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Staying hungry:a roadmap to harnessing central regulators of symbiotic nitrogen fixation under fluctuating nitrogen availability
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作者 Lijin Qiao Jieshun Lin +1 位作者 Takuya Suzaki Pengbo Liang 《aBIOTECH》 EI CAS CSCD 2024年第1期107-113,共7页
Legumes have evolved specific inventions to enhance nitrogen(N)acquisition by establishing symbiotic interactions with N-fixing rhizobial bacteria.Because symbiotic N fixation is energetically costly,legumes have deve... Legumes have evolved specific inventions to enhance nitrogen(N)acquisition by establishing symbiotic interactions with N-fixing rhizobial bacteria.Because symbiotic N fixation is energetically costly,legumes have developed sophisticated mechanisms to ensure carbon-nitrogen balance,in a variable environment,both locally and at the whole plant level,by monitoring nodule number,nodule development,and nodular nitrogenase activity,as well as controlling nodule senescence.Studies of the autoregulation of nodulation and regulation of nodulation by nodule inception(NIN)and NIN-LIKE PROTEINs(NLPs)have provided great insights into the genetic mechanisms underlying the nitrateinduced regulation of root nodulation for adapting to N availability in the rhizosphere.However,many aspects of N-induced pleiotropic regulation remain to be fully explained,such as N-triggered senescence in mature nodules.Wang et al.determined that this process is governed by a transcriptional network regulated by NAC-type transcription factors.Characterization and dissection of these soybean nitrogenassociated NAPs(SNAPs)transcription factor-mastered networks have yielded a roadmap for exploring how legumes rewire nodule functions across a range of N levels,laying the foundation for enhancing the growth of N-deprived crops in agricultural settings. 展开更多
关键词 symbiotic nitrogen fixation N-adapted nodulation Nodule senescence NIN NLPs SNAPs
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Increased dependence on nitrogen-fixation of a native legume in competition with an invasive plant 被引量:1
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作者 Meixu Han Haiyang Zhang +12 位作者 Mingchao Liu Jinqi Tang Xiaocheng Guo Weizheng Ren Yong Zhao Qingpei Yang Binglin Guo Qinwen Han Yulong Feng Zhipei Feng Honghui Wu Xitian Yang Deliang Kong 《Plant Diversity》 SCIE CAS CSCD 2024年第4期510-518,共9页
Suppression of roots and/or their symbiotic microorganisms,such as mycorrhizal fungi and rhizobia,is an effective way for alien plants to outcompete native plants.However,little is known about how invasive and native ... Suppression of roots and/or their symbiotic microorganisms,such as mycorrhizal fungi and rhizobia,is an effective way for alien plants to outcompete native plants.However,little is known about how invasive and native plants interact with the quantity and activity of nutrient-acquisition agents.Here a pot experiment was conducted with monoculture and mixed plantings of an invasive plant,Xanthium strumarium,and a common native legume,Glycine max.We measured traits related to root and nodule quantity and activity and mycorrhizal colonization.Compared to the monoculture,fine root quantity(biomass,surface area)and activity(root nitrogen(N)concentration,acid phosphatase activity)of G.max decreased in mixed plantings;nodule quantity(biomass)decreased by 45%,while nodule activity in Nfixing via rhizobium increased by 106%;mycorrhizal colonization was unaffected.Contribution of N fixation to leaf N content in G.max increased in the mixed plantings,and this increase was attributed to a decrease in the rhizosphere soil N of G.max in the mixed plantings.Increased root quantity and activity,along with a higher mycorrhizal association was observed in X.strumarium in the mixed compared to monoculture.Together,the invasive plant did not directly scavenge N from nodule-fixed N,but rather depleted the rhizosphere soil N of the legume,thereby stimulating the activity of N-fixation and increasing the dependence of the native legume on this N source.The quantity-activity framework holds promise for future studies on how native legumes respond to alien plant invasions. 展开更多
关键词 Mycorrhizal strategy nitrogen depletion Plant invasion Root nutrient acquisition strategy symbiotic nitrogen fixation
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Coordinated responses of leaf and nodule traits contribute to the accumulation of N in relay intercropped soybean
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作者 Ping Chen Qing Du +8 位作者 Benchuan Zheng Huan Yang Zhidan Fu Kai Luo Ping Lin Yilin Li Tian Pu Taiwen Yong Wenyu Yang 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2024年第6期1910-1928,共19页
Maize(Zea mays L.)-soybean(Glycine max L.Merr.)relay intercropping provides a way to enhance land productivity.However,the late-planted soybean suffers from shading by the maize.After maize harvest,how the recovery gr... Maize(Zea mays L.)-soybean(Glycine max L.Merr.)relay intercropping provides a way to enhance land productivity.However,the late-planted soybean suffers from shading by the maize.After maize harvest,how the recovery growth influences the leaf and nodule traits remains unclear.A three-year field experiment was conducted to evaluate the effects of genotypes,i.e.,supernodulating(nts1007),Nandou 12(ND12),and Guixia 3(GX3),and crop configurations,i.e.,the interspecific row spacing of 45(I45),60(I60),75 cm(I75),and sole soybean(SS),on soybean recovery growth and N fixation.The results showed that intercropping reduced the soybean total leaf area(LA)by reducing both the leaf number(LN)and unit leaflet area(LUA),and it reduced the nodule dry weight(NW)by reducing both the nodule number(NN)and nodule diameter(ND)compared with the SS.The correlation and principal component analysis(PCA)indicated a co-variability of the leaf and nodule traits in response to the genotype and crop configuration interactions.During the recovery growth stages,the compensatory growth promoted soybean growth to reduce the gaps of leaf and nodule traits between intercropping and SS.The relative growth rates of ureide(RGR_U)and nitrogen(RGR_N)accumulation were higher in intercropping than in SS.Intercropping achieved more significant sucrose and starch contents compared with SS.ND12 and GX3 showed more robust compensatory growth than nts1007 in intercropping.Although the recovery growth of relay intercropping soybean improved biomass and nitrogen accumulation,ND12 gained a more significant partial land equivalent ratio(pLER)than GX3.The I60 treatment achieved more robust compensation effects on biomass and N accumulation than the other configurations.Meanwhile,I60 showed a higher nodule sucrose content and greater shoot ureide and N accumulation than SS.Finally,intercropping ND12 with maize using an interspecific row spacing of 60 cm was optimal for both yield advantage and N accumulation. 展开更多
关键词 relay intercropping GENOTYPE crop configuration symbiotic nitrogen fixation SOYBEAN NODULE
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Quantitative proteomics reveals key pathways in the symbiotic interface and the likely extracellular property of soybean symbiosome 被引量:4
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作者 Yu Luo Wei Liu +2 位作者 Juan Sun Zheng-Rong Zhang Wei-Cai Yang 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2023年第1期7-19,共13页
An effective symbiosis between legumes and rhizobia relies largely on diverse proteins at the plantrhizobium interface for material transportation and signal transduction during symbiotic nitrogen fixation.Here,we rep... An effective symbiosis between legumes and rhizobia relies largely on diverse proteins at the plantrhizobium interface for material transportation and signal transduction during symbiotic nitrogen fixation.Here,we report a comprehensive proteome atlas of the soybean symbiosome membrane(SM),peribacteroid space(PBS),and root microsomal fraction(RMF)using state-of-the-art label-free quantitative proteomic technology.In total,1759 soybean proteins with diverse functions are detected in the SM,and 1476 soybean proteins and 369 rhizobial proteins are detected in the PBS.The diversity of SM proteins detected suggests multiple origins of the SM.Quantitative comparative analysis highlights amino acid metabolism and nutrient uptake in the SM,indicative of the key pathways in nitrogen assimilation.The detection of soybean secretory proteins in the PBS and receptor-like kinases in the SM provides evidence for the likely extracellular property of the symbiosome and the potential signaling communication between both symbionts at the symbiotic interface.Our proteomic data provide clues for how some of the sophisticated regulation between soybean and rhizobium at the symbiotic interface is achieved,and suggest approaches for symbiosis engineering. 展开更多
关键词 Quantitative proteomics symbiotic nitrogen fixation Symbiosome membrane Peribacteroid space SOYBEAN
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Ecological Safe Growing of Chickpea in the Area of Steppe of Ukraine
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作者 Didovych Svitlana 《Journal of Life Sciences》 2013年第11期1185-1190,共6页
This work is devoted to developing of the ecologically safe technology of chickpea cultivation by using microbial biopreparations, based on the effective heterotrophic (nodulating, growth-promoting and phosphate mobi... This work is devoted to developing of the ecologically safe technology of chickpea cultivation by using microbial biopreparations, based on the effective heterotrophic (nodulating, growth-promoting and phosphate mobilizing bacteria, and microorganisms-antagonists of the phytopathogenes) and phototrophic microorganisms (cyanobacteria). These preparations were used for pre-sowing treatment of seeds and for treatment of the plants in the vegetation period for optimization of symbiotic nitrogen fixation and growing of ecologically safe production (without application of mineral fertilizers) in the steppe non-irrigated areas of Ukraine. 展开更多
关键词 CHICKPEA symbiotic nitrogen fixation nodulating bacteria microbial inoculants productivity CYANOBACTERIA efficiency ecologically safe bio-fertilizers.
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Mechanisms underlying key agronomic traits and implications for molecular breeding in soybean 被引量:1
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作者 Chao Fang Haiping Du +2 位作者 Lingshuang Wang Baohui Liu Fanjiang Kong 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2024年第4期379-393,共15页
Soybean(Glycine max[L.]Merr.)is an important crop that provides protein and vegetable oil for human consumption.As soybean is a photoperiod-sensitive crop,its cultivation and yield are limited by the photoperiodic con... Soybean(Glycine max[L.]Merr.)is an important crop that provides protein and vegetable oil for human consumption.As soybean is a photoperiod-sensitive crop,its cultivation and yield are limited by the photoperiodic conditions in the field.In contrast to other major crops,soybean has a special plant architecture and a special symbiotic nitrogen fixation system,representing two unique breeding directions.Thus,flowering time,plant architecture,and symbiotic nitrogen fixation are three critical or unique yielddetermining factors.This review summarizes the progress made in our understanding of these three critical yield-determining factors in soybean.Meanwhile,we propose potential research directions to increase soybean production,discuss the application of genomics and genomic-assisted breeding,and explore research directions to address future challenges,particularly those posed by global climate changes. 展开更多
关键词 SOYBEAN Grain yield Flowering time Plant architecture NODULATION symbiotic nitrogen fixation Genome study
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Differentiation trajectories and biofunctions of symbiotic and un-symbiotic fate cells in root nodules of Medicago truncatula 被引量:5
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作者 Qinyi Ye Fugui Zhu +6 位作者 Fanghao Sun Tai-Cheng Wang Jiale Wu Peng Liu Chen Shen Jiangli Dong Tao Wang 《Molecular Plant》 SCIE CAS CSCD 2022年第12期1852-1867,共16页
The root nodule is a complex symbiotic nitrogen fixation factory,in which cells are highly heterogeneous.However,the differentiation trajectories and interconnection of nodule cells remain largely unknown.In this stud... The root nodule is a complex symbiotic nitrogen fixation factory,in which cells are highly heterogeneous.However,the differentiation trajectories and interconnection of nodule cells remain largely unknown.In this study,we set up a modified protocol for nodule protoplast preparation and performed a single-cell RNA sequencing profiling of the indeterminate Medicago truncatula nodule.We designated 13 cell clusters with specific expression patterns in 14-day post inoculation nodules and constructed a spatial and functional cellular map based on experimental data and bioinformatic analyses.Pseudotime analysis further revealed that two groups of apical meristematic cells develop into symbiotic and un-symbiotic fate cells along their particular trajectories.Biofunction analysis of each cell cluster revealed their particularity and interrelation,especially that the un-infected cells in nitrogen fixation zone are also involved in nitrogen assimilation by undertaking the asparagine synthesis.Collectively,our data offer an important resource for investigating the mechanism of nodule organogenesis and symbiotic nitrogen fixation. 展开更多
关键词 single-cell RNA sequencing scRNA-seq nodule organogenesis symbiotic nitrogen fixation indeterminate nodule legume plant
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