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To realize “seamless” connection of ocean port container multimodal transport, efficiently carry out “door-to-door” transport of ocean port containers and overcome the shortcomings of existing highway and railway vehicles, this study takes the standard for heavy-duty container vehicles in TB1335-1996 Railway Vehicle Strength Design and Test Identification Code as the design basis and designs a new ocean port container transport vehicle in combination with automatic guidance technology. This study innovatively designs the automatic lifting system of the bogie and the docking part of the vehicle, introduces the automatic guidance technology and the remote-control technology to optimize the car body structure, and uses the SAP software to carry out the finite element analysis of the car body load capacity and Flexsim software to carry out the simulation analysis on the operation of vehicles. The designed transfer vehicle can improve the transfer efficiency of ocean port containers, reduce the transit time of field and station equipment and container transport links, and improve the level of multimodal transport and comprehensive economic benefits
Four scion-rootstock combination [i.e., X/X and X/SP, ‘Xuegan’ (Citrus sinensis) grafted on ‘Xugan’ and ‘Sour pummelo’ (Citrus grandis), respectively, and SP/X and SP/SP, ‘Sour pummelo’ grafted on ‘Xuegan’ and ‘Sour pummelo’, respectively] plants were treated for 18 weeks with 0 (-Al) or 1.2 mM AlCl36H2O (?Al). Thereafter, leaf, stem and root concentrations of phosphorus and aluminum (Al), leaf and root levels of organic acids (OAs), Al-induced release of OA anions (i.e., malate and citrate), photosynthesis and chlorophyll a fluorescence (OJIP) transients were measured. Al-induced decrease of photosynthesis and damage of photosynthetic electron transport chain were less pronounced in X/X and X/SP leaves than in SP/SP and SP/X leaves, which might be related with the higher Al-induced root efflux of OA anions and leaf P concentration. C. sinensis rootstock alleviated the influences of Al-toxicity on leaf photosynthetic electron transport chain by enhancing Al-induced release of root OA anions, hence lessening Al-induced photosynthesis inhibition in SP/X plants, while the reverse was the case for C. grandis rootstock in X/SP plants. In conclusion, the tolerance of grafted Citrus plants to Al depends on the scion as well as rootstock genotype, and the scion-rootstock interaction.
Phosphorus as a major nutrient element in water ecosystems is a key factor affecting algae growth in rivers. This paper adopts the sequential extraction method for phosphorus fractionation to study the distribution of phosphorus forms in riparian soils and peripheral river sediments, then to analyze the relationship between different phosphorus forms and their significance within a watershed environment. The results show that: 1) the contents of NH₄Cl-P, BD-P, and HCl-P in riparian soils are more widespread than those in river sediments, 2) the distribution patterns of phosphorus fractions in different catchments of Jianxi Basin are varied for soil and sediment, and 3) the ratio of BAP/TP is the highest in Chongyangxi catchment and the lowest in Songxi catchment. Phosphorus in riparian soils is mainly affected by agricultural activities, significantly for NaOH-P and HCl-P. And phosphorus forms in sediments are obviously affected by domestic sewage. The phosphorus contents and fractions in riparian soils change more significantly than those in river sediments.
Leaf color mutants are not only ideal resources for studying the physiological mechanisms of plant photosynthesis, but they are also selection markers for hybrid production. In this study, the chlorosis mutant ‘564Y’ and its wild-type counterpart ‘564’ were used to explore physiological characteristics and gene expression in pak choi. Compared with those of wild type, the dry weight and fresh weight of ‘564Y’ were significantly reduced, but the hypocotyl length of ‘564Y’ was longer. Pigment analysis showed that the chlorophyll a and carotenoid contents of ‘564Y’ were lower than those of wild type. However, there was no significant difference in chlorophyll b content between these two varieties. The photosynthetic capacity of ‘564Y’ was lower than that of ‘564’, and the photosynthetic electron transfer ability and light energy conversion efficiency were weaker in the former. Transmission electron microscopy showed that the chloroplast structure of ‘564Y’ was not compact, the thylakoid structure was irregular, and the number of matrix, grana, and stacking layers was decreased. Transcriptome analysis revealed 2958 differentially expressed genes (DEGs), and 78 gene ontology terms and 35 Kyoto Encyclopedia of Genes and Genomes pathways were significantly enriched. Among the DEGs, nine genes were associated with the chlorophyll synthesis pathway (Bra031690, Bra012595, Bra005677, Bra022628, Bra026410, Bra032155, Bra039206, Bra029875, and Bra012511) and one gene was associated with photosynthesis (Bra038011). Among these genes, 3 were identified as related to auxin metabolism too (Bra032155, Bra039206, and Bra029875). Their differential expression in the ‘564Y’ mutant and wild-type plant was confirmed by qRT-PCR. These results lay the foundation for future genetic and functional genomic studies in pak choi.
Diabetic population were reported more likely to suffer carriage and infection with Staphylococcus aureus (S. aureus) and methicillin-resistant Staphylococcus aureus (MRSA) than non-diabetic population. We aim to elucidate the prevalence and characteristics of S. aureus and MRSA nasal carriage among diabetic population in the United States National Health and Nutrition Examination Survey, 2001–2004. Univariate analyses were conducted using Chi-square test, Fisher’s exact probability test or student t test, as appropriate. Multivariate analysis using logistic regression was conducted to assess the association between influencing factors and S. aureus and MRSA nasal carriage. 1010 diabetic participants were included in the study. The prevalence of S. aureus and MRSA nasal carriage were 28.32% and 1.09%, respectively. After the logistic regression, ever had a painful sensation or tingling in hands or feet past three months (Odds Ratio [OR] = 0.359, 95% Confidence Interval [CI], 0.146–0.882) was significant among S. aureus nasal carriage and gender (OR = 3.410, 95% CI, 1.091–10.653) was significant among MRSA nasal carriage. The proportions of staphylococcal enterotoxin (SE) A, SEB, SEC, SED, Toxic-shock syndrome toxin-1, and Panton Valentine Leukocidin toxin among S. aureus strains were 18.75%, 3.13%, 12.50%, 15.63%, 28.13%, and 9.38%, respectively. 63.63% of MRSA strains were community-acquired, 27.27% were hospital-acquired, and 9.09% were non-typeable. Diabetic patients might be more likely to carry S. aureus and MRSA in the United States. Improving hand hygiene compliance, reducing antibiotic overuse, screening for carriers, and decolonization are recommended to reduce the spread of S. aureus and MRSA, especially in community.
Phytoplasmas are plant pathogenic bacteria that inhabit the phloem sieve elements in infected plants and lack a cell wall. Infection of the woody perennial Ziziphus jujuba with phytoplasma causes jujube witches’ broom (JWB), a disease that causes heavy crop losses. The TEOSINTE BRANCHED 1/CYCLOIDEA/PCF (TCP) transcription factors (TFs) are plant-specific regulators of plant morphogenesis, development, and defense after phytoplasma infection. While the TCP gene family has been studied in many plants, there is no report on TCPs in jujube. In this study, 21 ZjTCP TFs were identified and bioinformatically analyzed based on the genome of the Dongzao cultivar. Another 2 ZjTCPs were found in the genome of the Junzao cultivar. Physicochemical properties of the ZjTCP proteins were quite varied, indicating possible versatility of functions. ZjTCP proteins ranged from 172 to 590 amino acids (aa), had isoelectric points (pIs) between 5.53 (ZjTCP1) and 9.81 (ZjTCP11), and molecular weights ranging from 19,279.98 (ZjTCP11) to 61,784.17 kDa (ZjTCP19). Interaction network mapping predicted several hubs, such as ZjTCP6, ZjTCP7, ZjTCP8, ZjTCP15, ZjTCP16, and ZjTCP19, among which ZjTCP6 and ZjTCP16 were predicted to function in plant defense and morphogenesis. Spatiotemporal expression analysis of the ZjTCPs showed that ten of the ZjTCP genes were detected after infection with ‘Candidatus Phytoplasma ziziphi’. ZjTCP6, ZjTCP7, ZjTCP16, and ZjTCP19 were up-regulated after phytoplasma infection. ZjTCP16 showed the most significant increase in transcript levels, after the emergence of disease symptoms. ZjTCP12, ZjTCP15, and ZjTCP18 were down-regulated after phytoplasma infection. We concluded that ZjTCP6 and ZjTCP16 were most likely regulatory factors with roles during the plant response to jujube witches’ broom.
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