of the two variable spliceosomes of the NST1 gene are very different under abiotic stress. Therefore, this study verified the function of the variable spliceosome of NST1 and improved the stress resistance of the chrysanthemum plant under examination by regulating the expression of the NST protein, which lays a material foundation for the improvement of plant stress resistance materials and has important significance for the study of the resistance of chrysanthemum plants to abiotic stress. [ABSTRACT FROM AUTHOR]

Published

2023

4. Functional Verification of the Four Splice Variants from Ajania purpurea NST1 in Transgenic Tobacco.

Author

Wang, Hai, Hao, Xueying, Zhang, Wenxin, Guo, Yuning, Zhao, Xiang, Li, Yanxi, He, Wenting, Cai, Shiyi, and Song, Xuebin

Subjects

AMINO acid sequence, ALTERNATIVE RNA splicing, ORNAMENTAL plants, ABIOTIC stress, TOBACCO, MEDICAGO, CULTIVATED plants

Abstract

Ajania purpurea is a small semi-shrub in the Asteraceae family. Its corolla is purplish red from the middle to the top, and its leaves and flowers are all fragrant. It can be introduced and cultivated as ornamental plants. In order to survive adversity, plants actively regulate the expression of stress response genes and transcripts. Alternative splicing is a common phenomenon and an important regulation mode of eukaryotic gene transcription, which plays an important role in various biological processes. In this study, four splice variants of the NST1 gene were identified from A. purpurea, and the molecular mechanism of NST1 alternative splice variants involved in abiotic stress was explored through bioinformatics, transgenics and paraffin sectionalization. The analysis of amino acid sequences showed that ApNST1.1 had alternative 5′splicing, ApNST1.2 had alternative 3′splicing and ApNST1 had the two splicing types. The main conclusions from studying transgenic tobacco seedlings and adult seedlings under abiotic stress were as follows: ApNST1, ApNST1.1 and ApNST1.3 showed salt tolerance at seedling stage, especially ApNST1.3. At the mature seedling stage, the stem height of ApNST1.1 increased significantly, and ApNST1.1 showed obvious salt tolerance, while ApNST1.2 showed obvious cold resistance. Compared to Super35S::GFP, the xylem of ApNST1 thickened by 94 μm, and the cell wall thickened by 0.215 μm. These results are of great significance to the breeding and application of ApNST1 to select splice variants with more resistance to abiotic stress, and to future study in this area. At the same time, they provide a new direction for A. purpurea breeding, and increase the possibility of garden applications. [ABSTRACT FROM AUTHOR]

Published

2023