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Zhang Hao,Xu Qian,Xu Xiao,Liu Huabo,Xu Jichen 한국식물생명공학회 2017 Plant biotechnology reports Vol.11 No.5
Expansins are cell wall-loosening proteins and now widely accepted to associate with the plant resistance against various abiotic stresses. In this study, we cloned an expansin gene of AstEXPA1 from Agrostis stolonifera, a heat-resistant creeping bentgrass cultivar, and transformed it into tobacco plants. Physiological index test showed that the transgenic lines were resistant to various abiotic stresses of drought, heat, cold, and salt in comparison to nontransgenic plants. Comprehensive analysis of four physiological response indices showed that the transgenic plants performed much better resistance to drought, following to heat, cold and salt stress, respectively. Meanwhile soluble sugar content displayed more weight to plant resistance by over-expressing AstEXPA1 gene, followed as proline content, REL, and MDA content. The results here would expand our understanding of the expansin roles and drive better insights into plant molecular breeding against stress.
Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil
Xu, Xiaozhi,Zhang, Zhihong,Dong, Jichen,Yi, Ding,Niu, Jingjing,Wu, Muhong,Lin, Li,Yin, Rongkang,Li, Mingqiang,Zhou, Jingyuan,Wang, Shaoxin,Sun, Junliang,Duan, Xiaojie,Gao, Peng,Jiang, Ying,Wu, Xiaoson Elsevier 2017 Science bulletin Vol.62 No.15
Characterization and functional analysis of the PtEXLA1 gene from poplar
Liu Jiafu,Wang Yan,Yang Lihong,Wang Xue,Zhang Junkang,Xu Jichen 한국식물생명공학회 2024 Plant biotechnology reports Vol.18 No.1
Expansin plays a crucial role in plant growth and stress resistance as a cell wall relaxation protein. The expansin family consists of four subfamilies: EXPA, EXPB, EXLA, and EXLB. However, a few reports have been previously published investigating EXLA genes. The research here aimed to characterize the PtEXLA1 gene from a popular species (P. alba × P. glandulosa CV.84K) and evaluate its role through genetic transformation to understand its contribution to plant growth and stress resistance. The results showed that the PtEXLA1 gene was 780 bp in length, encoded 259 amino acids, and had typical characteristics of EXLA. The PtEXLA1 transgenic tobacco plants had a larger corolla in comparison to wild-type plants, and exhibited higher resistance to drought, high temperature, and salt stress based on the evaluation of chlorophyll content, relative conductivity, and malondialdehyde content. PtEXLA1 can be an efficient gene resource for stress resistance breeding of plants.