Coupling to metal nanoparticles can increase the fluorescence intensity and photostability of fluorescent probes, and this plasmon-enhanced fluorescence is particularly promising for the dimmer fluorescent proteins common in biological imaging. Here, we measure the intensity distribution of single Cy3.5 dye molecules and mCherry fluorescent proteins one at a time as they adsorb on a conformal surface 4.8−61.0 nm thick over a gold nanorod (NR). The emission intensities for both types of fluorophores depend nonmonotonically on the spacer thickness, and an optimal spacer thickness of ∼10 nm is observed for both fluorophores using two different spacer layer materials. Emission from fluorophores coupled to metal nanoparticles is affected by two competing processes: an enhanced spontaneous decay rate and quenching via nonradiative antenna modes. After averaging over a conformal surface, the product of the simulated enhanced local electric field intensity and the quantum efficiency modification reproduces the experimental 10 nm ideal spacer thickness. Overall, up to a 3.4-fold average enhancement in fluorescence intensity was achieved despite the simple geometry, based on biocompatible, tunable, and economic colloidal gold NRs. This study of the distance dependence of single-molecule plasmon-enhanced fluorescence shows promise for super-resolving cellular membrane proteins naturally positioned above an extracellular substrate.
Arginine decarboxylase (ADC)-mediated putrescine biosynthesis plays an important role in plant stress responses, but the transcriptional regulation of ADC in response to abiotic stress is not well understood. We isolated a NAM, ATAF1/2, and CUC (NAC) domain-containing transcription factor, PtrNAC72, from trifoliate orange (Poncirus trifoliata) by yeast one-hybrid screening. PtrNAC72, localized to the nucleus, binds specifically to the promoter of PtADC and acts as a transcriptional repressor. PtrNAC72 expression was induced by cold, drought, and abscisic acid. ADC messenger RNA abundance and putrescine levels were decreased in transgenic tobacco (Nicotiana nudicaulis) plants overexpressing PtrNAC72 but increased, compared with the wild type, in an Arabidopsis (Arabidopsis thaliana) transfer DNA insertion mutant, nac72 While transgenic tobacco lines overexpressing PtrNAC72 were more sensitive to drought, plants of the Arabidopsis nac72 mutant exhibited enhanced drought tolerance, consistent with the accumulation of reactive oxygen species in the tested genotypes. In addition, exogenous application of putrescine to the overexpression lines restored drought tolerance, while treatment with d-arginine, an ADC inhibitor, compromised the drought tolerance of nac72 Taken together, these results demonstrate that PtrNAC72 is a repressor of putrescine biosynthesis and may negatively regulate the drought stress response, at least in part, via the modulation of putrescine-associated reactive oxygen species homeostasis.
Memristive devices have been widely employed to emulate biological synaptic behavior. In these cases, the memristive switching generally originates from electrical field induced ion migration or Joule heating induced phase change. In this letter, the Ti/ZnO/Pt structure was found to show memristive switching ascribed to a carrier trapping/detrapping of the trap sites (e.g., oxygen vacancies or zinc interstitials) in ZnO. The carrier trapping/detrapping level can be controllably adjusted by regulating the current compliance level or voltage amplitude. Multi-level conductance states can, therefore, be realized in such memristive device. The spike-timing-dependent plasticity, an important Hebbian learning rule, has been implemented in this type of synaptic device. Compared with filamentary-type memristive devices, purely electronic memristors have potential to reduce their energy consumption and work more stably and reliably, since no structural distortion occurs.
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