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The UDP-glycosyltransferase OsUGT706D2 positively regulates cold and submergence stress tolerance in rice
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作者 Qing Liu Lanlan Zhang +12 位作者 Shuwei Lyu Hang Yu Wenjie Huang Liqun Jiang Jing Zhang Bingrui Sun Xingxue Mao Pingli Chen Junlian Xing Wenfeng Chen Zhilan Fan shijuan yan Chen Li 《The Crop Journal》 SCIE CSCD 2024年第3期732-742,共11页
In a genome-wide association study,we identified a rice UDP-glycosyltransferase gene,OsUGT706D2,whose transcription was activated in response to cold and submergence stress and to exogenous abscisic acid(ABA).OsUGT706... In a genome-wide association study,we identified a rice UDP-glycosyltransferase gene,OsUGT706D2,whose transcription was activated in response to cold and submergence stress and to exogenous abscisic acid(ABA).OsUGT706D2 positively regulated the biosynthesis of tricin-4’-O-(syringyl alcohol)ether-7-O-glucoside at both the transcriptional and metabolic levels.OsUGT706D2 mediated cold and submergence tolerance by modulating the expression of stress-responsive genes as well as the abscisic acid(ABA)signaling pathway.Gain of function of OsUGT706D2 increased cold and submergence tolerance and loss of function of OsUGT706D2 reduced cold tolerance.ABA positively regulated OsUGT706D2-mediated cold tolerance but reduced submergence tolerance.These findings suggest the potential use of OsUGT706D2 for improving abiotic stress tolerance in rice. 展开更多
关键词 UDP-glycosyltransferase RICE Cold tolerance Submergence tolerance ABA
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The occurrence phases and enrichment mechanism of rare earth elements in cobalt-rich crusts from Marcus-Wake Seamounts
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作者 Jingjing Gao Jihua Liu +3 位作者 Hui Zhang shijuan yan Xiangwen Ren Quanshu yan 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2024年第8期58-68,共11页
To explore the occurrence phases and enrichment mechanism of rare earth elements(REEs)in cobalt-rich crusts,this study analyzes the mineral composition and REE contents of the samples from Marcus-Wake Seamounts by XRD... To explore the occurrence phases and enrichment mechanism of rare earth elements(REEs)in cobalt-rich crusts,this study analyzes the mineral composition and REE contents of the samples from Marcus-Wake Seamounts by XRD,ICP-OES and ICP-MS.The results show that,(1)the cobalt-rich crusts contain the major crystalline mineral(vernadite),the secondary minerals(quartz,plagioclase and carbonate fluorapatite),and a large amount of amorphous ferric oxyhydroxides(FeOOH).(2)The cobalt-rich crusts contains higher Mn(10.83%to 28.76%)and Fe(6.14%to 18.86%)relative to other elements,and are enriched in REEs,with total REE contents of 1563−3238μg/g and Ce contents of 790−1722μg/g.Rare earth element contents of the old crusts are higher than those of the new crusts.Moreover,the non-phosphatized crusts have positive Ce and negative Y anomalies,and yet the phosphatized crusts have positive Ce and positive Y anomalies,indicating that cobalt-rich crusts is hydrogenetic and REEs mainly come from seawater.(3)Analytical data also show that the occurrence phases of elements in cobalt-rich crusts are closely related to their mineral phases.In the non-phosphatized crusts,REEs are adsorbed by colloidal particles into the crusts(about 67%of REEs in the Fe oxide phase,and about 17%of REEs in the Mn oxide phase).In contrast,in the phosphatized crusts(affected by the phosphatization),REEs may combine with phosphate to form rare earth phosphate minerals,and about 64%of REEs are enriched in the residual phase containing carbonate fluorapatite,but correspondingly the influence of Fe and Mn oxide phases on REEs enrichment is greatly reduced.In addition,the oxidizing environment of seawater,high marine productivity,phosphatization,and slow growth rate can promote the REE enrichment.This study provides a reference for the metallogenesis of cobalt-rich crusts in the Pacific. 展开更多
关键词 cobalt-rich crusts REEs occurrence phase enrichment mechanism Marcus-Wake Seamounts
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Pharmacological effects of volatile oil from chrysanthemum and its associated mechanisms:a review
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作者 Jing Zhang Weiqiang Su +6 位作者 Nina Filipczak Ying Luo Anping Wan Yao He shijuan yan Xiang Li Ming yang 《Acupuncture and Herbal Medicine》 2024年第1期79-91,共13页
Volatile oil(VO)is the main chemical component of common plants in Chrysanthemum genus,and it possesses several beneficial pharmacological properties,including bacteriostatic,antioxidant,anti-tumor,anti-inflammatory,a... Volatile oil(VO)is the main chemical component of common plants in Chrysanthemum genus,and it possesses several beneficial pharmacological properties,including bacteriostatic,antioxidant,anti-tumor,anti-inflammatory,antipyretic,analgesic,antiosteoporotic,antihypertensive,sedative,and hypnotic effects.To date,research on the effective components of Chrysanthemum extract has mainly focused on flavonoids,whereas limited data are available on the chemical constituents and underlying mechanisms of action of the VO components.In this review,the pharmacological activities and mechanisms of VO are comprehensively reviewed with the aim of providing a foundation for further development for medicinal,aromatherapy,and diet therapy applications. 展开更多
关键词 Action mechanisms CHRYSANTHEMUM Pharmacological activity Volatile oil
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The light and hypoxia induced gene ZmPORB1 determines tocopherol content in the maize kernel 被引量:1
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作者 Nannan Liu Yuanhao Du +11 位作者 shijuan yan Wei Chen Min Deng Shutu Xu Hong Wang Wei Zhan Wenjie Huang yan Yin Xiaohong yang Qiao Zhao Alisdair R.Fernie Jianbing yan 《Science China(Life Sciences)》 SCIE CAS CSCD 2024年第3期435-448,共14页
Tocopherol is an important lipid-soluble antioxidant beneficial for both human health and plant growth. Here, we fine mapped a major QTLqVE1 affecting γ-tocopherol content in maize kernel, positionally cloned and con... Tocopherol is an important lipid-soluble antioxidant beneficial for both human health and plant growth. Here, we fine mapped a major QTLqVE1 affecting γ-tocopherol content in maize kernel, positionally cloned and confirmed the underlying gene ZmPORB1(por1), as a protochlorophyllide oxidoreductase. A 13.7 kb insertion reduced the tocopherol and chlorophyll content, and the photosynthetic activity by repressing ZmPORB1 expression in embryos of NIL-K22, but did not affect the levels of the tocopherol precursors HGA(homogentisic acid)and PMP(phytyl monophosphate). Furthermore, ZmPORB1 is inducible by low oxygen and light, thereby involved in the hypoxia response in developing embryos. Concurrent with natural hypoxia in embryos, the redox state has been changed with NO increasing and H_(2)O_(2) decreasing, which lowered γ-tocopherol content via scavenging reactive nitrogen species. In conclusion, we proposed that the lower lightharvesting chlorophyll content weakened embryo photosynthesis, leading to fewer oxygen supplies and consequently diverse hypoxic responses including an elevated γ-tocopherol consumption. Our findings shed light on the mechanism for fine-tuning endogenous oxygen concentration in the maize embryo through a novel feedback pathway involving the light and low oxygen regulation of ZmPORB1 expression and chlorophyll content. 展开更多
关键词 MAIZE TOCOPHEROL HYPOXIA PHOTOSYNTHESIS ZmPORB1
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Diel dynamics of multi-omics in elkhorn fern provide new insights into weak CAM photosynthesis 被引量:2
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作者 Cheng Li Wenjie Huang +15 位作者 Xiaoxu Han Guohua Zhao Wenyang Zhang Weijun He Bao Nie Xufeng Chen Taijie Zhang Wenhui Bai Xiaopeng Zhang Jingjing He Cheng Zhao Alisdair RFernie Timothy JTschaplinski Xiaohan yang shijuan yan Li Wang 《Plant Communications》 SCIE CSCD 2023年第5期208-222,共15页
Crassulacean acid metabolism(CAM)has high water-use efficiency(WUE)and is widely recognized to have evolved from C3 photosynthesis.Different plant lineages have convergently evolved CAM,but the molecular mechanism tha... Crassulacean acid metabolism(CAM)has high water-use efficiency(WUE)and is widely recognized to have evolved from C3 photosynthesis.Different plant lineages have convergently evolved CAM,but the molecular mechanism that underlies C3-to-CAM evolution remains to be clarified.Platycerium bifurcatum(elkhorn fern)provides an opportunity to study the molecular changes underlying the transition from C3 to CAM photosynthesis because both modes of photosynthesis occur in this species,with sporotrophophyll leaves(SLs)and cover leaves(CLs)performing C3 and weak CAM photosynthesis,respectively.Here,we report that the physiological and biochemical attributes of CAM in weak CAM-performing CLs differed from those in strong CAM species.We investigated the diel dynamics of the metabolome,proteome,and transcriptome in these dimorphic leaves within the same genetic background and under identical environmental conditions.We found that multi-omic diel dynamics in P.bifurcatum exhibit both tissue and diel effects.Our analysis revealed temporal rewiring of biochemistry relevant to the energy-producing pathway(TCA cycle),CAM pathway,and stomatal movement in CLs compared with SLs.We also confirmed that PHOSPHOENOLPYRUVATE CARBOXYLASE KINASE(PPCK)exhibits convergence in gene expression among highly divergent CAM lineages.Gene regulatory network analysis identified candidate transcription factors regulating the CAM pathway and stomatal movement.Taken together,our results provide new insights into weak CAM photosynthesis and new avenues for CAM bioengineering. 展开更多
关键词 Platycerium bifurcatum crassulacean acid metabolism multi-omics transcription factor PPCK convergent evolution
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A reactive oxygen species burst causes haploid induction in maize 被引量:8
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作者 Chenglin Jiang Ju Sun +12 位作者 Rui Li shijuan yan Wei Chen Liang Guo Guochen Qin Pengcheng Wang Cheng Luo Wenjie Huang Qinghua Zhang Alisdair R.Fernie David Jackson Xiang Li Jianbing yan 《Molecular Plant》 SCIE CAS CSCD 2022年第6期943-955,共13页
Haploid induction (HI) is an important tool in crop breeding. Phospholipase A1 (ZmPLA1)/NOT LIKE DAD (NLD)/MATRILINEAL (MTL) is a key gene controlling HI in maize;however, the underlying molecular mechanism remains un... Haploid induction (HI) is an important tool in crop breeding. Phospholipase A1 (ZmPLA1)/NOT LIKE DAD (NLD)/MATRILINEAL (MTL) is a key gene controlling HI in maize;however, the underlying molecular mechanism remains unclear. In this study, to dissect why loss of ZmPLA1 function could mediate HI we performed a comprehensive multiple omics analysis of zmpla1 mutant anthers by integrating transcriptome, metabolome, quantitative proteome, and protein modification data. Functional classes of significantly enriched or differentially abundant molecular entities were found to be associated with the oxidative stress response, suggesting that a reactive oxygen species (ROS) burst plays a critical role in HI. In support of this, we further discovered that a simple chemical treatment of pollen with ROS reagents could lead to HI. Moreover, we identified ZmPOD65, which encodes a sperm-specific peroxidase, as a new gene controlling HI. Taken together, our study revealed a likely mechanism of HI, discovered a new gene controlling HI, and created a new method for HI in maize, indicating the importance of ROS balance in maintaining normal reproduction and providing a potential route to accelerate crop breeding. 展开更多
关键词 haploid induction single-cell sequencing MAIZE ROS PEROXIDASE
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Metabolomics in gut microbiota: applications and challenges 被引量:4
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作者 shijuan yan Jianfeng Huang +3 位作者 Zhongjian Chen Zongyong Jiang Xue Li Zhuang Chen 《Science Bulletin》 SCIE EI CAS CSCD 2016年第15期1151-1153,共3页
On May 13, 2016, the American government launched a 121-million USD investment for the National Microbiome Initiative (NMI), which aims to provide an in-depth understanding of microbiomes in order to develop new app... On May 13, 2016, the American government launched a 121-million USD investment for the National Microbiome Initiative (NMI), which aims to provide an in-depth understanding of microbiomes in order to develop new applications in the areas of human health, food security, and environmental restoration [1]. NMI also calls for pro- jects to develop platform technologies, reference libraries, and databases for microbiome research in all habitats, 展开更多
关键词 代谢组学 肠道菌群 应用 微生物 美国政府 人类健康 环境恢复 食品安全
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Small RNAs in regulating temperature stress response in plants 被引量:4
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作者 Qing Liu shijuan yan +3 位作者 Tifeng yang Shaohong Zhang Yue-Qin Chen Bin Liu 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2017年第11期774-791,共18页
Due to global climate change, temperature stress has become one of the primary causes of crop losses worldwide. Much progress has been made in unraveling the complex stress response mechanisms in plants, particularly ... Due to global climate change, temperature stress has become one of the primary causes of crop losses worldwide. Much progress has been made in unraveling the complex stress response mechanisms in plants, particularly in the identification of temperature stress responsive protein-coding genes. Recently discovered micro RNAs(mi RNAs) and endogenous small-interfering RNAs(si RNAs) have also been demonstrated as simportant players in plant temperature stress response.Using high-throughput sequencing, many small RNAs,especially mi RNAs, have been identified to be triggered by cold or heat. Subsequently, several studies have shown an important functional role for these small RNAs in cold or heat tolerance. These findings greatly broaden our understanding of endogenous small RNAs in plant stress response control. Here, we highlight new findings regarding the roles of mi RNAs and si RNAs in plant temperature stress response and acclimation. We also review the current understanding of the regulatory mechanisms of small RNAs in temperature stress response, and explore the outlook for the use of these small RNAs in molecular breeding for improvement of temperature stress tolerance in plants. 展开更多
关键词 Small RNAs in regulating temperature stressresponse in plantsFA
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Recent advances in proteomics and metabolomics in plants 被引量:5
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作者 shijuan yan Ruchika Bhawal +2 位作者 Zhibin Yin Theodore W.Thannhauser Sheng Zhang 《Molecular Horticulture》 2022年第1期225-262,共38页
Over the past decade,systems biology and plant-omics have increasingly become the main stream in plant biology research.New developments in mass spectrometry and bioinformatics tools,and methodological schema to inte-... Over the past decade,systems biology and plant-omics have increasingly become the main stream in plant biology research.New developments in mass spectrometry and bioinformatics tools,and methodological schema to inte-grate multi-omics data have leveraged recent advances in proteomics and metabolomics.These progresses are driv-ing a rapid evolution in the field of plant research,greatly facilitating our understanding of the mechanistic aspects of plant metabolisms and the interactions of plants with their external environment.Here,we review the recent progresses in MS-based proteomics and metabolomics tools and workflows with a special focus on their applications to plant biology research using several case studies related to mechanistic understanding of stress response,gene/protein function characterization,metabolic and signaling pathways exploration,and natural product discovery.We also present a projection concerning future perspectives in MS-based proteomics and metabolomics development including their applications to and challenges for system biology.This review is intended to provide readers with an overview of how advanced MS technology,and integrated application of proteomics and metabolomics can be used to advance plant system biology research. 展开更多
关键词 LC-MS GC-MS Single cell proteomics PHOSPHOPROTEOMICS Tandem mass tag Fluxomics Spatially resolved metabolomics Mass spectrometry imaging
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