Your search keyword '"Lijuan Xuan"' showing total 2 results

1. Hydrogen sulfide reduces cell death through regulating autophagy during submergence in Arabidopsis

Author

Lijuan Xuan, Haijun Wu, Jian Li, Guoqiang Yuan, Yijun Huang, Chengfei Lian, Xinyu Wang, Tao Yang, and Chongying Wang

Subjects

Cell Death, Arabidopsis Proteins, Arabidopsis, Autophagy, Cystathionine gamma-Lyase, Hydrogen Sulfide, Plant Science, General Medicine, Hypoxia, Agronomy and Crop Science

Abstract

Hydrogen sulfide positively regulates autophagy and the expression of hypoxia response-related genes under submergence to enhance the submergence tolerance of Arabidopsis. Flooding seriously endangers agricultural production, and it is quite necessary to explore the mechanism of plant response to submergence for improving crop yield. Both hydrogen sulfide (H

Published

2022

2. Effects of heterologous expression of Populus euphratica brassinosteroids biosynthetic enzyme genes CPD (PeCPD) and DWF4 (PeDWF4) on tissue dedifferentiation and growth of Arabidopsis thaliana seedlings

Author

Xianghong Tian, Baiyun Liu, Chongying Wang, Lijuan Xuan, Tiantian Hu, and Xinyu Wang

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_classification, biology, Callus formation, Horticulture, biology.organism_classification, 01 natural sciences, Cell biology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, Micropropagation, Auxin, Callus, Arabidopsis, Cytokinin, Botany, Brassinosteroid, Populus euphratica, 010606 plant biology & botany

Abstract

To understand the functions of Populus euphratica CPD (PeCPD) and DWF4 (PeDWF4), the responses to exogenous phytohormone in Arabidopsis-PeCPD and -PeDWF4 transgenic lines (PeCPD-TL and PeDWF4-TL) and corresponding wild type (WT) seedlings were investigated. Results showed that all of PeCPD-TL, PeDWF4-TL and WT seedlings cultured on the mediums containing 2,4-dichlorophenoxyacetic acid (2,4-D) + 6-benzylaminopurin (6-BA) or 2,4-D + 6-BA + brassinolide (BL) could be dedifferentiated to callus with 100% frequency, but they displayed strong differences in callus formation sites, callus growth rates (CGRs) and tissue dedifferentiation degrees. On the medium containing 2,4-D alone, the seedlings of all the plants could formed callus, but callus formation times (CFTs) were delayed, and callus formation rates (CFRs) were differentially decreased. After adding lower concentrations of BL, their CFRs were all restored to 100%, but tissue dedifferentiation degrees were obviously lower than these on the mediums with 2,4-D + 6-BA or 2,4-D + 6-BA + BL. On the mediums containing 6-BA or 6-BA + BL, the seedlings of all the plants failed to produce callus. Semi-quantitative RT-PCR analysis also showed that the transcription levels of PeCPD, PeDWF4, AtCPD and AtDWF4 in PeCPD-TL, PeDWF4-TL and WT were evidently different. These results suggest that PeCPD and PeDWF4 play similar but not exactly the same roles in the regulation of callus morphogenesis of Arabidopsis seedlings, and that BL can partially replace the role of cytokinin to induce callus formation through interacting with auxin.

Published

2017