Peanut regeneration by somatic embryogenesis (SE), involving bulbil-like body (BLB), a new type of SE structure

文献类型: 外文期刊

第一作者: Xu, Kedong

作者: Xu, Kedong;Liu, Kun;Tan, Guangxuan;Li, Chengwei;Huang, Bingyan;Qi, Feiyan;Zhang, Xinyou

作者机构:

关键词: Peanut;Regeneration;Somatic embryogenesis;Bulbil-like body;Cotyledon explants

期刊名称:PLANT CELL TISSUE AND ORGAN CULTURE ( 影响因子:2.711; 五年影响因子:2.73 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Using cotyledons as explants a new method of peanut regeneration was established via somatic embryogenesis (SE), involving a kind of first-observed SE structure that was shaped like bulbil and therefore named bulbil-like body (BLB). On Murashige and Skoog (MS) media containing a higher concentration of 2,4-D (20.0 mg/L) and incubated in the dark, all the inoculated cotyledon explants formed BLBs with a high frequency of average 26 BLBs per cotyledon explant, and 100.00 % of the formed BLBs spontaneously developed into multiple shoots (3-5 shoots per BLB) without changing induction and incubation conditions. On average, about 103 shoots can be induced from an individual cotyledon explant. On MS media supplemented with 1.0 mg/L NAA all the separated shoots formed normal roots to develop into plantlets. The morphological and histological analyses of BLBs at different development stages revealed that BLB was a special kind of SE structure originated from cortex cells of peanut cotyledon explants, and each individual BLB was composed of multiple embryoids further developing into multiple shoots. To our knowledge, BLB is a novel type of SE structure in peanut different from the known SE structures because of its special shape, induction conditions, somatic embryogenic nature, and multiple-embryoid characteristics.

分类号: Q942

  • 相关文献

[1]Plant regeneration via somatic embryogenesis from root explants of Hevea brasiliensis. Zhou, Quan-Nan,Huang, Tian-Dai,Li, Wei-Guo,Sun, Ai-Hua,Dai, Xue-Mei,Li, Zhe,Jiang, Ze-Hai. 2010

[2]Plantlet Regeneration of Tartary Buckwheat (Fagopyrum tataricum Gaertn.) in Vitro Tissue Cultures. Wang, Cheng-Long,Dong, Xue-ni,Ding, Meng-qi,Shao, Ji-Rong,Wang, Cheng-Long,Dong, Xue-ni,Ding, Meng-qi,Tang, Yi-Xiong,Wu, Yan-Min,Zhou, Mei-Liang,Zhu, Xue-Mei.

[3]THE EFFECTS OF 2IP AND 2,4-D ON RICE CALLI DIFFERENTIATION. Zhu, YX,Ouyang, WJ,Li, Y,Chen, ZL.

[4]High-efficiency regeneration of peanut (Arachis hypogaea L.) plants from leaf discs. Geng, Lili,Niu, Lihong,Shu, Changlong,Song, Fuping,Zhang, Jie,Huang, Dafang. 2011

[5]ELEVATED ENDOGENOUS ISOPENTENYL ADENINE CONTENT IS CORRELATED WITH AN EXTREMELY SHOOTY RICE PHENOTYPE. ZHU, YX,QIN, RZ,SHAN, XY,CHEN, ZL.

[6]Differential gene expression of cotton cultivar CCRI24 during somatic embryogenesis. Xiuming Wu,Fuguang Li#2;,Chaojun Zhang,Chuanliang Liu,Xueyan Zhang.

[7]Construction of a high-density linkage map and mapping quantitative trait loci for somatic embryogenesis using leaf petioles as explants in upland cotton (Gossypium hirsutum L.). Zhenzhen Xu,Chaojun Zhang,Xiaoyang Ge,Ni Wang,Kehai Zhou,Xiaojie Yang,Zhixia Wu,Xueyan Zhang,Chuanliang Liu,Zuoren Yang,Changfeng Li,Kun Liu,Zhaoen Yang,Yuyuan Qian,Fuguang Li.

[8]Effects of kanamycin on tissue culture and somatic embryogenesis in cotton. Bao-Hong Zhang,Fang Liu,Zhi-Hong Liu,Hong-Mei Wang,Chang-Bing Yao.

[9]Plant regeneration via somatic embryogenesis in cotton. Bao-Hong Zhang,Fang Liu,Chang-Bing Yao. 2000

[10]Highly efficient plant regeneration through somatic embryogenesis in 20 elite commercial cotton (Gossypium hirsutum L.) cultivars. Baohong Zhang,Qinglian Wang,Fang Liu,Kunbo Wang,Taylor P. Frazier. 2009

[11]Histological changes and differences in activities of some antioxidant enzymes and hydrogen peroxide content during somatic embryogenesis of Musa AAA cv. Yueyoukang 1. Jiang, Shuang,Chen, Houbin,Xu, Chunxiang,Xie, Lijun,Li, Huaping,Lin, Guimei,Takac, Tomas,Samaj, Jozef,Samaj, Jozef. 2012

[12]Three MADS-box genes of Hevea brasiliensis expressed during somatic embryogenesis and in the laticifer cells. Li, Hui-Liang,Wang, Ying,Guo, Dong,Peng, Shi-Qing,Tian, Wei-Min. 2011

[13]Changes in H2O2 content and antioxidant enzyme gene expression during the somatic embryogenesis of Larix leptolepis. Zhang, Shou-gong,Yang, Wen-hua,Wei, Hua-li,Qi, Li-wang,Han, Su-ying,Zhang, Ming. 2010

[14]Agrobacterium tumefaciens-mediated transformation of poinsettia, Euphorbia pulcherrima, with virus-derived hairpin RNA constructs confers resistance to Poinsettia mosaic virus. Clarke, Jihong Liu,Spetz, Carl,Haugslien, Sissel,Xing, Shaochen,Dees, Merete W.,Blystad, Dag-Ragnar,Xing, Shaochen,Dees, Merete W.,Moe, Roar. 2008

[15]Improvement of Agrobacterium-mediated transformation efficiency and transgenic plant regeneration of Vitis vinifera L. by optimizing selection regimes and utilizing cryopreserved cell suspensions. Li, P,Hanania, U,Sahar, N,Mawassi, M,Gafny, R,Sela, I,Tanne, E,Perl, A.

[16]Efficient somatic embryogenesis in sugar beet (Beta vulgaris L.) breeding lines. Zhang, Chun-Lai,Chen, Dong-Fang,Kubalakova, Marie,Zhang, Jian,Scott, Nigel W.,Elliott, Malcolm C.,Slater, Adrian,Zhang, Chun-Lai,Chen, Dong-Fang,Kubalakova, Marie,Zhang, Jian.

[17]Transcriptome profiling and digital gene expression by deep sequencing in early somatic embryogenesis of endangered medicinal Eleutherococcus senticosus Maxim.. Tao, Lei,Zhao, Yue,Wu, Ying,Wang, Qiuyu,You, Xiangling,Yuan, Hongmei,Zhao, Lijuan,Guo, Wendong.

[18]Transcriptome Profiling Reveals Auxin and Cytokinin Regulating Somatic Embryogenesis in Different Sister Lines of Cotton Cultivar CCRI24. Xu Zhenzhen. 2013

[19]Phenotypic variation in cotton (Gossypium hirsutum L.) regenerated plants. Bao-Hong Zhang,Qing-Lian W ang,Fang Liu.

[20]Application of Somatic Embryogenesis in Woody Plants. Guan, Yuan,Li, Shui-Gen,Fan, Xiao-Fen,Su, Zhen-Hong. 2016

作者其他论文 更多>>

微信小程序