Induction of Axillary Bud Swelling of Hevea brasiliensis to Regenerate Plants through Somatic Embryogenesis and Analysis of Genetic Stability
文献类型: 外文期刊
作者: Wang, Taihua 1 ; Udayabhanu, Jinu 3 ; Gu, Xiaochuan 3 ; Wu, Rizhi 3 ; Xin, Shichao 3 ; Chen, Qiuhui 3 ; Zhang, Yuanyuan 3 ; Yang, Xianfeng 3 ; Peng, Suna 3 ; Chen, Jianmiao 1 ; Huang, Tiandai 3 ;
作者机构: 1.Hainan Univ, Sanya Nanfan Res Inst, Hainan Yazhou Bay Seed Lab, Sanya 572025, Peoples R China
2.Hainan Univ, Coll Trop Crops, Haikou 570228, Peoples R China
3.Chinese Acad Trop Agr Sci, Rubber Res Inst, Haikou 571101, Peoples R China
4.Haikou Key Lab Innovat Seedlings Trop Plants, Haikou 571101, Peoples R China
关键词: Hevea brasiliensis; axillary bud; somatic embryo; regeneration; genetic stability
期刊名称:PLANTS-BASEL ( 影响因子:4.5; 五年影响因子:4.8 )
ISSN:
年卷期: 2023 年 12 卷 9 期
页码:
收录情况: SCI
摘要: To overcome rubber tree (RT) tissue culture explant source limitations, the current study aimed to establish a new Hevea brasiliensis somatic embryogenesis (SE) system, laying the technical foundation for the establishment of an axillary-bud-based seedling regeneration system. In this study, in vitro plantlets of Hevea brasiliensis Chinese Academy of Tropical Agricultural Sciences 917 (CATAS 917) were used as the experimental materials. Firstly, the optimum conditions for axillary bud swelling were studied; then, the effects of phenology, the swelling time of axillary buds (ABs), and medium of embryogenic callus induction were studied. Plantlets were obtained through somatic embryogenesis. Flow cytometry, inter-simple sequence repeat (ISSR molecular marker) and chromosome karyotype analysis were used to study the genetic stability of regenerated plants along with budding seedlings (BSs) and secondary somatic embryo seedlings (SSESs) as the control. The results show that the rubber tree's phenology period was mature, and the axillary bud induction rate was the highest in the 2 mg/L 6-benzyladenine (6-BA) medium (up to 85.83%). Later, 3-day-old swelling axillary buds were used as explants for callogenesis and somatic embryogenesis. The callus induction rate was optimum in MH (Medium in Hevea) + 1.5 mg/L 2,4-dichlorophenoxyacetic acid (2,4-D) + 1.5 mg/L 1-naphthalene acetic acid (NAA) + 1.5 mg/L Kinetin (KT) + 70 g/L sucrose (56.55%). The regenerated plants were obtained after the 175-day culture of explants through callus induction, embryogenic callus induction, somatic embryo development, and plant regeneration. Compared with the secondary somatic embryo seedling control, axillary bud regeneration plants (ABRPs) were normal diploid plants at the cellular and molecular level, with a variation rate of 7.74%.
- 相关文献
作者其他论文 更多>>
-
Genome-wide association study identifies QTL for girth and dry rubber yield in a progeny population of Whickham Hevea germplasms
作者:Liang, Cuili;Zhang, Yuanyuan;Liu, Xing;Tan, Yingchao;Xu, Tiancheng;Zheng, Cheng;Zhang, Shengmin;Qi, Jiyan;Li, Zhonghua;Liu, Hui;Cao, Jie;Liu, Kaiye;Tang, Chaorong;Liang, Cuili;Liu, Xing;Tan, Yingchao;Xu, Tiancheng;Zheng, Cheng;Zhang, Shengmin;Qi, Jiyan;Luo, Hongli;Li, Zhonghua;Liu, Hui;Cao, Jie;Liu, Kaiye;Tang, Chaorong;Liang, Cuili;Liu, Xing;Tan, Yingchao;Xu, Tiancheng;Zheng, Cheng;Zhang, Shengmin;Qi, Jiyan;Li, Zhonghua;Liu, Hui;Cao, Jie;Liu, Kaiye;Tang, Chaorong;Liang, Cuili;Liu, Xing;Tan, Yingchao;Xu, Tiancheng;Zheng, Cheng;Zhang, Shengmin;Qi, Jiyan;Li, Zhonghua;Liu, Hui;Cao, Jie;Liu, Kaiye;Tang, Chaorong;Zhang, Yuanyuan;Liu, Xiaodong;Zeng, Xia;Li, Zhonghua;Liu, Hui;Cao, Jie;Liu, Kaiye
关键词:Rubber tree; GWAS; Girth; Dry rubber yield; Candidate genes
-
Two maize homologs of mammalian proton-coupled folate transporter, ZmMFS_1-62 and ZmMFS_1-73, are essential to salt and drought tolerance
作者:Hou, Xiaowan;Zhang, Yuanyuan;Zhang, Chunyi;Liang, Qiuju;Hou, Xiaowan;Lu, Zhiwei;Zhang, Yuanyuan;Yao, Quansheng;Hou, Xiaowan;Niu, Yiding;Yu, Taifei;Zhang, Chunyi;Liang, Qiuju
关键词:PCFT protein; Folates; Stress tolerance; Protein interaction; Zea mays L
-
Overexpression of the EuFPS5 gene in Hevea brasiliensis fails to produce Eucommia rubber but affects the biosynthesis of natural rubber
作者:Xin, Shichao;Hua, Yuwei;Li, Dejun;Udayabhanu, Jinu;Yang, Hong;Wu, Rizhi;Huang, Huasun;Huang, Tiandai;Xin, Shichao;Udayabhanu, Jinu;Huang, Huasun;Huang, Tiandai;Xin, Shichao;Hua, Yuwei;Udayabhanu, Jinu;Wu, Rizhi;Huang, Huasun;Huang, Tiandai
关键词:Rubber biosynthesis; Hevea brasiliensis; Eucommia ulmoides farnesyl diphosphate; synthase 5; Transgenic rubber tree; Farnesyl diphosphate
-
A cluster of mutagenesis revealed an osmotic regulatory role of the OsPIP1 genes in enhancing rice salt tolerance
作者:Tao, Leyuan;Wang, Bing;Li, Wei;Huang, Shengcai;Zhang, Qianru;Cheng, Xianguo;Tao, Leyuan;Wang, Bing;Liu, Laihua;Xin, Shichao;Cui, Jing
关键词:Aquaporin; Multiplex gene editing; CRISPR/Cas9; OsPIP1 genes; Salt tolerance; Rice(Oryza sativa L.)
-
Current Achievements and Future Challenges of Genotype-Dependent Somatic Embryogenesis Techniques in Hevea brasiliensis
作者:Wang, Xiaoyi;Gu, Xiaochuan;Xu, Zhengwei;Yang, Xianfeng;Zhou, Quannan;Huang, Huasun;Huang, Tiandai;Wang, Xiaoyi;Gu, Xiaochuan;Xu, Zhengwei;Yang, Xianfeng;Zhou, Quannan;Huang, Huasun;Huang, Tiandai;Yin, Zhaochen;Lin, Rong
关键词:vegetative propagation; genetic modification; genotype dependence; somatic embryogenesis
-
Expressional correlation of latex-regeneration genes with latex physiological parameters varies with population type and growth stage in Hevea tree
作者:Lu, Yilong;Liu, Kaiye;Cao, Jie;Zhang, Yi;Tang, Chaorong;Lu, Yilong;Liu, Kaiye;Cao, Jie;Zhang, Yi;Tang, Chaorong;Zhang, Yuanyuan;Liu, Xiaodong;Li, Weiguo;Zeng, Xia
关键词:Hevea tree; Latex regeneration-related genes; Latex physiological parameters; Expressional correlation; Marker-assisted selection
-
Genome-Wide Identification of MADS-Box Genes in Taraxacum kok-saghyz and Taraxacum mongolicum: Evolutionary Mechanisms, Conserved Functions and New Functions Related to Natural Rubber Yield Formation
作者:Chen, Jiaqi;Yang, Yushuang;Li, Chuang;Chen, Qiuhui;Liu, Shizhong;Qin, Bi;Chen, Jiaqi;Li, Chuang
关键词:MADS-box gene; Taraxacum kok-saghyz; Taraxacum mongolicum; collinearity; biomass; natural rubber biosynthesis
