浙江省农业科学院机构知识库

Sugar Input, Metabolism, and Signaling Mediated by Invertase: Roles in Development, Yield Potential, and Response to Drought and Heat

收藏
分享
全文链接

文献类型：外文期刊

作者： Ruan, Yong-Ling ¹ ; Jin, Ye ² ; Yang, Yue-Jian ⁴ ; Li, Guo-Jing ⁴ ; Boyer, John S. ⁵ ;

作者机构： 1.Univ Newcastle, Sch Environm & Life Sci, Callaghan, NSW 2308, Australia

2.Univ Newcastle, Australia China Res Ctr Crop Improvement, Callaghan, NSW 2308, Australia

3.Cent China Normal Univ, Coll Life Sci, Wuhan 430079, Peoples R China

4.Zhejiang Acad Agr Sci, China Australia Res Ctr Crop Improvement, Hangzhou 310021, Zhejiang, Peoples R China

5.Univ Delaware, Coll Earth Ocean & Environm, Lewes, DE 19958 USA

6.Univ Delaware, Coll Agr & Nat Resources, Lewes, DE 19958 USA

关键词： Crop yield;drought;heat stress;invertase;reproductive development;seed and fruit set;sugar metabolism;sugar signaling

期刊名称：MOLECULAR PLANT （影响因子：13.164；五年影响因子：16.357 ）

ISSN： 1674-2052

年卷期： 2010 年 3 卷 6 期

页码：

收录情况： SCI

摘要： Invertase (INV) hydrolyzes sucrose into glucose and fructose, thereby playing key roles in primary metabolism and plant development. Based on their pH optima and sub-cellular locations, INVs are categorized into cell wall, cytoplasmic, and vacuolar subgroups, abbreviated as CWIN, CIN, and VIN, respectively. The broad importance and implications of INVs in plant development and crop productivity have attracted enormous interest to examine INV function and regulation from multiple perspectives. Here, we review some exciting advances in this area over the last two decades, focusing on (1) new or emerging roles of INV in plant development and regulation at the post-translational level through interaction with inhibitors, (2) cross-talk between INV-mediated sugar signaling and hormonal control of development, and (3) sugar- and INV-mediated responses to drought and heat stresses and their impact on seed and fruit set. Finally, we discuss major questions arising from this new progress and outline future directions for unraveling mechanisms underlying INV-mediated plant development and their potential applications in plant biotechnology and agriculture.

相关文献

[1]High invertase activity in tomato reproductive organs correlates with enhanced sucrose import into, and heat tolerance of, young fruit. Li, Zhimiao,Wang, Rongqing,Yang, Yuejian,Li, Zhimiao,Palmer, William M.,Martin, Antony P.,Wang, Rongqing,Rainsford, Frederick,Jin, Ye,Patrick, John W.,Yang, Yuejian,Ruan, Yong-Ling,Palmer, William M.,Martin, Antony P.,Rainsford, Frederick,Patrick, John W.,Ruan, Yong-Ling,Jin, Ye.

[2]Arbuscular mycorrhiza, rhizospheric microbe populations and soil enzyme activities in citrus orchards under two types of no-tillage soil management. Zhang, J. J.,Xia, R. X.,Shu, B.,Wang, P.,Wang, M. Y.,Wu, Q. S.,Dong, T.. 2011

[3]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.

[4]Genotypic differences in pod wall and seed growth relate to invertase activities and assimilate transport pathways in asparagus bean. Liu, Yong-Hua,Li, Guo-Jing,Wu, Xiao-Hua,Wang, Bao-Gen,Xu, Pei,Hu, Ting-Ting,Lu, Zhong-Fu,Liu, Yong-Hua,Cao, Jia-Shu,Patrick, John W.,Ruan, Yong-Ling.

[5]Long-Term Fertilizer Experiment Network in China: Crop Yields and Soil Nutrient Trends. Poulton, Paul,Powlson, David,Todd, Alan,Payne, Roger,Zhao, Bing-qiang,Li, Xiu-ying,Li, Xiao-ping,Shi, Xiao-jun,Huang, Shao-min,Wang, Bo-ren,Zhu, Ping,Yang, Xue-yun,Liu, Hua,Chen, Yi.

[6]Long-term effects of lime application on soil acidity and crop yields on a red soil in Central Zhejiang. Meng, CF,Lu, XN,Cao, ZH,Hu, ZY,Ma, WZ. 2004

[7]Impacts of biochar addition on rice yield and soil properties in a cold waterlogged paddy for two crop seasons. Liu, Yuxue,Lu, Haohao,Yang, Shengmao,Wang, Yaofeng,Liu, Yuxue,Lu, Haohao,Yang, Shengmao.

[8]Natural variation and gene regulatory basis for the responses of asparagus beans to soil drought. Xu, Pei,Wu, XiaoHua,Wang, BaoGen,Wu, Xinyi,Lu, Zhongfu,Li, Guojing,Xu, Pei,Li, Guojing,Moshelion, Menachem,Halperin, Ofer,Wallach, Rony,Luo, Jie. 2015

[9]Genome-wide identification and analysis of heat shock transcription factor family in cucumber (Cucumis sativus L.). Zhou, Shengjun,Zhang, Peng,Jing, Zange,Shi, Jianlei. 2013

[10]Phenotype analysis of mycelium growth regeneration after heat stress in a Lentinula edodes F-2 population. Shen, Yingyue,Cai, Weiming,Jin, Qunli,Feng, Weilin,Fan, Lijun,Song, Tingting,Li, Liangying,Zhou, Shuohong.

[11]Characterization of physiological response and identification of associated genes under heat stress in rice seedlings. Jiang, Hua,Sun, Guo-Chang,Xue, Da-Wei,Zhang, Xiao-Qin,Qian, Qian,Hu, Jiang,Guo, Long-Biao,Zeng, Da-Li,Dong, Guo-Jun,Qian, Qian.

[12]Effects of temperature and host stage on the parasitization rate and offspring sex ratio of Aenasius bambawalei Hayat in Phenacoccus solenopsis Tinsley. Zhang, Juan,Huang, Jun,Xia, Tianfeng,Huang, Jun,Lu, Yaobin. 2016

[13]Co-overexpressing a Plasma Membrane and a Vacuolar Membrane Sodium/Proton Antiporter Significantly Improves Salt Tolerance in Transgenic Arabidopsis Plants. Pehlivan, Necla,Sun, Li,Jarrett, Philip,Mishra, Neelam,Zhang, Hong,Yang, Xiaojie,Chen, Lin,Shen, Guoxin,Kadioglu, Asim.

[14]De novo assembly and characterization of Muscovy duck liver transcriptome and analysis of differentially regulated genes in response to heat stress. Zeng, Tao,Zhang, Liping,Li, Jinjun,Wang, Deqian,Tian, Yong,Lu, Lizhi,Zhang, Liping.

[15]A calcium-binding protein, rice annexin OsANN1, enhances heat stress tolerance by modulating the production of H2O2. Qiao, Bei,Zhang, Qian,Liu, Dongliang,Wang, Haiqi,Yin, Jingya,Wang, Rui,He, Mengli,Cui, Meng,Shang, Zhonglin,Zhu, Zhengge,Wang, Dekai.

[16]Overexpression of the Rice SUMO E3 Ligase Gene OsSIZ1 in Cotton Enhances Drought and Heat Tolerance, and Substantially Improves Fiber Yields in the Field under Reduced Irrigation and Rainfed Conditions. Mishra, Neelam,Sun, Li,Zhu, Xunlu,Smith, Jennifer,Esmaeili, Nardana,Zhang, Hong,Srivastava, Anurag Prakash,Yang, Xiaojie,Pehlivan, Necla,Luo, Hong,Shen, Guoxin,Jones, Don,Auld, Dick,Burke, John,Payton, Paxton.

[17]Functional characterization of AtHsp90.3 in Saccharomyces cerevisiae and Arabidopsis thaliana under heat stress. Xu, Xiangbin,Song, Hongmiao,Zhou, Zhenhua,Shi, Nongnong,Ying, Qicai,Wang, Huizhong,Song, Hongmiao.

作者其他论文更多>>

Evolution of cytosolic and organellar invertases empowered the colonization and thriving of land plants

作者：Wan, Hongjian;Zhou, Guozhi;Pan, Luzhao;Zhang, Youjun;Fernie, Alisdair R.;Zhang, Youjun;Fernie, Alisdair R.;Wu, Limin;Ruan, Yong-Ling;Ruan, Yong-Ling;Ruan, Yong-Ling

关键词：
Evolution of Sucrose Metabolism: The Dichotomy of Invertases and Beyond

作者：Wan, Hongjian;Yang, Yuejian;Zhou, Guozhi;Wan, Hongjian;Yang, Yuejian;Zhou, Guozhi;Wan, Hongjian;Wu, Limin;Ruan, Yong-Ling;Ruan, Yong-Ling

关键词：
A simple, rapid, and reliable protocol to localize hydrogen peroxide in large plant organs by DAB-mediated tissue printing

作者：Liu, Yong-Hua;Offler, Christina E.;Ruan, Yong-Ling;Liu, Yong-Hua;Offler, Christina E.;Ruan, Yong-Ling;Liu, Yong-Hua

关键词：fruits and stems;hydrogen peroxide;localization;tissue printing;reactive oxygen species
Regulation of fruit and seed response to heat and drought by sugars as nutrients and signals

作者：Liu, Yong-Hua;Offler, Christina E.;Ruan, Yong-Ling;Liu, Yong-Hua

关键词：sugar metabolism and signaling;fruit and seed set;heat and drought;cell division;hormones;programmed cell death;reactive oxygen species;non-enzymic antioxidant
Genotypic differences in pod wall and seed growth relate to invertase activities and assimilate transport pathways in asparagus bean

作者：Liu, Yong-Hua;Li, Guo-Jing;Wu, Xiao-Hua;Wang, Bao-Gen;Xu, Pei;Hu, Ting-Ting;Lu, Zhong-Fu;Liu, Yong-Hua;Cao, Jia-Shu;Patrick, John W.;Ruan, Yong-Ling

关键词：Asparagus bean;Vigna unguiculata ssp. sesquipedialis;fruit;invertase;phloem unloading;seed;sucrose metabolism
Cell Wall Invertase Promotes Fruit Set under Heat Stress by Suppressing ROS-Independent Cell Death

作者：Liu, Yong-Hua;Offler, Christina E.;Ruan, Yong-Ling;Liu, Yong-Hua;Offler, Christina E.;Ruan, Yong-Ling;Liu, Yong-Hua;Liu, Yong-Hua

关键词：
High invertase activity in tomato reproductive organs correlates with enhanced sucrose import into, and heat tolerance of, young fruit

作者：Li, Zhimiao;Wang, Rongqing;Yang, Yuejian;Li, Zhimiao;Palmer, William M.;Martin, Antony P.;Wang, Rongqing;Rainsford, Frederick;Jin, Ye;Patrick, John W.;Yang, Yuejian;Ruan, Yong-Ling;Palmer, William M.;Martin, Antony P.;Rainsford, Frederick;Patrick, John W.;Ruan, Yong-Ling;Jin, Ye

关键词：Biomass partitioning;fruit-set;heat stress;invertase;programmed cell death;Solanum lycopersicum L. (tomato);sucrose import;sugar singalling

Sugar Input, Metabolism, and Signaling Mediated by Invertase: Roles in Development, Yield Potential, and Response to Drought and Heat

作者其他论文 更多>>

Evolution of cytosolic and organellar invertases empowered the colonization and thriving of land plants

Evolution of Sucrose Metabolism: The Dichotomy of Invertases and Beyond

A simple, rapid, and reliable protocol to localize hydrogen peroxide in large plant organs by DAB-mediated tissue printing

Regulation of fruit and seed response to heat and drought by sugars as nutrients and signals

Genotypic differences in pod wall and seed growth relate to invertase activities and assimilate transport pathways in asparagus bean

Cell Wall Invertase Promotes Fruit Set under Heat Stress by Suppressing ROS-Independent Cell Death

High invertase activity in tomato reproductive organs correlates with enhanced sucrose import into, and heat tolerance of, young fruit

意 见 箱

作者其他论文更多>>

意见箱