The flowering time is a key trait that determines adaptation,yield and quality of crops.Adlay,a traditional cereal crop,has developed a distinctive agricultural industry in Southwest China and Southeast Asian countrie...The flowering time is a key trait that determines adaptation,yield and quality of crops.Adlay,a traditional cereal crop,has developed a distinctive agricultural industry in Southwest China and Southeast Asian countries.However,the currently planted varieties are all semi-domesticated landraces with delayed flowering and excessive height.These defects limit yield improvement per unit area and mechanized harvesting.In this study,a major QTL associated with flowering time and plant height in adlay has been mapped and identified as Cl CCT,a gene having a conserved function and regulatory pathway for inhibiting flowering time and increasing plant height in gramineous crops.Among the six identified haplotypes of Cl CCT,the haplotype with 38-bp insertion in promoter region of Cl CCT has earlier flowering time and wider geographical distribution than other haplotypes.The insertion variation,which arises from the segmental duplication of Cl CCT,can inhibit the expression level of reporter gene and has been used in breeding for early maturity and dwarfing.These research results not only reinforce our understanding of the importance of CCT domain protein in the tropical crops adapting to high-latitude environment,but also provide a validated breeding target for the early maturity and dwarfing of adlay.展开更多
Coix is a grass crop domesticated as early as the Neolithic era.It is still widely cultivated for both highly nutritional food and medicinal use.However,the genetic study and breeding of this crop are hindered by the ...Coix is a grass crop domesticated as early as the Neolithic era.It is still widely cultivated for both highly nutritional food and medicinal use.However,the genetic study and breeding of this crop are hindered by the lack of a sequenced genome.Here,we report de novo sequencing and assembly of the 1619-Mb genome of Coix,and annotation of 75.39%repeats and 39629 protein-coding genes.Comparative genomics analysis showed that Coix is more closely related to sorghum than maize,but intriguingly only Coix and maize had a recent genome duplication event,which was not detected in sorghum.We further constructed a genetic map and mapped several important traits,especially the strength of hull.Selection of papery hull(thin:easy dehulling)from the stony hull(thick:difficult dehulling)in wild progenitors was a key step in Coix domestication.The papery hull makes seed easier to process and germinate.Anatomic and global transcriptome analysis revealed that the papery hull is a result of inhibition of cell division and wall biogenesis.We also successfully demonstrated that seed hull pressure resistance is controlled by two major quantitative trait loci(QTLs),which are associated with hull thickness and color,respectively.The two QTLs were further fine mapped within intervals of 250 kb and 146 kb,respectively.These resources provide a platform for evolutionary studies and will facilitate molecular breeding of this important crop.展开更多
Ozone stands out as a crucial trace gas within the Earth’s atmosphere,exerting a substantial influence on climate change and air pollution.Tropospheric ozone plays an important role in the formation of photochemical ...Ozone stands out as a crucial trace gas within the Earth’s atmosphere,exerting a substantial influence on climate change and air pollution.Tropospheric ozone plays an important role in the formation of photochemical smog,and its variations are associated with human activities.The utilization of satellite remote sensing technology for tropospheric ozone monitoring enables a quantitative analysis of its global and regional spatiotemporal characteristics.It also facilitates the investigation of the mechanisms involved in ozone formation within the troposphere.The significant progress in product accuracy and spatiotemporal resolution of ozone remote sensing products,including total ozone and vertical profiles,can be attributed to the extensive development of satellite remote sensing techniques.Nevertheless,the precision of tropospheric ozone products remains inadequate for contemporary scientific purposes,primarily because of faint signals in the lower atmosphere,the intricate nature of the underlying surface,and the existence of clouds and aerosols.This study places emphasis on the satellite remote sensing of tropospheric ozone,encompassing a comprehensive review of the advancements in satellite sensors and the characteristics and suitability of various retrieval algorithms.Moreover,this research delves into the possible utilization of satellite remote sensing for the provision of reliable tropospheric ozone observation data on a global and regional level.展开更多
Fiber-optic laser–ultrasound generation is being used in an increasing number of applications, including medical diagnosis, material characterization, and structural health monitoring. However, most currently used fi...Fiber-optic laser–ultrasound generation is being used in an increasing number of applications, including medical diagnosis, material characterization, and structural health monitoring. However, most currently used fiber-optic ultrasonic transducers allow effective ultrasound generation at only a single location, namely, at the fiber tip, although there have been a few limited proposals for achieving multipoint ultrasound generation along the length of a fiber. Here we present a novel fiber-optic ultrasound transducer that uses the core-offset splicing of fibers to effectively generate ultrasound at multiple locations along the fiber. The proposed laser–ultrasonic transducer can produce a balancedstrength signal between ultrasonic generation points by reasonably controlling the offsets of the fibers. The proposed transducer has other outstanding characteristics, including simple fabrication and low cost.展开更多
Molecular oxygen(O_(2))is an environmentally friendly,cost-effective,and non-toxic oxidant.Activation of O_(2) generates various highly oxidative reactive oxygen species(ROS),which efficiently degrade pollutants with ...Molecular oxygen(O_(2))is an environmentally friendly,cost-effective,and non-toxic oxidant.Activation of O_(2) generates various highly oxidative reactive oxygen species(ROS),which efficiently degrade pollutants with minimal environmental impact.Despite extensive research on the application of O_(2) activation in environmental remediation,a comprehensive review addressing this topic is currently lacking.This review provides an informative overview of recent advancements in O_(2) activation,focusing on three primary strategies:photocatalytic activation,chemical activation,and electrochemical activation of O_(2).We elucidate the respective mechanisms of these activation methods and discuss their advantages and disadvantages.Additionally,we thoroughly analyze the influence of oxygen supply,reactive temperature,and pH on the O_(2) activation process.From electron transfer and energy transfer perspectives,we explore the pathways for ROS generation during O_(2) activation.Finally,we address the challenges faced by researchers in this field and discuss future prospects for utilizing O_(2) activation in pollution control applications.This detailed analysis enhances our understanding and provides valuable insights for the practical implementation of organic pollutant degradation.展开更多
基金supported by the National Natural Science Foundation of China(32241044)Key project at central government level:The ability establishment of sustainable use for valuable Chinese medicine resources(2060302)+2 种基金China Academy of Chinese Medical Sciences Innovation Fund(CI2023E002)Sichuan Province Natural Science Foundation of China(2022NSFSC1688)Guizhou Province Science and Technology Support Program of China(Qiankehezhongyindi[2024]006-1 and Qiankehezhicheng[2022]Yiban 105)。
文摘The flowering time is a key trait that determines adaptation,yield and quality of crops.Adlay,a traditional cereal crop,has developed a distinctive agricultural industry in Southwest China and Southeast Asian countries.However,the currently planted varieties are all semi-domesticated landraces with delayed flowering and excessive height.These defects limit yield improvement per unit area and mechanized harvesting.In this study,a major QTL associated with flowering time and plant height in adlay has been mapped and identified as Cl CCT,a gene having a conserved function and regulatory pathway for inhibiting flowering time and increasing plant height in gramineous crops.Among the six identified haplotypes of Cl CCT,the haplotype with 38-bp insertion in promoter region of Cl CCT has earlier flowering time and wider geographical distribution than other haplotypes.The insertion variation,which arises from the segmental duplication of Cl CCT,can inhibit the expression level of reporter gene and has been used in breeding for early maturity and dwarfing.These research results not only reinforce our understanding of the importance of CCT domain protein in the tropical crops adapting to high-latitude environment,but also provide a validated breeding target for the early maturity and dwarfing of adlay.
基金supported by the National Natural Science Foundation of China(grant no.31971753,81703657)Key Project at Central Government Level:the Ability Establishment of Sustainable Use for Valuable Chinese Medicine Resources(2060302)+2 种基金the Fundamental Research Funds for Central Non-profit Scientific Institution of China(Y2017XM06,ZZ13-YQ-085)the Key Science and Technology Program of Biotechnology and Medicine of Sichuan Province(2018NZDZX0001)the National Basic Research Program of China(2014CB138705).
文摘Coix is a grass crop domesticated as early as the Neolithic era.It is still widely cultivated for both highly nutritional food and medicinal use.However,the genetic study and breeding of this crop are hindered by the lack of a sequenced genome.Here,we report de novo sequencing and assembly of the 1619-Mb genome of Coix,and annotation of 75.39%repeats and 39629 protein-coding genes.Comparative genomics analysis showed that Coix is more closely related to sorghum than maize,but intriguingly only Coix and maize had a recent genome duplication event,which was not detected in sorghum.We further constructed a genetic map and mapped several important traits,especially the strength of hull.Selection of papery hull(thin:easy dehulling)from the stony hull(thick:difficult dehulling)in wild progenitors was a key step in Coix domestication.The papery hull makes seed easier to process and germinate.Anatomic and global transcriptome analysis revealed that the papery hull is a result of inhibition of cell division and wall biogenesis.We also successfully demonstrated that seed hull pressure resistance is controlled by two major quantitative trait loci(QTLs),which are associated with hull thickness and color,respectively.The two QTLs were further fine mapped within intervals of 250 kb and 146 kb,respectively.These resources provide a platform for evolutionary studies and will facilitate molecular breeding of this important crop.
基金supported by the National Natural Science Foundation of China(grant nos.42375142 and 42305154)the Open Fund of Innovation Center for FengYun Meteorological Satellite(FYSIC)and“FengYun Application Pioneering Project”(grant no.FY-APP-ZX-2022.0214)the National Civilian Space Infrastructure Project(grant no.Y5BZ31AC60).
文摘Ozone stands out as a crucial trace gas within the Earth’s atmosphere,exerting a substantial influence on climate change and air pollution.Tropospheric ozone plays an important role in the formation of photochemical smog,and its variations are associated with human activities.The utilization of satellite remote sensing technology for tropospheric ozone monitoring enables a quantitative analysis of its global and regional spatiotemporal characteristics.It also facilitates the investigation of the mechanisms involved in ozone formation within the troposphere.The significant progress in product accuracy and spatiotemporal resolution of ozone remote sensing products,including total ozone and vertical profiles,can be attributed to the extensive development of satellite remote sensing techniques.Nevertheless,the precision of tropospheric ozone products remains inadequate for contemporary scientific purposes,primarily because of faint signals in the lower atmosphere,the intricate nature of the underlying surface,and the existence of clouds and aerosols.This study places emphasis on the satellite remote sensing of tropospheric ozone,encompassing a comprehensive review of the advancements in satellite sensors and the characteristics and suitability of various retrieval algorithms.Moreover,this research delves into the possible utilization of satellite remote sensing for the provision of reliable tropospheric ozone observation data on a global and regional level.
基金National Natural Science Foundation of China(NSFC)(61575051,61675055)Shenzhen Municipal Science and Technology Plan Project(JCYJ20150529114045265,JSGG2015 0529153336124,KQCX20140521144416706)
文摘Fiber-optic laser–ultrasound generation is being used in an increasing number of applications, including medical diagnosis, material characterization, and structural health monitoring. However, most currently used fiber-optic ultrasonic transducers allow effective ultrasound generation at only a single location, namely, at the fiber tip, although there have been a few limited proposals for achieving multipoint ultrasound generation along the length of a fiber. Here we present a novel fiber-optic ultrasound transducer that uses the core-offset splicing of fibers to effectively generate ultrasound at multiple locations along the fiber. The proposed laser–ultrasonic transducer can produce a balancedstrength signal between ultrasonic generation points by reasonably controlling the offsets of the fibers. The proposed transducer has other outstanding characteristics, including simple fabrication and low cost.
基金Distinguished Youth Science Foundation of Heilongjiang Province,China(JQ2023E001)Young Leading Talents of Northeast Agricultural University,China(NEAU2023QNLJ-013).
文摘Molecular oxygen(O_(2))is an environmentally friendly,cost-effective,and non-toxic oxidant.Activation of O_(2) generates various highly oxidative reactive oxygen species(ROS),which efficiently degrade pollutants with minimal environmental impact.Despite extensive research on the application of O_(2) activation in environmental remediation,a comprehensive review addressing this topic is currently lacking.This review provides an informative overview of recent advancements in O_(2) activation,focusing on three primary strategies:photocatalytic activation,chemical activation,and electrochemical activation of O_(2).We elucidate the respective mechanisms of these activation methods and discuss their advantages and disadvantages.Additionally,we thoroughly analyze the influence of oxygen supply,reactive temperature,and pH on the O_(2) activation process.From electron transfer and energy transfer perspectives,we explore the pathways for ROS generation during O_(2) activation.Finally,we address the challenges faced by researchers in this field and discuss future prospects for utilizing O_(2) activation in pollution control applications.This detailed analysis enhances our understanding and provides valuable insights for the practical implementation of organic pollutant degradation.
