Optical bistability(OB)is capable of rapidly and reversibly transforming a parameter of an optical signal from one state to another,and homologous nonlinear optical bistable devices are core components of high-speed a...Optical bistability(OB)is capable of rapidly and reversibly transforming a parameter of an optical signal from one state to another,and homologous nonlinear optical bistable devices are core components of high-speed all-optical communication and all-optical networks.In this paper,we theoretically investigated the controllable OB from a Fabry-Pérot(FP)cavity with a nonlinear three-dimensional Dirac semimetal(3D DSM)in the terahertz band.The OB stems from the third-order nonlinear bulk conductivity of the 3D DSM and the resonance mode has a positive effect on the generation of OB.This FP cavity structure is able to tune the OB because the transmittance and the reflectance can be modulated by the Fermi energy of the 3D DSM.We believe that this FP cavity configuration could provide a reference concept for realizing tunable bistable devices.展开更多
Nitrate is a major nitrogen resource for plant growth and development and acts as both a crucial nutrient and a signaling molecule for plants;hence,understanding nitrate signaling is important for crop production.Absc...Nitrate is a major nitrogen resource for plant growth and development and acts as both a crucial nutrient and a signaling molecule for plants;hence,understanding nitrate signaling is important for crop production.Abscisic acid(ABA)has been demonstrated to be involved in nitrate signaling,but the underlying mechanism is largely unknown in apple.In this study,we found that exogenous ABA inhibited the transport of nitrate from roots to shoots in apple,and the transcription of the nitrate transporter MdNRT1.5/MdNPF7.3 was noticeably reduced at the transcriptional level by ABA,which inhibited the transport of nitrate from roots to shoots.Then,it was found that the ABA-responsive transcription factor MdABI5 bound directly to the ABRE recognition site of the MdNRT1.5 promoter and suppressed its expression.Overexpression of MdABI5 inhibited ABA-mediated transport of nitrate from roots to shoots.Overall,these results demonstrate that MdABI5 regulates the transport of nitrate from roots to shoots partially by mediating the expression of MdNRT1.5,illuminating the molecular mechanism by which ABA regulates nitrate transport in apple.展开更多
基金Project supported by the Wenzhou Major Science and Technology Innovation Project:Research and Industrialization of Key Technologies for Intelligent Dynamic Ultrahigh Pressure Microfluidizer(Grant No.ZG2023012)Wenzhou Major Science and Technology Innovation PR Project(Grant No.ZG2022011)+3 种基金the National Natural Science Foundation of China(Grant No.62305254)the Scientific Research Fund of the Natural Science Foundation of Hunan Province(Grant No.2022JJ30394)the Changsha Natural Science Foundation(Grant Nos.kq2202236 and kq2202246)the Science and Technology Project of Jiangxi Provincial Education Department(Grant No.GJJ190911).
文摘Optical bistability(OB)is capable of rapidly and reversibly transforming a parameter of an optical signal from one state to another,and homologous nonlinear optical bistable devices are core components of high-speed all-optical communication and all-optical networks.In this paper,we theoretically investigated the controllable OB from a Fabry-Pérot(FP)cavity with a nonlinear three-dimensional Dirac semimetal(3D DSM)in the terahertz band.The OB stems from the third-order nonlinear bulk conductivity of the 3D DSM and the resonance mode has a positive effect on the generation of OB.This FP cavity structure is able to tune the OB because the transmittance and the reflectance can be modulated by the Fermi energy of the 3D DSM.We believe that this FP cavity configuration could provide a reference concept for realizing tunable bistable devices.
基金This work was supported by grants from the National Key R&D Program of China(2018YFD1000100)National Natural Science Foundation of China(31772288 and 31972378)+1 种基金China Agriculture Research System of MOF and MARA(CARS-27)the Agricultural Variety Improvement Project of Shandong Province(2019LZGC007).
文摘Nitrate is a major nitrogen resource for plant growth and development and acts as both a crucial nutrient and a signaling molecule for plants;hence,understanding nitrate signaling is important for crop production.Abscisic acid(ABA)has been demonstrated to be involved in nitrate signaling,but the underlying mechanism is largely unknown in apple.In this study,we found that exogenous ABA inhibited the transport of nitrate from roots to shoots in apple,and the transcription of the nitrate transporter MdNRT1.5/MdNPF7.3 was noticeably reduced at the transcriptional level by ABA,which inhibited the transport of nitrate from roots to shoots.Then,it was found that the ABA-responsive transcription factor MdABI5 bound directly to the ABRE recognition site of the MdNRT1.5 promoter and suppressed its expression.Overexpression of MdABI5 inhibited ABA-mediated transport of nitrate from roots to shoots.Overall,these results demonstrate that MdABI5 regulates the transport of nitrate from roots to shoots partially by mediating the expression of MdNRT1.5,illuminating the molecular mechanism by which ABA regulates nitrate transport in apple.