Aluminum hypophosphite (AHP) was first used to improve the flame retardance of low‐density polyethylene (LDPE). The flame‐retardant properties of LDPE composites were investigated by the limiting oxygen index, vertical burning test (UL‐94), microscale combustion calorimetry, and cone calorimeter tests. The results showed that the incorporation of AHP could improve the flame retardancy of LDPE dramatically, the limiting oxygen index of LDPE containing 50 phr AHP reached 27.5%, and the UL‐94 could pass V‐0 rating. The cone calorimeter test results indicated that PP/AHP composite exhibited superior performance, and the heat release rate and the total heat release of composites were significantly reduced. In addition, the strength of the char was improved with the load of AHP increased. The structure of the char was researched by Fourier transform infrared spectrometry (FTIR) and scanning electron microscope‐energy dispersive spectrometer, and the results revealed that AHP promoted the formation of compact char layer. The TG‐FTIR analyses proved that AHP could react with LDPE to reduce the production of olefin in gas phase. Moreover, the structure of P–O–C was found, and the effective mechanism of AHP in LDPE composites was also hypothesized in this work.
Pectobacterium spp. and Dickeya spp. cause blackleg and soft rot on potato worldwide (Charkowski, 2018). Potato plants (cv. Favorita or Jizhang 8#) with blackleg symptoms (vascular browning of crown stems, Fig. S1) were observed in the field in Zhangjiakou, Hebei province in 2018, and in Ningde, Fujian Province in 2019, in China. The disease incidence was around 50% and 10% in Zhangjiakou (5 ha) and Ningde (4 ha), respectively. Diseased plants (3 from each site) were collected to isolate the pathogen. Blackleg symptomatic stems were soaked in 75% ethanol for 2 min, rinsed and ground in sterile distilled water. Serial tenfold dilutions of the above solution were plated onto the crystal violet pectate agar (CVP) plate (Ge et al., 2018). Two to 3 days after incubation at 28°C, 4 bacterial colonies in total which digested pectin from the media and developed pit on CVP plates were purified and sequenced for identification using the universal 16S rRNA gene primer set 27F/1492R (Monciardini et al., 2002). Two colony sequences that showed more than 99% sequence identity to Pectobacterium punjabense type strain SS95 (MH249622) were submitted to the GenBank ( accession numbers: OK510280, MT242589). Additionally, six housekeeping genes proA (OK546205, OK546199), gyrA (OK546206, OK546200), icdA (OK546207, OK546201), mdh (OK546208, OK546202), gapA (OK546209, OK546203), and rpoS (OK546210, OK546204) of these two isolates were amplified and sequenced (Ma et al., 2007, Waleron et al., 2008). All strains show 99% to 100% identity with MH249622T . Phylogenetic trees based on 16S rRNA gene sequences (Fig. S2) and concatenated sequences of the housekeeping genes (Fig. S3) of the 2 isolates were constructed using MEGA 6.0 software (Tamura et al., 2013). Koch’s postulate was performed on potato seedlings and potato tubers (cv. Favorita) by injecting 100 μl bacterial suspension (105 CFU/ml) or sterile phosphate-buffered solution into the crown area of the stems or the tubers and kept at 100% humidity and 21°C for 1 day. Four days after inoculation, the infected area of the inoculated seedlings rotten and turned black, while the controls were symptomless (Fig. S4). Two days after inoculation, the infected tubers rotten and turned black, while the controls were symptomless (Fig. S4). Bacterial colonies were reisolated from these symptomatic tissues and identified using the same methods described above. Blackleg on potato plants or soft rot on potato has been reported to be caused by Pectobacterium atrosepticum, Pectobacterium carotovorum subsp. carotovorum, Pectobacterium carotovorum subsp. brasiliense, Pectobacterium parmentieri, Pectobacterium polaris in China (Zhao et al., 2018; Cao et al., 2021; Wang et al., 2021). To our knowledge, this is the first report of blackleg/soft rot of potato caused by Pectobacterium punjabense in China. We believe that this report will draw attention to the management of this pathogen in China.
Owing to messenger RNA's unique biological advantages, it has received increasing attention to be used as a therapeutic, known as mRNA-based gene therapy. It is critical to have an ideal strategy of mRNA gene therapy for glioma, which grows in a special environment. In the present study, we screened out a safe and efficient transfection reagent for intracranial delivery of synthetic mRNA in mouse brain. First, in order to analyze the effect of different transfection reagents on the intracranial delivery of mRNA, the synthetic luciferase mRNA was wrapped with two different transfection reagents and microinjected into the brain at the fixed point. The expression status of delivered mRNA was monitored by a small animal imaging system. The possible reagent-induced biological toxicity was evaluated by behavioral and blood biochemical measurements. Then, to test the therapeutic effect of our intracranial delivery mRNA model on glioma, synthetic modified tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) mRNA was used as an example of therapeutic application. This model demonstrated that synthetic mRNA could be successfully delivered into the brain using commercially available transfection reagents, and TransIT-mRNA showed better results than in vivo -jetPEI kit. This model can be applied in precise targeting and personalized gene therapy of glioma.
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