浙江省农业科学院机构知识库

Morphological, Physiological and Proteomic Analyses Provide Insights into the Improvement of Castor Bean Productivity of a Dwarf Variety in Comparing with a High-Stalk Variety

收藏
分享
全文链接

文献类型：外文期刊

作者： Hu, Wenjun ¹ ; Chen, Lin ¹ ; Qiu, Xiaoyun ¹ ; Lu, Hongling ¹ ; Wei, Jia ¹ ; Bai, Yueding ¹ ; He, Ningjia ² ; Hu, Rongbin; ¹ ;

作者机构： 1.Zhejiang Acad Agr Sci, Hangzhou, Zhejiang, Peoples R China

2.Southwest Univ, State Key Lab Silkworm Genome Biol, Chongqing, Peoples R China

3.Texas Tech Univ, Dept Biol Sci, Lubbock, TX 79409 USA

关键词： Ricinus communis;castor bean productivity;agriculture;photosynthesis;plant proteomics

期刊名称：FRONTIERS IN PLANT SCIENCE （影响因子：5.753；五年影响因子：6.612 ）

ISSN： 1664-462X

年卷期： 2016 年 7 卷

页码：

收录情况： SCI

摘要： Ricinus communis displays a broad range of phenotypic diversity in size, with dwarf, common, and large-sized varieties. To better understand the differences in plant productivity between a high-stalk variety and a dwarf variety under normal growth conditions, we carried out a comparative proteomic study between Zhebi 100 (a high stalk variety) and Zhebi 26 (a dwarf variety) combined with agronomic and physiological analyses. Over 1000 proteins were detected, 38 of which differed significantly between the two varieties and were identified by mass spectrometry. Compared with Zhebi 100, we found that photosynthesis, energy, and protein biosynthesis related proteins decreased in abundance in Zhebi 26. The lower yield of the dwarf castor is likely related to its lower photosynthetic rate, therefore we hypothesize that the lower yield of the dwarf castor, in comparing to high stalk castor, could be increased by increasing planting density. Consequently, we demonstrated that at the higher planting density in Zhebi 26 (36,000 seedlings/hm(2)) can achieve a higher yield than that of Zhebi 100 (12,000 seedlings/hm(2)). Proteomic and physiological studies showed that for developing dwarf R. communis cultivar that is suitable for large scale-production (i.e., mechanical harvesting), it is imperative to identify the optimum planting density that will contribute to higher leaf area index, higher photosynthesis, and eventually higher productivity.

相关文献

[1]Proteomic dissection of plant responses to various pathogens. Fang, Xianping,Chen, Jianping,Dai, Liangying,Fang, Xianping,Chen, Jianping,Dai, Liangying,Fang, Xianping,Chen, Jianping,Zhang, Hengmu,Yang, Jian,Yan, Chengqi,Fang, Xianping,Ma, Huasheng,Wang, Fang.

[2]Monitoring Leaf Chlorophyll Fluorescence with Spectral Reflectance in Rice (Oryza sativa L.). Hao Zhang,Lian-feng Zhu,Hao Hu,Ke-feng Zheng,Qian-yu Jin. 2011

[3]Antibacterial Mechanism of Chitosan and its Applications in Protection of Plant from Bacterial Disease. Li, B.,Shan, C. L.,Ge, M. Y.,Wang, L.,Xie, G. L.,Fang, Y.,Wang, Y. L.,Sun, G. C..

[4]Multiseason Recoveries of Organic and Inorganic Nitrogen-15 in Tropical Cropping Systems. van Kessel, C.,Dourado Neto, D.,Basanta, M. V.,Powlson, D.,Abu Bakar, R.,Bacchi, O. O. S.,Reichardt, K.,Cong, P. Thi,Keerthisinghe, G.,Ismaili, M.,Rahman, S. M.,Safwat, M. S. A.,Sangakkara, R.,Timm, L. C.,Wang, J. Y.,Zagal, E..

[5]Monitoring Leaf Chlorophyll Fluorescence with Spectral Reflectance in Rice (Oryza sativa L.). Zhang, Hao,Zhu, Lian-feng,Jin, Qian-yu,Zhang, Hao,Hu, Hao,Zheng, Ke-feng. 2011

[6]Detecting Suaeda salsa L. chlorophyll fluorescence response to salinity stress by using hyperspectral reflectance. Zhang, Hao,Wang, Kelin,Song, Tongqing,Zhang, Hao,Wang, Kelin,Zeng, Fuping,Hu, Hao,Zhang, Xiaobin. 2012

[7]Morphological, anatomical, and physiological characteristics involved in development of the large culm trait in rice. Wu, Li-Li,Chen, Kun-Ming,Liu, Zhong-Li,Zhou, Cong-Yi,Wang, Jun-Min. 2011

[8]Characterization of transgenic cotton (Gossypium hirsutum L.) over-expressing Arabidopsis thaliana Related to ABA-insensitive3(ABI3)/Vivparous1 (AtRAV1) and AtABI5 transcription factors: improved water use efficiency through altered guard cell physiology. Fiene, Justin G.,Kalns, Lauren,Sword, Gregory A.,Mallick, Sayani,Mittal, Amandeep,Rock, Christopher D.,Nansen, Christian,Nansen, Christian,Dever, Jane.

[9]Leaf mesophyll K+, H+ and Ca2+ fluxes are involved in drought-induced decrease in photosynthesis and stomatal closure in soybean. Mak, Michelle,Babla, Mohammad,O'Carrigan, Andrew,Liu, Xiao-Hui,Holford, Paul,Chen, Zhong-Hua,Xu, Sheng-Chun,Gong, Ya-Ming,Liu, Xiao-Hui. 2014

[10]Modulation of Exogenous Glutathione in Ultrastructure and Photosynthetic Performance Against Cd Stress in the Two Barley Genotypes Differing in Cd Tolerance. Wang, Fang,Chen, Fei,Cai, Yue,Zhang, Guoping,Wu, Feibo,Chen, Fei. 2011

[11]Root restriction-induced limitation to photosynthesis in tomato (Lycopersicon esculentum Mill.) leaves. Shi, Kai,Ding, Xiao-Tao,Zhou, Yan-Hong,Yu, Jing-Quan,Yu, Jing-Quan,Dong, De-Kun. 2008

[12]BnWRI1 coordinates fatty acid biosynthesis and photosynthesis pathways during oil accumulation in rapeseed. Wu, Xue-Long,Liu, Zhi-Hong,Hu, Zhang-Hua,Huang, Rui-Zhi. 2014

[13]Global analysis of lysine acetylation in strawberry leaves. Fang, Xianping,Chen, Wenyue,Ruan, Songlin,Ma, Huasheng,Zhao, Yun,Zhang, Hengmu,Yan, Chengqi,Jin, Liang,Cao, Lingling,Zhu, Jun,Cheng, Zhongyi. 2015

[14]Mass-density relationship changes along salinity gradient in Suaeda salsa L.. Zhang, Hao,Zheng, Kefeng,Wang, Genxuan,Zhang, Weiping.

[15]Decreased energy synthesis is partially compensated by a switch to sucrose synthase pathway of sucrose degradation in restricted root of tomato plants. Shi, Kai,Fu, Li-Jun,Zhou, Yan-Hong,Yu, Jing-Quan,Yu, Jing-Quan,Dong, De-Kun.

[16]Expression of an Arabidopsis sodium/proton antiporter gene (AtNHX1) in peanut to improve salt tolerance. Banjara, Manoj,Zhang, Hong,Zhu, Longfu,Shen, Guoxin,Payton, Paxton.

[17]An expressed sequence tags analysis for leaves of Chinese milk vetch (Astragalus sinicus). Zhang, X.,Wang, J.,Cao, K.,Xu, C.,Cao, W..

作者其他论文更多>>

Genome Wide Identification, Expression Profiles and Regulatory Network Analysis of SOS Group of Genes in Camellia Sinensis

作者：Li, Wang;Lin, Chen;Shen, Guoxin;Bhattacharjee, Surjit;Mishra, Neelam

关键词：C. sinensis; SOS; Cis-acting elements; Expression pattern; Abiotic stress
Tea aroma retention strategies using tea polysaccharide conjugates: Insights from the yellowing process

作者：Xu, Anan;Tao, Meng;Tu, Zheng;Wang, Shanshan;Cao, Yanyan;Liu, Zhengquan;Chen, Lin

关键词：Tea aroma; Yellowing treatment; Tea polysaccharide conjugates; Interaction
Insights into the quality and safety control of traditional Chinese fermented sausages via dynamic profiling of the microbiota and metabolome

作者：Liu, Peiyun;Xu, Chunlan;Liu, Peiyun;Zhang, Hong;Li, Huanhuan;Tang, Honggang;Chen, Lihong;Zhao, Ke;Ma, Xiaozhong;Ge, Shengyuan

关键词：Traditional fermented sausage; Ripening time; Microbes; Metabolites; Food safety
Genome-wide identification of PP2A gene family in Camellia sinensis reveals the potential role of CsPP2A-TON2/FASS1 in abiotic stress

作者：Bhattacharjee, Surjit;Mishra, Neelam;Miao, Ye;Lu, Honglin;Shen, Guoxin

关键词：Protein phosphatases; Genome-wide search; qRT-PCR; Stress-responsiveness; C. sinensis.; Drought stress; Salt stress; PP2A gene family
Exploration and molecular mechanism of novel ACE inhibitory peptides from goat milk protein: A combined in silico and in vitro study

作者：Zhu, Ruikai;Wu, Yulong;Xu, Xianrong;Zhu, Ruikai;Zhang, Hong;Wu, Yulong;Li, Huanhuan;Tang, Honggang;Zhao, Ke;Zhang, Hong

关键词：Goat milk protein; ACE inhibitory peptide; Enzymatic hydrolysis; Virtual screening; Molecular docking
Genome-wide identification reveals a bZIP transcription factor modulating chlorophyll catabolism during leaf yellowing in harvested Chinese flowering cabbage

作者：Zeng, Ze-xiang;Rong, Yuan;Chen, Lin;Wei, Wei;Shan, Wei;Kuang, Jian-fei;Lu, Wang-jin;Chen, Jian-ye;Fan, Zhong-qi;Su, Xin-guo;Han, Yan-chao;Chen, Hang-jun

关键词：WGCNA; Leaf senescence; Transcriptional regulation; 6-BA
Facilitating Phloem-Mediated Iron Transport Can Improve the Adaptation of Rice Seedlings to Iron Deficiency Stress

作者：Lin, Yan;Liu, Bingjie;Li, Ganghua;Liu, Zhenghui;Ding, Yanfeng;Chen, Lin;Lin, Yan;Liu, Bingjie;Li, Ganghua;Liu, Zhenghui;Ding, Yanfeng;Chen, Lin;Li, Ganghua;Liu, Zhenghui;Ding, Yanfeng;Chen, Lin;Hu, Yuxiang

关键词：Rice (Oryza Sativa L.); Iron Deficiency; Phloem; Iron transport; Plant hormone signal transduction

Morphological, Physiological and Proteomic Analyses Provide Insights into the Improvement of Castor Bean Productivity of a Dwarf Variety in Comparing with a High-Stalk Variety

作者其他论文 更多>>

Genome Wide Identification, Expression Profiles and Regulatory Network Analysis of SOS Group of Genes in Camellia Sinensis

Tea aroma retention strategies using tea polysaccharide conjugates: Insights from the yellowing process

Insights into the quality and safety control of traditional Chinese fermented sausages via dynamic profiling of the microbiota and metabolome

Genome-wide identification of PP2A gene family in Camellia sinensis reveals the potential role of CsPP2A-TON2/FASS1 in abiotic stress

Exploration and molecular mechanism of novel ACE inhibitory peptides from goat milk protein: A combined in silico and in vitro study

Genome-wide identification reveals a bZIP transcription factor modulating chlorophyll catabolism during leaf yellowing in harvested Chinese flowering cabbage

Facilitating Phloem-Mediated Iron Transport Can Improve the Adaptation of Rice Seedlings to Iron Deficiency Stress

意 见 箱

作者其他论文更多>>

意见箱