Genome-wide characterization of the tomato GASA family identifies SlGASA1 as a repressor of fruit ripening

Gibberellins(GAs)play crucial roles in a wide range of developmental processes and stress responses in plants.However,the roles of GA-responsive genes in tomato(Solanum lycopersicum)fruit development remain largely unknown.Here,we identify 17 GASA(Gibberellic Acid-Stimulated Arabidopsis)family genes in tomato.These genes encode proteins with a cleavable signal peptide at their N terminus and a conserved GASA domain at their C terminus.The expression levels of all tomato GASA family genes were responsive to exogenous GA treatment,but adding ethylene eliminated this effect.Comprehensive expression profiling of SlGASA family genes showed that SlGASA1 follows a ripening-associated expression pattern,with low expression levels during fruit ripening,suggesting it plays a negative role in regulating ripening.Overexpressing SlGASA1 using a ripening-specific promoter delayed the onset of fruit ripening,whereas SlGASA1-knockdown fruits displayed accelerated ripening.Consistent with their delayed ripening,SlGASA1-overexpressing fruits showed significantly reduced ethylene production and carotenoid contents compared to the wild type.Moreover,ripening-related genes were downregulated in SlGASA1-overexpressing fruits but upregulated in SlGASA1-knockdown fruits compared to the wild type.Yeast two-hybrid,co-immunoprecipitation,transactivation,and DNA pull-down assays indicated that SlGASA1 interacts with the key ripening regulator FRUITFULL1 and represses its activation of the ethylene biosynthesis genes ACS2 and ACO1.Our findings shed new light on the role and mode of action of a GA-responsive gene in tomato fruit ripening.

Effectiveness and safety of Shenfu injection in septic patients with hypoperfusion:A multi-center,open-label,randomized,controlled trial

Background:To evaluate the effectiveness and safety of the Shenfu injection(SFI)combined with standard bundle treatment in septic patients with hypoperfusion.Method:This study was a multi-center,randomized,open-label,controlled trial conducted in four teaching hos-pitals in China.The septic patients with hypoperfusion and traditional Chinese medicine(TCM)syndrome with Yang-Qi deficiency were enrolled from January 2019,through September 2020.Eligible patients were randomly allocated in a 1:1 ratio to either receive 60 mL of SFI infusion per day plus standard treatment(SFI group)or stan-dard bundle treatment alone(control group).The primary outcome was 28-day all-cause mortality.Secondary outcomes were 90-day all-cause mortality time to weaning from mechanical ventilation,time to weaning from vasopressors,time to discharge from the ICU and hospital,and laboratory results after randomization.Results:A total of 188 patients completed the trail.This study revealed that the results of the SFI group and the control groups were not statistically significant in 28-day all-cause mortality(10.6%vs.20.2%,respectively;P=0.106).The infusion of SFI was associated with a significant reduction in the duration of vasopressor use(median=4.0 days,interquartile range[IQR]:2.0 days-6.0 days vs.median=5.0 days,IQR:3.0 days-8.0 days,respectively;P=0.043).Patients in the SFI group had statistically greater reductions in plasma lactate levels compared with those in the control group at the first 12 h(median=1.1 mmol/L,IQR:0.3-2.0 mmol/L vs.median=0.0 mmol/L,IQR:−0.2 to 0.8 mmol/L,respectively;P<0.001)and 24 h(median=1.4 mmol/L,IQR:0.3-2.2 mmol/L vs.median=0.4 mmol/L,IQR:−0.4 to 1.6 mmol/L,respectively;P=0.001).Conclusion:SFI plus standard therapy did not significantly decrease 28-day all-cause mortality for septic patients with hypoperfusion and TCM syndrome with Yang-Qi deficiency.

Intrapulse coherence degradation suppressing method of echo signal in coherent lidar

Aiming at coherence degradation during target detection,a suppressing method based on frequency-modulated continuous wave coherent lidar is proposed.Combined with a random iteration algorithm,a long-pulse echo signal with coherent degradation is matched with random phase noise of a certain frequency and achieves coherence restoration.Simulation and field experiment results show that this proposed method can recover the intrapulse coherence in long-pulse echo signals.In addition,for the real target echo signal at 4.2 and 19.8 km,the peak signal-to-noise ratio processed by this method is increased by 0.35 times and 4 times after pulse compression,respectively.

Direct phase control method for binary phase-shift keying space coherent laser communication

An optical phase locking method based on direct phase control is proposed.The core of this method is to synchronize the carrier by directly changing the phase of the local beam.The corresponding experimental device and the supporting algorithm were configured to verify the feasibility of this method.Phase locking can be completed without cycle skipping,and the acquisition time is 530 ns.Without an optical preamplifier,a sensitivity of-34.4 d Bm is obtained,and the bit error rate is 10^(-9) for 2.5 Gbit/s binary phase-shift keying modulation.The measured standard deviation of the phase error is 5.2805°.

Imaging process and signal-to-noise ratio improvement of enhanced self-heterodyne synthetic aperture imaging ladar

This Letter gives the general construction of an enhanced self-heterodyne synthetic aperture imaging ladar（SAIL） system, and proposes the principle of image processing. A point target is reconstructed in the enhanced self-heterodyne SAIL as well as in down-looking SAIL experiments, and the achieved imaging resolution of the enhanced self-heterodyne SAIL is analyzed. The signal-to-noise ratio（SNR） of the point target final image in the enhanced self-heterodyne SAIL is higher than that in the down-looking SAIL. The enhanced self-heterodyne SAIL can improve the SNR of the target image in far-distance imaging, with practicality.

Ginsenoside Rb1 Reduces D-GalN/LPS-induced Acute Liver Injury by Regulating TLR4/NF-κB Signaling and NLRP3 Inflammasome

Background and Aims:The effect of ginsenoside Rb1 on D-galactosamine(D-GalN)/lipopolysaccharide(LPS)-induced acute liver injury(ALI)is unknown.The aim of this study was to evaluate the effect of ginsenoside Rb1 on ALI and its underlying mechanisms.Methods:Mice were pretreated with ginsenoside Rb1 by intraperitoneal injection for 3 days before D-GalN/LPS treatment,to induce ALI.The survival rate was monitored every hour for 24 h,and serum biochemical parameters,hepatic index and histopathological analysis were evaluated to measure the degree of liver injury.ELISA was used to detect oxidative stress and inflammatory cytokines in hepatic tissue and serum.Immunohistochemistry staining,RT-PCR and western blotting were performed to evaluate the expression of toll-like receptor 4(TLR4),nuclear factorkappa B(NF-κB),and NLR family,pyrin domain-containing 3 protein(NLRP3)in liver tissue and Kupffer cells(KCs).Results:Ginsenoside Rb1 improved survival with D-GalN/LPS-induced ALI by up to 80%,significantly ameliorated the increased alanine and aspartate transaminase,restored the hepatic pathological changes and reduced the levels of oxidative stress and inflammatory cytokines altered by D-GalN/LPS.Compared to the control group,the KCs were increased in the D-GalN/LPS groups but did not increase significantly with Rb1 pretreatment.D-GalN/LPS could upregulate while Rb1 pretreatment could downregulate the expression of interleukin(IL)-1β,IL-18,NLRP3,apoptosis associated specklike protein containing CARD(ASC)and caspase-1 in isolated KCs.Furthermore,ginsenoside Rb1 inhibited activation of the TLR4/NF-κB signaling pathway and NLRP3 inflammasome induced by D-GalN/LPS administration.Conclusions:Ginsenoside Rb1 protects mice against D-GalN/LPS-induced ALI by attenuating oxidative stress and the inflammatory response through the TLR4/NF-κB signaling pathway and NLRP3 inflammasome activation.