For antiviral signaling mediated by retinoic acid-inducible gene I (RiG-I)-like receptors (RLRs), the recruitment of cytosoUc RLRs and downstream molecules (such as TBK1 and IKKε) to mitochondriaL platform is a...For antiviral signaling mediated by retinoic acid-inducible gene I (RiG-I)-like receptors (RLRs), the recruitment of cytosoUc RLRs and downstream molecules (such as TBK1 and IKKε) to mitochondriaL platform is a central event that facilitates the establishment of host antiviral state. Here, we present an example of viral targeting for immune evasion through spatial isolation of TBK1/IKKε from mitochond riai antiviral platform, which was employed by severe fever with thrombocytopenia syndrome virus (SFTSV), a deadly bunyavirus emerging recently. We showed that SFTSV nonstructural protein NSs functions as the interferon (IFN) antagonist, mainly via suppressing TBK1/IKKε-IRF3 signaling. NSs mediates the formation of cytoplasmic inclusion bodies (IBs), and the blockage of IB formation impairs IFN-inhibiting activity of NSs. We next demonstrate that I Bs are utilized to compartmentalize TBK1/I KKε. The compartmentalization results in spatial isolation of the kinases from mitochondria, and deprived TBK1/IKKε may participate in antiviral complex assembly, leadingto the blockage of lFN ind uction. This study proposes a new role of viral I Bs as virus-built'jail' for imprisoning cellular factors and presents a novel and likely common mechanism of viral immune evasion through spatial isolation of critical signaling molecules from the mitochondrial antiviral platform.展开更多
Niche differentiation enables ecologically similar species to coexist by lessening competition over food and/or shelters and may be critical for reproductive isolation between closely related species in close proximit...Niche differentiation enables ecologically similar species to coexist by lessening competition over food and/or shelters and may be critical for reproductive isolation between closely related species in close proximity.Because no extra traits need to evolve,spatial and temporal differentiation may readily take place to complement other isolating mechanisms.Two closely related treefrog species occur together in Korea:the endangered Hyla suweonensis and the widespread Hyla japonica.Advertisement calls are differentiated,but it is unclear whether call difference is sufficient for reproductive isolation.We tracked individuals of both species to study fine-scale differentiation in microhabitat use in the diel cycle of the breeding season using a harmonic direction finder.tracking male movement patterns of both species revealed spatial and temporal differentiation in microhabitat use for calling and resting during the breeding season.Males of both H.suweonensis and H.japonica occurred in all 5 microhabitats identified in this study:rice paddy,ground,buried,grass and bush.Both treefrog species showed general similarities in calling from rice paddies and resting in grass and bush.However,H.suweonensis moved into rice paddies and produced advertisement calls 3 h earlier than H.japonica.These differences likely minimize contact between the species and provide an additional isolating mechanism.In addition,the activity of H.suweonensis may be contributing to the decline of this species,as resting in grass would increase dangers from predatory birds and habitat disturbance.展开更多
Super-resolution microscopy(SRM)is a powerful imaging technique that overcomes the diffraction limit and allows imaging of the object structure in the nanoscale.However,SRM suffers from a tradeoff between spatial and ...Super-resolution microscopy(SRM)is a powerful imaging technique that overcomes the diffraction limit and allows imaging of the object structure in the nanoscale.However,SRM suffers from a tradeoff between spatial and temporal resolution,which prevents further exploration in scientific discoveries.In this review,we mainly focus on the development of improving spatiotemporal resolution of SRM,including 1)SRM based on physical and computational principles,2)physical and computational factors affecting SRM,from which we conclude some strategies for developing new types of SRM,3)the summary of the various types of SRM based on physical and computational principles,as well as,the analysis of the ordinary and developing SRM.Both SRMs based on physical principles and computational principles can be realized with spatial isolation and temporal isolation methods.We expect this review will offer some new ideas to improve the spatial and temporal resolution simultaneously,which may lead to more new discoveries in biology,chemistry,and materials science.展开更多
Spatially isolated oxidation and reduction cocatalysts on a semiconductor can realize efficient charge separation and thereby lead to increased photocatalytic hydrogen generation. However, the effective preparation of...Spatially isolated oxidation and reduction cocatalysts on a semiconductor can realize efficient charge separation and thereby lead to increased photocatalytic hydrogen generation. However, the effective preparation of such photocatalysts has proven challenging.Herein, we report the facile synthesis of a novel noblemetal-free CdS/MoS/CoPi ternary photocatalyst via a visible light-induced synthesis route, in which MoSreduction cocatalysts were precisely grown on the two terminals of CdS nanorods, while CoPi oxidation cocatalysts were preferentially anchored onto the sidewalls of CdS nanorods. Such spatially isolated MoSand CoPi redox cocatalysts endow CdS nanorods with a rapid charge separation, which enhances their hydrogen generation activity. The CdS/MoS/CoPi photocatalyst with optimized CoPi amount achieves the highest Hgeneration rate of 206 μmol/h, which is 21 and 2 times higher than that achieved by using CdS alone(9.7 μmol/h) and CdS/MoS(105 μmol/h), respectively. The present work highlights the effectiveness of the spatial isolation of reduction and oxidation sites for efficient charge separation and thereby provides a promising strategy for the preparation of highly active photocatalysts.展开更多
基金Acknowtedgements We thank Dr Hong-Bing Shu (Wuhan University, China) for supplying reporter and expression plasmids. This work was supported by the National Science Foundation of China (grant numbers 31125003 and 31321001), the Science and Technology Basic Work Program (grant number 2013FY113500), and the National Basic Research Program (973 Program) of China (grant numbers 2010CB530100 and 2013CB911101).
文摘For antiviral signaling mediated by retinoic acid-inducible gene I (RiG-I)-like receptors (RLRs), the recruitment of cytosoUc RLRs and downstream molecules (such as TBK1 and IKKε) to mitochondriaL platform is a central event that facilitates the establishment of host antiviral state. Here, we present an example of viral targeting for immune evasion through spatial isolation of TBK1/IKKε from mitochond riai antiviral platform, which was employed by severe fever with thrombocytopenia syndrome virus (SFTSV), a deadly bunyavirus emerging recently. We showed that SFTSV nonstructural protein NSs functions as the interferon (IFN) antagonist, mainly via suppressing TBK1/IKKε-IRF3 signaling. NSs mediates the formation of cytoplasmic inclusion bodies (IBs), and the blockage of IB formation impairs IFN-inhibiting activity of NSs. We next demonstrate that I Bs are utilized to compartmentalize TBK1/I KKε. The compartmentalization results in spatial isolation of the kinases from mitochondria, and deprived TBK1/IKKε may participate in antiviral complex assembly, leadingto the blockage of lFN ind uction. This study proposes a new role of viral I Bs as virus-built'jail' for imprisoning cellular factors and presents a novel and likely common mechanism of viral immune evasion through spatial isolation of critical signaling molecules from the mitochondrial antiviral platform.
基金supported financially by the National Research Foundation of Korea(grant number 2012R1A2A2A01046977).
文摘Niche differentiation enables ecologically similar species to coexist by lessening competition over food and/or shelters and may be critical for reproductive isolation between closely related species in close proximity.Because no extra traits need to evolve,spatial and temporal differentiation may readily take place to complement other isolating mechanisms.Two closely related treefrog species occur together in Korea:the endangered Hyla suweonensis and the widespread Hyla japonica.Advertisement calls are differentiated,but it is unclear whether call difference is sufficient for reproductive isolation.We tracked individuals of both species to study fine-scale differentiation in microhabitat use in the diel cycle of the breeding season using a harmonic direction finder.tracking male movement patterns of both species revealed spatial and temporal differentiation in microhabitat use for calling and resting during the breeding season.Males of both H.suweonensis and H.japonica occurred in all 5 microhabitats identified in this study:rice paddy,ground,buried,grass and bush.Both treefrog species showed general similarities in calling from rice paddies and resting in grass and bush.However,H.suweonensis moved into rice paddies and produced advertisement calls 3 h earlier than H.japonica.These differences likely minimize contact between the species and provide an additional isolating mechanism.In addition,the activity of H.suweonensis may be contributing to the decline of this species,as resting in grass would increase dangers from predatory birds and habitat disturbance.
基金Part of the work described in this review was supported by the National Natural Science Foundation of China(62205298)Zhejiang Provincial Natural Science Foundation of China(LQ23F050008).
文摘Super-resolution microscopy(SRM)is a powerful imaging technique that overcomes the diffraction limit and allows imaging of the object structure in the nanoscale.However,SRM suffers from a tradeoff between spatial and temporal resolution,which prevents further exploration in scientific discoveries.In this review,we mainly focus on the development of improving spatiotemporal resolution of SRM,including 1)SRM based on physical and computational principles,2)physical and computational factors affecting SRM,from which we conclude some strategies for developing new types of SRM,3)the summary of the various types of SRM based on physical and computational principles,as well as,the analysis of the ordinary and developing SRM.Both SRMs based on physical principles and computational principles can be realized with spatial isolation and temporal isolation methods.We expect this review will offer some new ideas to improve the spatial and temporal resolution simultaneously,which may lead to more new discoveries in biology,chemistry,and materials science.
基金financially supported by National Natural Science Foundation of China(22102002,52072001,51872003)Natural Science Foundation of Anhui Province(2108085QE192)。
文摘Spatially isolated oxidation and reduction cocatalysts on a semiconductor can realize efficient charge separation and thereby lead to increased photocatalytic hydrogen generation. However, the effective preparation of such photocatalysts has proven challenging.Herein, we report the facile synthesis of a novel noblemetal-free CdS/MoS/CoPi ternary photocatalyst via a visible light-induced synthesis route, in which MoSreduction cocatalysts were precisely grown on the two terminals of CdS nanorods, while CoPi oxidation cocatalysts were preferentially anchored onto the sidewalls of CdS nanorods. Such spatially isolated MoSand CoPi redox cocatalysts endow CdS nanorods with a rapid charge separation, which enhances their hydrogen generation activity. The CdS/MoS/CoPi photocatalyst with optimized CoPi amount achieves the highest Hgeneration rate of 206 μmol/h, which is 21 and 2 times higher than that achieved by using CdS alone(9.7 μmol/h) and CdS/MoS(105 μmol/h), respectively. The present work highlights the effectiveness of the spatial isolation of reduction and oxidation sites for efficient charge separation and thereby provides a promising strategy for the preparation of highly active photocatalysts.
