Plants are equipped to recognize invading pathogenic microbes and activate innate immune responses by sensing pathogen-associated molecular patterns (PAMPs). PAMP-triggered immunity (PTI) is critical for plant res...Plants are equipped to recognize invading pathogenic microbes and activate innate immune responses by sensing pathogen-associated molecular patterns (PAMPs). PAMP-triggered immunity (PTI) is critical for plant resistance to potential pathogens. Although the mechanism by which PTI is activated has been intensively studied, exactly how plants prevent unregulated immune responses is less well understood. Here we provide evidence that AHL20, an AT-hook containing DNA-binding protein, negatively regulates PTI. Overexpression of AHL20 as a stable transgene suppressed PAMP-induced NH01 and FRK1 expression in Arabidopsis plants. Similarly, transient expression of the closely related family members AHL19, AHL15, and AHL27 in protoplasts also blocked PAMP-induced gene expression. The AHL20 overexpression plants displayed greater susceptibility to virulent Pseudomonas syringae bacteria. These results indicate that AHL proteins play an important role in plant immunity.展开更多
Photonic waveguide arrays provide a simple and versatile platform for simulating conventional topological systems.Here,we investigate a novel one-dimensional(1D)topological band structure,a dimer chain,consisting of s...Photonic waveguide arrays provide a simple and versatile platform for simulating conventional topological systems.Here,we investigate a novel one-dimensional(1D)topological band structure,a dimer chain,consisting of silicon waveguides with alternating self-coupling and inter-coupling.Coupled mode theory is used to study topological features of such a model.It is found that topological invariants of our proposed model are described by the global Berry phase instead of the Berry phase of the upper or lower energy band,which is commonly used in the1 D topological models such as the Su–Schrieffer–Heeger model.Next,we design an array configuration composed of two dimer patterns with different global Berry phases to realize the topologically protected waveguiding.The topologically protected propagation feature is simulated based on the finite-difference time-domain method and then observed in the experiment.Our results provide an in-depth understanding of the dynamics of the topological defect state in a 1D silicon waveguide array,and may provide different routes for on-chip lightwave shaping and routing.展开更多
文摘Plants are equipped to recognize invading pathogenic microbes and activate innate immune responses by sensing pathogen-associated molecular patterns (PAMPs). PAMP-triggered immunity (PTI) is critical for plant resistance to potential pathogens. Although the mechanism by which PTI is activated has been intensively studied, exactly how plants prevent unregulated immune responses is less well understood. Here we provide evidence that AHL20, an AT-hook containing DNA-binding protein, negatively regulates PTI. Overexpression of AHL20 as a stable transgene suppressed PAMP-induced NH01 and FRK1 expression in Arabidopsis plants. Similarly, transient expression of the closely related family members AHL19, AHL15, and AHL27 in protoplasts also blocked PAMP-induced gene expression. The AHL20 overexpression plants displayed greater susceptibility to virulent Pseudomonas syringae bacteria. These results indicate that AHL proteins play an important role in plant immunity.
基金the National Basic Research Program of China(No.2015CB659400)the Natural Science Foundation of Jiangsu Province(No.BK20150057)the Fundamental Research Funds for the Central Universities(No.021314380100).
文摘Photonic waveguide arrays provide a simple and versatile platform for simulating conventional topological systems.Here,we investigate a novel one-dimensional(1D)topological band structure,a dimer chain,consisting of silicon waveguides with alternating self-coupling and inter-coupling.Coupled mode theory is used to study topological features of such a model.It is found that topological invariants of our proposed model are described by the global Berry phase instead of the Berry phase of the upper or lower energy band,which is commonly used in the1 D topological models such as the Su–Schrieffer–Heeger model.Next,we design an array configuration composed of two dimer patterns with different global Berry phases to realize the topologically protected waveguiding.The topologically protected propagation feature is simulated based on the finite-difference time-domain method and then observed in the experiment.Our results provide an in-depth understanding of the dynamics of the topological defect state in a 1D silicon waveguide array,and may provide different routes for on-chip lightwave shaping and routing.
