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Research Progress of miR164 and Target Gene NAC in Regulating Sugarcane Stress Tolerance
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作者 Minghui CHEN Junqing WANG +1 位作者 Xuyao ZHAO Shiping CHENG 《Plant Diseases and Pests》 CAS 2023年第4期44-47,共4页
Studies have shown that miR164 is a highly conserved miRNA family between monocot and dicotyledonous plants,and it plays an important role in the growth and development of sugarcane organs and in response to stress.As... Studies have shown that miR164 is a highly conserved miRNA family between monocot and dicotyledonous plants,and it plays an important role in the growth and development of sugarcane organs and in response to stress.As the main target gene of miR164,NAC transcription factors are mainly regulated at the post-transcriptional level.MiR164:NAC module may play an important role in determining the adaptive response of sugarcane to stress.MiR164 has a regulatory effect on the expression of target gene NAC,and may be closely related to the resistance process of sugarcane to abiotic stress,which provides a reference for using miRNA to carry out sugarcane resistance molecular breeding. 展开更多
关键词 miRNA164 NAC stress tolerance
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Discussion Abiotic Stress Tolerance and Corresponding Strategies for Maize Breeding in Southwest Region of China 被引量:1
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作者 汤玲 袁亮 +4 位作者 杨华 张亚勤 周汝平 赖军 邱正高 《Agricultural Science & Technology》 CAS 2017年第11期2037-2044,共8页
Maize is an important food crop, as well as the irreplaceable feed and industrial materials, having huge market demand in China. Southwestern region of China is the third largest main maize producing zone, and the fre... Maize is an important food crop, as well as the irreplaceable feed and industrial materials, having huge market demand in China. Southwestern region of China is the third largest main maize producing zone, and the frequent occurrence of abiotic stress conditions such as drought, heat, cold, wet shaded stress have severely affected the development of maize production, causing low and unstable corn yields, severely restricting the maize industry development in the southwest of China. This paper preliminarily describes the maize resistance to abiotic stresses in southwestem region of China, putting forward the countermeasures and the key research direction in the practice of breeding in order to provide reference for the cultivation of new varieties with high yield and stress resistance, and improving the levels of maize stress resistance breeding in southwestern region of China. 展开更多
关键词 Southwestern region of China MAIZE DROUGHT Heat Wet shaded stress tolerance BREEDING
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Soybean GmMYB76, GmMYB92, and GmMYB177 genes confer stress tolerance in transgenic Arabidopsis plants 被引量:74
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作者 Yong Liao Hong-Feng Zou Hui-Wen Wang Wan-Ke Zhang Biao Ma Jin-Song Zhang Shou-Yi Chen 《Cell Research》 SCIE CAS CSCD 2008年第10期1047-1060,共14页
MYB-type transcription factors contain the conserved MYB DNA-binding domain of approximately 50 amino acids and are involved in the regulation of many aspects of plant growth, development, metabolism and stress respon... MYB-type transcription factors contain the conserved MYB DNA-binding domain of approximately 50 amino acids and are involved in the regulation of many aspects of plant growth, development, metabolism and stress responses. From soybean plants, we identified 156 GmMYB genes using our previously obtained 206 MYB unigenes, and 48 were found to have full-length open-reading frames. Expressions of all these identified genes were examined, and we found that expressions of 43 genes were changed upon treatment with ABA, salt, drought and/or cold stress. Three GmMYB genes, GmMYB76, GmMYB92 and GmMYB177, were chosen for further analysis. Using the yeast assay system, GmMYB76 and GmMYB92 were found to have transactivation activity and can form homodimers. GmMYB177 did not appear to have transactivation activity but can form heterodimers with GmMYB76. Yeast onehybrid assay revealed that all the three GmMYBs could bind to cis-elements TAT AAC GGT TTT TT and CCG GAA AAA AGG AT, but with different affinity, and GmMYB92 could also bind to TCT CAC CTA CC. The transgenic Arabidopsis plants overexpressing GmMYB 76 or GmMYB177 showed better performance than the GmMYB92-transgenic plants in salt and freezing tolerance. However, these transgenic plants exhibited reduced sensitivity to ABA treatment at germination stage in comparison with the wild-type plants. The three GmMYB genes differentially affected a subset of stress-responsive genes in addition to their regulation of a common subset of stress-responsive genes. These resuits indicate that the three GmMYB genes may play differential roles in stress tolerance, possibly through regulation of stress-responsive genes. 展开更多
关键词 SOYBEAN MYB transcription factor abiotic stress tolerance
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Mapping of QTLs for Leaf Malondialdehyde Content Associated with Stress Tolerance in Rice 被引量:10
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作者 JIANG Jing ZHUANG Jie-yun +1 位作者 FAN Ye-yang SHEN Bo 《Rice science》 SCIE 2009年第1期72-74,共3页
Malondialdehyde (MDA) is the final product of lipid peroxidation, and MDA content can reflect the stress tolerance of plants. To map QTLs conditioning the MDA content in rice leaves, a recombinant inbred line (RIL... Malondialdehyde (MDA) is the final product of lipid peroxidation, and MDA content can reflect the stress tolerance of plants. To map QTLs conditioning the MDA content in rice leaves, a recombinant inbred line (RIL) population with 247 lines derived from an indica-indica cross Zhenshan 97BxMilyang 46, and a linkage map consisting of 207 DNA markers were used. The RIL population showed a transgressive segregation in the MDA content of rice leaves. Two QTLs for the MDA content in rice leaves were detected in the intervals RG532-RG811 and RG381-RG236 on chromosome 1, with the additive effects from maternal and paternal parents, accounting for 4.33% and 4.62% of phenotype variations, respectively. 展开更多
关键词 RICE malondialdehyde content quantitative trait locus LEAF stress tolerance
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Production of Transgenic Tall Fescue Plants with Enhanced Stress Tolerances by Agrobacterium tumefaciens-Mediated Transformation 被引量:3
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作者 WU Guan-ting CHEN Jin-qing +5 位作者 HU Zhang-hua LANG Chun-xiu CHEN Xiao-yun WANG Fu-lin JIN Wei XIA Ying-wu 《Agricultural Sciences in China》 CAS CSCD 2006年第5期330-338,共9页
In order to improve stress tolerances of turf-type tall fescue (Festuca arundinacea Schreb.), Agrobacterium tumefaciens strain EHA105 carrying plasmid pCMD containing stress tolerance-related CBF1 gene from Arabidop... In order to improve stress tolerances of turf-type tall fescue (Festuca arundinacea Schreb.), Agrobacterium tumefaciens strain EHA105 carrying plasmid pCMD containing stress tolerance-related CBF1 gene from Arabidopsis thaliana was used to transform mature seeds-derived embryogenic calli of four cultivars. A total of 112 transgenic plants were regenerated from 32 independent lines and verified by histochemical detection of GUS activity, PCR assay and Southern hybridization analysis. The transformation frequency ranged from 0.92 to 2.87% with apparent differences among the cultivars. Stress tolerances of transgenic plants were enhanced, which was shown by the facts that transgenic plants had distinct growth superiority and significantly higher survival rate than non-transformed ones under high salinity and high osmosis stresses, and that relative electronic conductivity of in vitro leaves treated with low and high temoeratures, dehvdration and high salinity stresses was 25-30% lower in transgenic plants than in control plants.In addition,it was observed that growth of transgenic plants was inhibited due to constitutive overexpression of CBF1 gene under normal environmental conditions. 展开更多
关键词 tall fescue (Festuca arundinacea Schreb.) Agrobacterium tumefaciens genetic transformation CBF1 gene stress tolerance
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Roles of MicroRNAs in Plant Stress Tolerance 被引量:2
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作者 GAO Peng YANG Liang BAI Xi ZHU Yanming 《Journal of Northeast Agricultural University(English Edition)》 CAS 2008年第3期68-74,共7页
MicroRNAs (miRNAs) are one kind of small RNA in all eukaryote. MicroRNAs can regulate gene expression of eukaryote; they widely participate in every physiological process. They can block mRNA expression or cleave mR... MicroRNAs (miRNAs) are one kind of small RNA in all eukaryote. MicroRNAs can regulate gene expression of eukaryote; they widely participate in every physiological process. They can block mRNA expression or cleave mRNA by complement to target mRNA. Scholars estimate miRNA genes occuping about 1% of genome, but they can regulate 10%-30% genes of whole genome. The genes are regulated by miRNA including signal proteins, enzymes, transcription factors, and so on. In the field of plant research, the start of miRNA research is later, but it is proved that plant miRNAs are important to every plant physiological process. Now miRNA has become the hotspot of plant molecular biology research. This paper introduced the biology function, action mechanism, researching method and recently development of microRNAs, also focused on advances in plant microRNAs. This paper has important reference value for plant stress tolerance miRNA research. 展开更多
关键词 MICRORNA gene expression PLANT stress tolerance
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Stress-Activated Protein Kinase OsSAPK7 Regulates Salt- Stress Tolerance by Modulating Diverse Stress-Defensive Responses in Rice 被引量:1
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作者 ZENG Dan WANG Chunchao +5 位作者 XIE Junpin ZHANG Fan LU Jialing SHI Xiaorong SHI Yingyao ZHOU Yongli 《Rice science》 SCIE CSCD 2021年第6期547-556,共10页
Soil salinity is an environmental threat limiting rice productivity.Identification of salinity tolerance genes and exploitation of their mechanisms in plants are vital for crop breeding.In this study,the function of s... Soil salinity is an environmental threat limiting rice productivity.Identification of salinity tolerance genes and exploitation of their mechanisms in plants are vital for crop breeding.In this study,the function of stress-activated protein kinase 7(OsSAPK7),a SnRK2 family member,was characterized in response to salt stress in rice.Compared with variety 9804,OsSAPK7-overexpression plants had a greater survival rate,increased chlorophyll and proline contents,and superoxide dismutase and catalase activities at the seedling stage under salt-stress conditio ns,as well as decreased sodium potassium ratio(Na+/K+)and malondialdehyde contents.After salt stress,the OsSAPK7 knockout plants had lower survival rates,in creased Na^K*ratios and malomdiadehyde contents,and decreased physiological parameters compared with 9804.These changes in transgenic lines suggested that OsSAPK7 increased the salt tolerance of rice by modulating ion homeostasis,redox reactions and photosynthesis.The results of RNA-Seq indicated that genes involved in redox-dependent signaling pathway,photosynthesis and zeatin synthesis pathways were significantly down-regulated in the OsSAPK7 knockout line compared with 9804 un der salt-stress conditio n,which con firmed that OsSAPK7 positively regulated salt tolera nee by modulating diverse stress-defe nsive resp on ses in rice.These findings provided novel in sights for the genetic improvement of rice and for understanding the regulatory mechanisms of salt-stress toleranee. 展开更多
关键词 RICE OsSAPK7 salt stress tolerance survival rate
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Phenotypic, Stress Tolerance and Plant Growth Promoting Characteristics of Rhizobial Isolates from Selected Wild Legumes of Semiarid Region, Tirupati, India 被引量:1
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作者 Y. Bhargava J. S. R. Murthy +1 位作者 T. V. Rajesh Kumar M. Narayana Rao 《Advances in Microbiology》 2016年第1期1-12,共12页
Rhizobia are vital for nitrogen input, fertility of soil and legume plant growth. Knowledge on rhizobial diversity from arid and semiarid areas is important for dry land agriculture in the context of climatic change a... Rhizobia are vital for nitrogen input, fertility of soil and legume plant growth. Knowledge on rhizobial diversity from arid and semiarid areas is important for dry land agriculture in the context of climatic change and for economic utilization. This study provides morphological, biochemical, stress tolerance and plant growth promoting characteristics of fifteen rhizobial isolates from the nodules of same number of wild legumes and one isolate from cultivated Arachis hypogea from semi-arid region, Tirupati. The bacterial isolates were confirmed as rhizobia based on colony morphology and biochemical tests. Based on the colour change of YMA-BTB medium, eight isolates were identified as slow growers and six were fast growers. The isolates differed in growth pattern, colony morphology, antibiotic resistance at higher concentrations and uniformity in utilization of carbon and nitrogen sources. The isolates are tolerant to NaCl up to one percent, displayed normal growth at temperatures 28℃ - 30℃, at neutral pH and poor growth at pH 5and 9. The isolates varied in the production of EPS and IAA, positive for phosphate solubilization and siderophore formation. This functional diversity displayed by the isolates can be utilised for the legume crop production by cross inoculation. 展开更多
关键词 Wild Legumes Rhizobia Characterization stress tolerance Plant Growth Promotion
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G-protein β subunit AGB1 positively regulates salt stress tolerance in Arabidopsis
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作者 MA Ya-nan CHEN Ming +8 位作者 XU Dong-bei FANG Guang-ning WANG Er-hui GAO Shi-qing XU Zhao-shi LI Lian-cheng ZHANG Xiao-hong MIN Dong-hong MA You-zhi 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2015年第2期314-325,共12页
The heterotrimeric GTP-binding proteins(G-proteins) in eukaryotes consisted of α, β and γ subunits and are important in molecular signaling by interacting with G-protein-coupled receptors(GPCR), on which to tra... The heterotrimeric GTP-binding proteins(G-proteins) in eukaryotes consisted of α, β and γ subunits and are important in molecular signaling by interacting with G-protein-coupled receptors(GPCR), on which to transduce signaling into the cytoplast through appropriate downstream effectors. However, downstream effectors regulated by the G-proteins in plants are currently not well defined. In this study, the transcripts of AGB1, a G protein β subunit gene in Arabidopsis were found to be down-regulated by cold and heat, but up-regulated by high salt stress treatment. AGB1 mutant(agb1-2) was more sensitive to high salt stress than wild-type(WT). Compared with WT, the cotyledon greening rates, fresh weight, root length, seedling germination rates and survival rates decreased more rapidly in agb1-2 along with increasing concentrations of Na Cl in normal(MS) medium. Physiological characteristic analysis showed that compared to WT, the contents of chlorophyll, relative proline accumulation and peroxidase(POD) were reduced, whereas the malonaldehyde(MDA) content and concentration ratio of Na+/K+ were increased in agb1-2 under salt stress condition. Further studies on the expression of several stress inducible genes associated with above physiological processes were investigated, and the results revealed that the expressions of genes related to proline biosynthesis, oxidative stress response, Na+ homeostasis, stress- and ABAresponses were lower in agb1-2 than in WT, suggesting that those genes are possible downstream genes of AGB1 and that their changed expression plays an important role in determining phenotypic and physiologic traits in agb1-2. Taken together, these findings indicate that AGB1 positively regulates salt tolerance in Arabidopsis through its modulation of genes transcription related to proline biosynthesis, oxidative stress, ion homeostasis, stress- and ABA-responses. 展开更多
关键词 ARABIDOPSIS heterotrimeric G-protein β subunit physiological processes salt stress tolerance
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Relationship between Ethanol and 2-phenylethanol Stress Tolerance and Fatty Acid Compositions of Saccharomyces cerevisiae
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作者 Olga Mameeva Valentin Podgorsky 《Journal of Food Science and Engineering》 2013年第2期71-78,共8页
In the present study, we investigated of the ethanol (Eth), 2-phenylethanol (2-PE) and ethanol/2-phenylethanol (Eth/2-PE) stress tolerance and established relationship between stress tolerance and fatty acid com... In the present study, we investigated of the ethanol (Eth), 2-phenylethanol (2-PE) and ethanol/2-phenylethanol (Eth/2-PE) stress tolerance and established relationship between stress tolerance and fatty acid compositions of wine yeast strain S. cerevisiae UCM Y-524 in relation to different cultivation factors. Changes in cell membrane fatty acid profiles studied under different temperature and media. The active oxygenation, semi-aerobic cultivation supplemented Tween 80 conditions were used in different combinations. The concentrations of 2-PE and Eth, the fatty acids methyl esters (FAMES) in the media were measured by GC-MS analyses. 2-PE, Eth, FAMES were identified by NIST02 MS database at the 2-PE and Eth standard solution (Merck, Germany), bacterial FAMES standard (Supelco). Palmitoleic and oleic acid were dominated for S. cerevisiae UCM Y-524. The unsaturated/saturated fatty acid (UFA/SFA) ratio was higher than five for S. cerevisiae UCM Y-524 at 14 ~C in simple medium and about more than three for other conditions. It has been found that yeast cells grown in the presence of the 2-PE, Eth and Eth/2-PE appear to increase the amount of unsaturated fatty acids, especially oleic acid, in cellular lipids especially under active oxygenation supplemented with Tween 80. S. cerevisiae UCM Y-524 has a higher tolerance under 2-PE, Eth and Eth/2-PE stress at 28 ~C in a simple medium under aerobic conditions. A higher concentration of unsaturated fatty acids in the membrane S. cerevisiae UCM Y-524 and a lower temperature under aerobic conditions, has been considered to have a positive influence on the excretion of 2-phenylethanol. 展开更多
关键词 Yeasts 2-PHENYLETHANOL ETHANOL stress tolerance fatty acids.
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IiWRKY34 positively regulates yield, lignan biosynthesis and stress tolerance in Isatis indigotica 被引量:12
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作者 Ying Xiao Jingxian Feng +7 位作者 Qing Li Yangyun Zhou Qitao Bu Junhui Zhou Hexin Tan Yingbo Yang Lei Zhang Wansheng Chen 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2020年第12期2417-2432,共16页
Yield potential,pharmaceutical compounds production and stress tolerance capacity are 3 classes of traits that determine the quality of medicinal plants.The autotetraploid Isatis indigotica has greater yield,higher bi... Yield potential,pharmaceutical compounds production and stress tolerance capacity are 3 classes of traits that determine the quality of medicinal plants.The autotetraploid Isatis indigotica has greater yield,higher bioactive lignan accumulation and enhanced stress tolerance compared with its diploid progenitor.Here we show that the transcription factor IiWRKY34,with higher expression levels in tetraploid than in diploid I.indigotica,has large pleiotropic effects on an array of traits,including biomass growth rates,lignan biosynthesis,as well as salt and drought stress tolerance.Integrated analysis of transcriptome and metabolome profiling demonstrated that IiWRKY34 expression had far-reaching consequences on both primary and secondary metabolism,reprograming carbon flux towards phenylpropanoids,such as lignans and flavonoids.Transcript-metabolite correlation analysis was applied to construct the regulatory network of IiWRKY34 for lignan biosynthesis.One candidate target Ii4CL3,a key rate-limiting enzyme of lignan biosynthesis as indicated in our previous study,has been demonstrated to indeed be activated by IiWRKY34.Collectively,the results indicate that the differentially expressed IiWRKY34 has contributed significantly to the polyploidy vigor of I.indigotica,and manipulation of this gene will facilitate comprehensive improvements of I.indigotica herb. 展开更多
关键词 Polyploidy vigor WRKY transcription factor Biomass production Lignan biosynthesis stress tolerance
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A Bi-Functional Xyloglucan Galactosyltransferase Is an Indispensable Salt Stress Tolerance Determinant in Arabidopsis 被引量:6
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作者 Wenbo Li Qingmei Guan +2 位作者 Zhen-Yu Wang Yingdian Wang Jianhua Zhu 《Molecular Plant》 SCIE CAS CSCD 2013年第4期1344-1354,共11页
Salinity is an abiotic stress that substantially limits crop production worldwide. To identify salt stress tolerance determinants, we screened for Arabidopsis mutants that are hypersensitive to salt stress and designa... Salinity is an abiotic stress that substantially limits crop production worldwide. To identify salt stress tolerance determinants, we screened for Arabidopsis mutants that are hypersensitive to salt stress and designated these mutants as short root in salt medium (rsa). One of these mutants, rsa3-1, is hypersensitive to NaCI and LiCI but not to CsCI or to general osmotic stress. Reactive oxygen species (ROS) over-accumulate in rsa3-1 plants under salt stress. Gene expression profiling with Affymetrix microarray analysis revealed that RSA3 controls expression of many genes including genes encoding proteins for ROS detoxification under salt stress. Map-based cloning showed that RSA3 encodes a xyloglucan galactosyltransferase, which is allelic to a gene previously named MUR3/KAM1. The RSA3/ MUR3/KAMl-encoded xylogluscan galactosyltransferase regulates actin microfilament organization (and thereby con- tributes to endomembrane distribution) and is also involved in cell wall biosynthesis. In rsa3-1, actin cannot assemble and form bundles as it does in the wild-type but instead aggregates in the cytoplasm. Furthermore, addition of phal- Ioidin, which prevents actin depolymerization, can rescue salt hypersensitivity of rsa3-1. Together, these results sug- gest that RSA3/MUR3/KAM1 along with other cell wall-associated proteins plays a critical role in salt stress tolerance by maintaining the proper organization of actin microfilaments in order to minimize damage caused by excessive ROS. 展开更多
关键词 salt stress tolerance xyloglucan galactosyltransferase ENDOMEMBRANES actin microfilaments RSA3.
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The role of tocopherol cyclase in salt stress tolerance of rice(Oryza sativa) 被引量:6
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作者 OUYANG ShouQiang HE SiJie +3 位作者 LIU Peng ZHANG WanKe ZHANG JinSong CHEN ShouYi 《Science China(Life Sciences)》 SCIE CAS 2011年第2期181-188,共8页
Tocopherols synthesized exclusively by photosynthetic organisms are major antioxidants in biomembranes.In plants,tocopherol cyclase(TC/VTE1) catalyzes the conversion of 2,3-dimethyl-5-phytyl-1,4-benzoquinone(DMPBQ) to... Tocopherols synthesized exclusively by photosynthetic organisms are major antioxidants in biomembranes.In plants,tocopherol cyclase(TC/VTE1) catalyzes the conversion of 2,3-dimethyl-5-phytyl-1,4-benzoquinone(DMPBQ) to γ-tocopherol.In the present study,OsVTE1,which encodes a rice tocopherol cyclase ortholog,was cloned and characterized.OsVTE1 was induced significantly by abiotic stresses such as high salt,H2O2,drought,cold and by the plant hormones ABA and salicylic acid.The tissue-specific expression pattern and OsVTE1-promoter GUS activity assay showed that OsVTE1 was mainly expressed in the leaf,and also could be detected in the root,stem and panicle.Compared with control plants,transgenic plants with OsVTE1 RNA interference(OsVTE1-RNAi) were more sensitive to salt stress whereas,in contrast,transgenic plants overexpressing OsVTE1(OsVTE1-OX) showed higher tolerance to salt stress.The DAB in vivo staining showed that OsVTE1-OX plants accumulated less H2O2 than did control plants. 展开更多
关键词 RICE TOCOPHEROL tocopherol cyclase(TC/VTE1) transgenic rice abiotic stress tolerance
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Expression of Acyl-lipid 12-desaturase Gene in Prokaryotic and Eukaryotic Cells and Its Effect on Cold Stress Tolerance of Potato 被引量:6
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作者 Reza Maali Amiri Natalia O. Yur'eva +8 位作者 Khristina R. Shimshilashvili Irina V. Goldenkova-Pavlova Vasiliy P. Pchelkin Elmira I. Kuznitsova Vladimir D. Tsydendambaev Tamara I. Trunova Dmitry A. Los Gholamreza Salehi Jouzani Alexander M. Nosov 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2010年第3期289-297,共9页
We report the expression profile of acyl-lipid △12-desaturase (desA) gene from Synechocystis sp. PCC6803 and its effect on cell membrane lipid composition and cold tolerance in prokaryotic (Escherichia coil) and ... We report the expression profile of acyl-lipid △12-desaturase (desA) gene from Synechocystis sp. PCC6803 and its effect on cell membrane lipid composition and cold tolerance in prokaryotic (Escherichia coil) and eukaryotic (Solanum tuberosum) cells. For this purpose, a hybrid of desA and reporter gene encoding thermostable lichenase (licBM3) was constructed and used to transform these cells. The expression of this hybrid gene was measured using qualitative (Petri dish test, electrophoregram and zymogram) and quantitative methods (spectrometry and gas liquid chromatography assays). The maximum level of linoleic acid in the bacterial cells containing hybrid gene was 1.9% of total fatty acids. Cold stress tolerance assays using plant damage index and growth parameters showed that cold tolerance was enhanced in primary transgenic lines because of increased unsaturated fatty acid concentration in their lipids. The greatest content of 18:2 and 18:3 fatty acids in primary transgenic plants was observed for lines 2 (73%) and 3 (41%). Finally, our results showed that desaturase could enhance tolerance to cold stress in potato, and desaturase and lichenase retain their functionality in the structure of the hybrid protein where the enzymatic activity of target gene product was higher than in the case of reporter lichenase gene absence in the construction. 展开更多
关键词 Expression of Acyl-lipid 12-desaturase Gene in Prokaryotic and Eukaryotic Cells and Its Effect on Cold stress tolerance of Potato gene
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Overexpression of AmDUF1517 enhanced tolerance to salinity, drought, and cold stress in transgenic cotton 被引量:2
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作者 HAO Yu-qiong LU Guo-qing +4 位作者 WANG Li-hua WANG Chun-ling GUO Hui-ming LI Yi-fei CHENG Hong-mei 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2018年第10期2204-2214,共11页
As abiotic stresses become more severe as a result of global climate changes, the growth and development of plants are restricted. In the development of agricultural crops with greater stress tolerance, AmDUF1517 had ... As abiotic stresses become more severe as a result of global climate changes, the growth and development of plants are restricted. In the development of agricultural crops with greater stress tolerance, AmDUF1517 had been isolated from the highly stress-tolerant shrub Ammopiptanthus mongolicus, and can significantly enhance stress tolerance when inserted in Arabidopsis thaliana. In this study, we inserted this gene into cotton to analyze its potential for conferring stress tolerance. Two independent transgenic cotton lines were used. Southern blot analyses indicated that AmDUF1517 was integrated into the cotton genome. Physiological analysis demonstrated that AmD UF1517-transgenic cotton had stronger resistance than the control when treated with salt, drought, and cold stresses. Further analysis showed that trans-AmD UF1517 cotton displayed significantly higher antioxidant enzyme(superoxide dismutase(SOD), peroxidase(POD), catalase(CAT), and glutathione S-transferase(GST)) activity and less reactive oxygen species(ROS) accumulation, which suggests that overexpression of AmDUF1517 can improve cotton resistance to stress by maintaining ROS homeostasis, as well as by alleviating cell membrane injury. These results imply that AmDUF1517 is a candidate gene in improving cotton resistance to abiotic stress. 展开更多
关键词 transgenic cotton stress tolerance AmDUF1517 Ammopiptanthus mongolicus reactive oxygen species
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Selection of Maize Genotypes with Tolerance to Osmotic Stress Associated with Salinity 被引量:1
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作者 Mónica B. Collado Mónica B. Aulicino +1 位作者 Miguel J. Arturi María del C. Molina 《Agricultural Sciences》 2016年第2期82-92,共11页
Thirteen different inbred lines in relation to the type of grain and life cycles were characterized by testing for osmotic stress associated with salinity. The identification of tolerant genotypes would be an effectiv... Thirteen different inbred lines in relation to the type of grain and life cycles were characterized by testing for osmotic stress associated with salinity. The identification of tolerant genotypes would be an effective strategy to overcome the saline stress. Osmotic stress reduces immediately the expansion of the roots and young leaves which determine a reduction in the size of the plant. A completely randomized design was adopted to test seedlings under controlled conditions of light and temperature. Two treatments were used: 0 mM NaCl (as control) and 100 mM NaCl. After 15 days of complete salinization, the seedlings were harvested and several morphological traits were measured. The morphological traits of growth were leaf growth (Ar1, Ar2, Ar3 and Ar4), dry masses of shoot and root (SDM and RDM, respectively). Also, traits associated with water economy were registered: leaf water loss (LWL) and relative water content (RWC). The morphological traits were expressed in relative terms, while the traits associated with the economy of water were expressed in absolute terms. Uni and multivariate techniques were applied to identify genotypes with divergent behaviors to osmotic stress tolerance. Also, a Tolerance Index was employed to identify superior genotypes. Four clusters were obtained after applying a Cluster Analysis and Principal Component Analysis (PCA). The genotypes were compared to each other with a test of DMS. The results obtained with different statistical techniques converged. Some variables presented a differential weight classification of genotypes. The morphological traits like RDM, SDM, Ar3, Ar4 and Ar5 were the most discriminating. Tolerance Index allowed to classify genotypes, thus SC2 and AD3 lines were that reached highest value of the index and therefore would be tolerant lines, while AF3 and LP3 had a low index and were seen as sensible. 展开更多
关键词 MAIZE SALINITY Osmotic stress tolerance Selection Index
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Priming for Saline-Alkaline Tolerance in Rice:Current Knowledge and Future Challenges 被引量:1
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作者 JIANG Changjie LIANG Zhengwei XIE Xianzhi 《Rice science》 SCIE CSCD 2023年第5期417-425,共9页
Soil salinization and/or alkalization is a major constraint to crop production worldwide.Approximately 60% of the cultivated land is affected by salt,over half of which is alkalized.Alkaline soils are characterized by... Soil salinization and/or alkalization is a major constraint to crop production worldwide.Approximately 60% of the cultivated land is affected by salt,over half of which is alkalized.Alkaline soils are characterized by high alkalinity and typically high salinity,which creates a complex saline-alkaline(SA) stress that affects plant growth.Rice cultivation has been accepted as an important strategy for effective utilization of SA land if water is available for irrigation.Nevertheless,as a salt-sensitive plant,rice plants suffer severe SA-induced damage,which results in poor plant growth and grain yield.Various approaches have been employed to improve rice productivity in SA land.Among them,the priming technique has emerged as a powerful method for enhancing SA tolerance in rice plants.In this review,we summarized how SA stress damages rice plants,and then presented how priming treatment can mitigate such damage. 展开更多
关键词 saline-alkaline stress plant hormone abscisic acid reactive oxygen species ANTIOXIDANT stress tolerance
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Overexpression of ZxABCG11 from Zygophyllum xanthoxylum enhances tolerance to drought and heat in alfalfa by increasing cuticular wax deposition 被引量:1
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作者 Linbo Liu Aike Bao +6 位作者 Hujun Li Wanpeng Bai Haishuang Liu Ye Tian Yiying Zhao Fangchen Xia Suomin Wang 《The Crop Journal》 SCIE CSCD 2023年第4期1140-1151,共12页
Drought and heat stresses cause yield losses in alfalfa,a forage crop cultivated worldwide.Improving its drought and heat tolerance is desirable for maintaining alfalfa productivity in hot,arid regions.Cuticular wax f... Drought and heat stresses cause yield losses in alfalfa,a forage crop cultivated worldwide.Improving its drought and heat tolerance is desirable for maintaining alfalfa productivity in hot,arid regions.Cuticular wax forms a protective barrier on aerial surfaces of land plants against environmental stresses.ABCG11encodes an ATP binding cassette(ABC) transporter that functions in the cuticular wax transport pathway.In this study,Zx ABCG11 from the xerophyte Zygophyllum xanthoxylum was introduced into alfalfa by Agrobacterium tumefaciens-mediated transformation.Compared to the wild type(WT),transgenic alfalfa displayed faster growth,higher wax crystal density,and thicker cuticle on leaves under normal condition.Under either drought or heat treatment in greenhouse conditions,the plant height and shoot biomass of transgenic lines were significantly higher than those of the WT.Transgenic alfalfa showed excellent growth and 50% greater hay yield than WT under field conditions in a hot,arid region.Overexpression of Zx ABCG11 up-regulated wax-related genes and resulted in more cuticular wax deposition,which contributed to reduction of cuticle permeability and thus increased water retention and photosynthesis capacity of transgenic alfalfa.Thus,overexpression of Zx ABCG11 can simultaneously improve biomass yield,drought and heat tolerance in alfalfa by increasing cuticular wax deposition.Our study provides a promising avenue for developing novel forage cultivars suitable for planting in hot,arid,marginal lands. 展开更多
关键词 ALFALFA ZxABCG11 Cuticular wax YIELD stress tolerance
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Drought Tolerance in Mung Bean is Associated with the Genotypic Divergence, Regulation of Proline, Photosynthetic Pigment and Water Relation 被引量:1
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作者 Mohammad Rafiqul Islam Mohd Mostofa Kamal +10 位作者 Mohammad Faruk Hossain Jamil Hossain Mohammad Golam Azam Mst Masuma Akhter MKamrul Hasan Ibrahim Al-Ashkar Khalid FAlmutairi Ayman EL Sabagh Md Atikur Rahman Muhammad Aamir Iqbal Mohammad Sohidul Islam 《Phyton-International Journal of Experimental Botany》 SCIE 2023年第3期955-981,共27页
Drought is one of the critical conditions for the growth and productivity of many crops including mung bean(Vigna radiata L.Wilczek).Screening of genotypes for variations is one of the suitable strategies for evaluati... Drought is one of the critical conditions for the growth and productivity of many crops including mung bean(Vigna radiata L.Wilczek).Screening of genotypes for variations is one of the suitable strategies for evaluating crop adaptability and global food security.In this context,the study investigated the physiological and biochemical responses of four drought tolerant(BARI Mung-8,BMX-08010-2,BMX-010015,BMX-08009-7),and four drought sensitive(BARI Mung-1,BARI Mung-3,BU Mung-4,BMX-05001)mung bean genotypes under wellwatered(WW)and water deficit(WD)conditions.The WW treatment maintained sufficient soil moisture(22%±0.5%,i.e.,30%deficit of available water)by regularly supplying water.Whereas,the WD treatment was maintained throughout the growing period,and water was applied when the wilting symptom appeared.The drought tolerant(DT)genotypes BARI Mung-8,BMX-08010-2,BMX-010015,BMX-08009-7 showed a high level of proline accumulation(2.52–5.99 mg g^(−1) FW),photosynthetic pigment(total chlorophyll 2.96–3.27 mg g^(−1) FW at flowering stage,and 1.62–2.38 mg g^(−1) FW at pod developing stage),plant water relation attributes including relative water content(RWC)(82%–84%),water retention capacity(WRC)(12–14)as well as lower water saturation deficit(WSD)(19%–23%),and water uptake capacity(WUC)(2.58–2.89)under WD condition,which provided consequently higher relative seed yield.These indicate that the tolerant genotypes gained better physiobiochemical attributes and adaptability in response to drought conditions.Furthermore,the genotype BMX-08010-2 showed superiority in terms of those physio-biochemical traits,susceptibility index(SSI)and stress tolerance index(STI)to other genotypes.Based on the physiological and biochemical responses,the BMX-08010-2 was found to be a suitable genotype for sustaining yield under drought stress,and subsequently,it could be recommended for crop improvement through hybridization programs.In addition,the identified traits can be used as markers to identify tolerant genotypes for drought-prone areas. 展开更多
关键词 Mung bean DROUGHT PROLINE CHLOROPHYLL water status stress tolerance
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Reduction of methylviologen-mediated oxidative stress tolerance in antisense transgenic tobacco seedlings through restricted expression of StAPX
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作者 Wei-hong SUN Yong WANG +4 位作者 Hua-gang HE Xue LI Wan SONG Bin DU Qing-wei MENG 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2013年第7期578-585,共8页
Ascorbate peroxidases are directly involved in reactive oxygen species (ROS) scavenging by reducing hydrogen peroxide to water. The tomato thylakoid-bound ascorbate peroxidase gene (StAPX) was introduced into tobacco.... Ascorbate peroxidases are directly involved in reactive oxygen species (ROS) scavenging by reducing hydrogen peroxide to water. The tomato thylakoid-bound ascorbate peroxidase gene (StAPX) was introduced into tobacco. RNA gel blot analysis confirmed that StAPX in tomato leaves was induced by methylviologen-mediated oxidative stress. The sense transgenic seedlings exhibited higher tAPX activity than that of the wild type (WT) plants under oxidative stress conditions, while the antisense seedlings exhibited lower tAPX activity. Lower APX activities of antisense transgenic seedlings caused higher malondialdehyde contents and relative electrical conductivity. The sense transgenic seedlings with higher tAPX activity maintained higher chlorophyll content and showed the importance of tAPX in maintaining the optimal chloroplast development under methylviologen stress conditions, whereas the antisense lines maintained lower chlorophyll content than WT seedlings. Results indicated that the over-expression of StAPX enhanced tolerance to methylviologen-mediated oxidative stress in sense transgenic to- bacco early seedlings, whereas the suppression of StAPX in antisense transgenic seedlings showed high sensitivity to oxidative stress. 展开更多
关键词 METHYLVIOLOGEN Oxidative stress StAPX stress tolerance Transgenic tobacco seedling
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