The phytohormone abscisic acid (ABA) regulates plant growth and development as well as stress tolerance. To gain more insights into ABA signalling, a population of chemical-inducible activation-tagged Arabidopsis mutants was screened on the basis of the ABA effect on the inhibition of seed germination. Two novel ABA supersensitive mutants ABA supersensitive during germination1 (absg1) and absg2 were characterized as alleles of Dicer-like1 (DCL1) and HEN1, respectively, as microRNA biogenesis genes, and accordingly, these two mutants were renamed dcl1-11 and hen1-16. The dcl1-11 mutant was an ABA hypersensitive mutant for seed germination and root growth. Reverse transcriptase polymerase chain reaction assays revealed that the expression of ABA-and stressresponsive genes was increased in dcl1-11, as compared with the wild type (WT). Furthermore, the germination assay showed that dcl1-11 was also more sensitive to salt and osmotic stress. The hen1-16 mutant also showed supersensitive to ABA during seed germination. Further analysis showed that, among the microRNA biogenesis genes, all the other mutants were not only enhanced in sensitivity to ABA, salt and osmotic stress, but also enhanced the expression of ABA-responsive genes. In addition to the mutants in the microRNA biogenesis, the interruption of the production of crucial components of other small RNA pathways such as dcl2, dcl3 and dcl4 also caused ABA supersensitive during germination.
Xyloglucan endotransglucosylase/hydrolases (XTHs) are a class of enzymes that mediate the construction and restructure of the cellulose/xyloglucan framework by splitting and reconnecting xyloglucan molecule cross-linking among cellulose microfibrils. Remodification of cellulose microfibrils within cell-wall matrices is realized to be one of the most critical steps in the regulation of cells expansion in plants. Thirty-three XTH genes have been found in Arabidopsis thaliana but their roles remain unclear. AtXTH21 (At2g18800), an Arabidopsis XTH gene that mainly expresses in root and flower, exhibits different expression profiles from other XTH members under hormone treatment. We examined loss-of-function mutants using T-DNA insertion lines and overexpression lines and found that the AtXTH21 gene played a principal role in the growth of the primary roots by altering the deposition of cellulose and the elongation of cell wall.
Edited by Shou-Wei DingKeywords: Viral RNA silencing suppressor Argonaute4 Cucumber mosaic virus a b s t r a c t Alignment of Cucumber mosaic virus (CMV) 2b protein sequences from two CMV subgroups revealed two highly variable regions. To examine contributions of variable sequence domains to the suppressor activity, we performed a comparative study between 2b proteins of a subgroup I strain (SD-CMV) and a subgroup II strain (Q-CMV). Here we show that the suppressor activity of SD2b is stronger than that of Q2b and that a domain existent in SD2b but absent in Q2b is a major determinant of the suppressor activity of SD2b. We further show that the same domain is responsible for inhibition of Nicotiana benthamiana AGO4-1 transcription. Our results implicate AGO4 as a mediator for CMV 2b to suppress systemic silencing and DNA methylation.
In this paper, a novel core-shell hybrid nanoparticle with a silver core and cross-linked poly(3-acrylamidephenylboronic acid-co-acrylic acid) shell (Ag@PAPBA-PAA) was reported. The prepared hybrid nanoparticles can exhibit good responsiveness to the glucose concentration and pH of the environment and exhibit a responsive swelling and shrinking behavior. Tuned by the glucose concentration or pH, a swelling of up to 15.0 nm thickness of the hybrid nanoparticle shell can be observed. These unique responsive properties can be employed to tune the metal-enhanced fluorescence (MEF) effects of the incorporated Ag cores. The fluorescence of adsorbed positively charged porphyrin molecules (Por(4+)) shows good sensitivity to the glucose concentration and pH with an enhancement of up to about 1.8-fold. These functional hybrid nanoparticles with tunable MEF effects show a great potential application in the fields of responsive fluorescent sensing and detection.
High-color
purity organic emitters with a simultaneous combination
of aggregation-induced emission (AIE) and thermally activated delayed
fluorescence (TADF) characteristics are in great demand due to their
excellent comprehensive performances toward efficient organic light-emitting
diodes (OLEDs). In this work, two D−π–A-structure
emitters, ICz-DPS and ICz-BP, exhibiting AIE and TADF properties were
developed, and both the emitters have narrow singlet (S1)–triplet (T1) splitting (ΔE
ST) and excellent photoluminescence (PL) quantum yields
(ΦPL), derived from the distorted configurations
and weak intra/intermolecular interactions, suppressing exciton annihilation
and concentration quenching. Their doped OLEDs based on ICz-BP provide
an excellent electroluminescence external quantum efficiency (ηext) and current efficiency (ηC) of 17.7%
and 44.8 cd A–1, respectively, with an ηext roll-off of 2.9%. Their nondoped OLEDs based on ICz-DPS
afford high efficiencies of 11.7% and 30.1 cd A–1, with pure-blue emission with Commission Internationale de l’Éclairage
(CIE) coordinates of (0.15, 0.08) and a low roll-off of 6.0%. This
work also shows a strategy for designing AIE–TADF molecules
by rational use of steric hindrance and weak inter/intramolecular
interactions to realize high ΦPL values, fast reverse
intersystem crossing process, and reduced nonradiative transition
process properties, which may open the way toward highly efficient
and small-efficiency roll-off devices.
Plant cell walls may play an important role in the uptake and accumulation of heavy metals. This study was undertaken to obtain a better understanding of the role of the root cell walls (RCW) and their subfractions on adsorption of cadmium (Cd) in a promising woody phytoremediation species, Salix jiangsuensis J172. In order to examine how Cd binding was affected by pectin and hemicellulose, RCW were isolated and sequentially fractioned by removing pectin (RCW1), partial removal of hemicellulose (RCW2), and complete removal of hemicellulose (RCW3). The RCW and fractions were characterized by Fourier transform infrared spectroscopy, which suggested decomposition of hemicellulose and a decline in nitrogen content following cell wall isolation and fractionation. The adsorption affinity of Cd increased gradually following the sequential extraction of root cells, suggesting that hemicellulose negatively impacted Cd adsorption, while pectin and cellulose enhanced Cd adsorption. Cd adsorption dynamics and isotherms could be best described by the pseudo-second-order (R>0.99) and Freundlich (R>0.97) models, respectively. Thermodynamic properties (∆G, ∆H, and ∆S), determined using the van't Hoff equation, indicated that while Cd adsorption was endothermic, and spontaneous for RCW2 and RCW3, adsorption was not spontaneous for the root, RCW, and RCW1. The results provide evidence for the importance of the root cell walls in the adsorption of Cd by willow roots.
The development of pure deep-blue emitters with excellent optoelectronic and electroluminescence (EL) properties is full of challenges due to limited molecular designs. Herein, three novel color-tunable phenylcarbazole derivatives based emitters...
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