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Molecular mechanisms of salinity tolerance in rice

Tianxiao Chen  Sergey Shabala  Yanan Niu  Zhong-Hua Chen  Lana Shabala  Holger Meinke  Gayatri Venkataraman  Ashwani Pareek  Jianlong Xu  Meixue Zhou  
【摘要】:Salinity is one of the major abiotic stresses which impose constraints to plant growth and production.Rice(Oryza sativa L.) is one of the most important staple food crops and a model monocot plant. Its production is expanding into regions that are affected by soil salinity, requiring cultivars more tolerant to saline conditions. Understanding the molecular mechanisms of such tolerance could lay a foundation for varietal improvement of salt tolerance in rice. In spite of extensive studies exploring the mechanism of salt tolerance, there has been limited progress in breeding for increased salinity tolerance. In this review, we summarize the information about the major molecular mechanisms underlying salinity tolerance in rice and further discuss the limitations in breeding for salinity tolerance. We show that numerous gene families and interaction networks are involved in the regulation of rice responses to salinity,prompting a need for a comprehensive functional analysis. We also show that most studies are based on whole-plant level analyses with only a few reports focused on tissue-and/or cell-specific gene expression. More details of salt-responsive channel and transporter activities at tissue-and cell-specific level still need to be documented before these traits can be incorporated into elite rice germplasm. Thus, future studies should focus on diversity of available genetic resources and, particular, wild rice relatives, to reincorporate salinity tolerance traits lost during domestication.

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1 Masoud NOSHADI;Saghar FAHandEJ-SAADI;Ali R SEPASKHAH;;Application of SALTMED and HYDRUS-1D models for simulations of soil water content and soil salinity in controlled groundwater depth[J];Journal of Arid Land;2020年03期
2 Honghong Wu;Min Zhu;Lana Shabala;Meixue Zhou;Sergey Shabala;;K~+ retention in leaf mesophyll, an overlooked component of salinity tolerance mechanism:A case study for barley[J];Journal of Integrative Plant Biology;2015年02期
3 Reza M.Emon;Mirza M.Islam;Jyotirmoy Halder;Yeyang Fan;;Genetic diversity and association mapping for salinity tolerance in Bangladeshi rice landraces[J];The Crop Journal;2015年05期
4 刘勇;线薇薇;孙世春;;Metabolism of polychaete Neanthes japonica Izuka: relations to temperature,salinity and body weight[J];Chinese Journal of Oceanology and Limnology;2009年02期
5 N.HUSSAIN,A.ALI,G.SARWAR,F.MUJEEB,M.TAHIR;Mechanism of Salt Tolerance in Rice[J];Pedosphere;2003年03期
6 Sheidollah KAZEMI;Hamid Reza ESHGHIZADEH;Morteza ZAHEDI;;Responses of Four Rice Varieties to Elevated CO_2 and Different Salinity Levels[J];Rice Science;2018年03期
7 ZENG Wen-Zhi;XU Chi;WU Jing-Wei;HUANG Jie-Sheng;ZHAO Qiang;WU Mou-Song;;Impacts of Salinity and Nitrogen on the Photosynthetic Rate and Growth of Sunflowers(Helianthus annuus L.)[J];Pedosphere;2014年05期
8 LIU Ling;CHEN Jin;TAN Yanning;ZHOU Tianshun;OUYANG Ning;ZENG Jia;YUAN Dingyang;DUAN Meijuan;;Increasing Fatty Acids in Rice Root Improves Silence of Rice Seedling to Salt Stress[J];Rice Science;2019年06期
9 HUANG Rui-dong;;Research progress on plant tolerance to soil salinity and alkalinity in sorghum[J];Journal of Integrative Agriculture;2018年04期
10 Salima Yousfi;Antonio J.Márquez;Marco Betti;José Luis Araus;Maria Dolores Serret;;Gene expression and physiological responses to salinity and water stress of contrasting durum wheat genotypes[J];Journal of Integrative Plant Biology;2016年01期
11 ;Differential Expression of Salinity Resistance Gene on Cotton[J];棉花学报;2008年S1期
12 ;Expression and responses to dehydration and salinity stresses of V-PPase gene members in wheat[J];遗传学报;2009年12期
13 MIN Wei;GUO Hui-juan;ZHANG Wen;ZHOU Guang-wei;MA Li-juan;YE Jun;HOU Zhen-an;;Irrigation water salinity and N fertilization:Effects on ammonia oxidizer abundance, enzyme activity and cotton growth in a drip irrigated cotton field[J];Journal of Integrative Agriculture;2016年05期
14 TONG Wen-jie;CHEN Xiao-li;WEN Xin-ya;CHEN Fu;ZHANG Hai-lin;CHU Qing-quan;Shadrack Batsile Dikgwatlhe;;Applying a salinity response function and zoning saline land for three fi eld crops: a case study in the Hetao Irrigation District, Inner Mongolia, China[J];Journal of Integrative Agriculture;2015年01期
15 Md. Nasim ALI;Bhaswati GHOSH;Saikat GANTAIT;Somsubhra CHAKRABORTY;;Selection of Rice Genotypes for Salinity Tolerance Through Morpho-Biochemical Assessment[J];Rice Science;2014年05期
16 Surya P. Bhattarai;David J. Midmore;;Oxygation Enhances Growth,Gas Exchange and Salt Tolerance of Vegetable Soybean and Cotton in a Saline Vertisol[J];Journal of Integrative Plant Biology;2009年07期
17 ;Interaction of salinity and cadmium stresses on mineral nutrients, sodium, and cadmium accumulation in four barley genotypes[J];Journal of Zhejiang University(Science B:An International Biomedicine & Biotechnology Journal);2007年07期
18 P.SUREKHA RAO;B.MISHRA;S.R.GUPTA;;Effects of Soil Salinity and Alkalinity on Grain Quality of Tolerant,Semi-Tolerant and Sensitive Rice Genotypes[J];Rice Science;2013年04期
19 ;Heme Oxygenase-1 is Associated with Wheat Salinity Acclimation by Modulating Reactive Oxygen Species Homeostasis[J];Journal of Integrative Plant Biology;2011年08期
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1 Yanning Wang;Mengmeng Yang;Guangliang Wu;Jingai Tan;Peng Wang;Xiangyu Zhang;Caijin Li;Qin Cheng;Haohua He;Jianmin Bian;;Localization of salt-tolerant QTL in rice germination stage under different salinity concentrations[A];江西省作物学会2020年学术年会论文摘要集[C];2020年
2 Tan Longyan;Zhao Qi;Qiu Lili;Dai Shaojun;;Physiological and proteomic analysis of salinity tolerance in germinating seeds from Brassica napus[A];生态文明建设中的植物学:现在与未来——中国植物学会第十五届会员代表大会暨八十周年学术年会论文集——第3分会场:植物分子生物学与基因组学[C];2013年
3 ;Proteome analysis of kenaf seedlings under salt stress[A];遗传学进步促进粮食安全与人口健康高峰论坛论文集[C];2012年
4 ;Proteome analysis of kenaf seedlings under salt stress[A];2012年中国作物学会学术年会论文摘要集[C];2012年
6 周桂生;Shiyuan Lu;Nimir Nimir;Fuyan Zhai;;Ameliorating Effects of Calcium Addition on Emergence and Early Seedling Growth of Castor Bean Plants under Saline Conditions[A];2014年全国青年作物栽培与生理学术研讨会论文集[C];2014年
7 Peisen Su;Jun Yan;Liang Wang;Wen Li;Jinxiao Zhao;Xin Ma;Anfei Li;Hongwei Wang;Lingrang Kong;;A wheat Peroxidase Gene TaPRX mediates the defence responses to drought and salinity stresses in transgenic wheat[A];第十届全国小麦基因组学及分子育种大会摘要集[C];2019年
8 ;Identification and functional characterization of CBL and CIPK genes in Canola(Brassica napus L.)[A];第十三届全国植物基因组学大会论文集[C];2012年
9 ;Identification of Alleles of HvCBF Genes and Changes of Metabolism Responding to Salinity in Tibetan Annual Wild Barley[A];中国作物学会50周年庆祝会暨2011年学术年会论文集[C];2011年
10 Lu Huang;Guoping Zhang;;Complex Molecular Mechanisms Underlying Salt Tolerance in Sea Barley Revealed by Comparative Transcriptome and Metabolomic Profiling[A];2017年中国作物学会学术年会摘要集[C];2017年
11 Qiao ling Luo;Qi Zheng;Bin Li;Hongwei Li;Fangpu Han;Zhensheng Li;;RNA-seq Analysis Reveals JAs Related Pathways Associate with Salinity Tolerance in Wheat[A];第八届全国小麦基因组学及分子育种大会摘要集[C];2017年
12 Zhilei Jiang;Yu Jiang;Yanzhi Liu;Fengxue Jin;李毅丹;;Genetic variation of ZmHKT1 and its association with salinity tolerance in maize[A];第一届全国玉米生物学学术研讨会论文汇编[C];2015年
13 Liangbo Fu;;Molecular mechanisms underlying salt tolerance differences in barley and rice revealed by multi-omics analysis[A];2017年中国作物学会学术年会摘要集[C];2017年
14 ;Proteome Analysis of NaCl Stress-Responsive Apoplastic Proteins in Rice Shoot by 2-D DIGE[A];中国植物生理学会第十次会员代表大会暨全国学术年会论文摘要汇编[C];2009年
15 ;Exploitation of germplasm and elite alleles associated with salinity tolerance in Tibetan wild barley[A];2009年中国作物学会学术年会论文摘要集[C];2009年
16 张茂林;Xiangpei Kong;Cuiling Li;Zhaojun Ding;;The maize primary,crown and seminal roots have differential growth patterns in response to aluminium and salinity stress[A];第一届全国玉米生物学学术研讨会论文汇编[C];2015年
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2 Mohammad Muhebbullah Ibne Hoque;玉米耐盐性的鉴定及QTL分析[D];中国农业科学院;2013年
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