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Molecular characterization of chemosensory protein genes in Bactrocera minax (Diptera: Tephritidae)
Wang Zhao‐Xiang,Qi Zhen‐hua,Chen Jian,Wang Fu‐Lian,Gui Lian‐You,Zhang Guo‐Hui 한국곤충학회 2021 Entomological Research Vol.51 No.7
Chemoreception is of great importance for survival of insects. Chemosensory proteins (CSPs) are believed to be involved in the perireceptor events of chemosensory system in many insect species, but this has not been clarified in the citrus fruit fly, Bactrocera minax, a serious dipteran pest of citrus crops. Previous studies indicated that four CSP genes were identified in many fly speices in Diptera. In the present study, we also identified four CSP genes in B. minax,namely BminCSP1–4, from a transcriptome database. All CSP proteins encoded by these genes bear the typical hallmarks of the CSP family: an N-terminal signal peptide and the four highly conserved cysteine residues. Phylogenetic analysis comparing with other dipteran CSPs indicated that dipteran CSPs may evolved from three ancestral CSP genes, and revealed the sequence diversities of BminCSPs and showed that BminCSP1–4 are clustered in separate groups, indicating the possibility of their contrasting function in B. minax. Furthermore, the tissue distribution of the four CSP genes in adult B. minax was analyzed by real-time quantitiative PCR. The results demonstrated that BminCSP3 are significantly transcriptionally enriched in antennae; BminCSP4 expressed primarily in heads; BminCSP1 and BminCSP2 showed high expressions in different tissues, such as antennae, abdomens and wings. Based on these findings, the different implications for the functions of BminCSPs are discussed. This study will offer a significant indication for further functional studies of the CSPs in B. minax
Xiang-Dang Du,Xin-Sheng Li,Gui-Qin Wang,Bao-An Cui,Su-Mei Zhang,Jian-Zhong Shen 대한수의학회 2007 Journal of Veterinary Science Vol.8 No.3
Seventy Escherichia coli isolates recovered from diseased chickens diagnosed with colibacillosis in Henan Province, China, between 2004 and 2005 were characterized for antimicrobial susceptibility profiles via a broth doubling dilution method. Overall, the isolates displayed resistance to trimethoprim-sulfamethoxazole (100%), oxytetracycline (100%), ampicillin (83%), enrofloxacin (83%), and ciprofloxacin (81%), respectively. Among the phenicols, resistance was approximately 79% and 29% for chloramphenicol and florfenicol, respectively. Molecular detection revealed that the incidence rates of the floR, cmlA, cat1, cat2 and cat3 were 29, 31, 16, 13, and 0%, respectively. Additionally, 10% of the isolates were positive for both floR and cmlA. As these antimicrobial agents may potentially induce cross-resistance between animal and human bacterial pathogens, their prudent use in veterinary medicine is highly recommended.
Influence of the STI Sidewall Angle on the Induced Channel Stress in Nanoscaled PMOSFETs
Xiang Zhan Wang,Gui Xia Qin,Qian Luo 한국물리학회 2012 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.60 No.10
The effect of the shallow trench isolation (STI) sidewall angle (α) on the induced channel stress and the device performance of nanoscale (32 nm, 45 nm, 90 nm gate length) p-type metal-oxidesemiconductor field-effect transistors (PMOSFETs) has been studied by using simulations. Simulation results show that STI sidewall angle improves both the channel current Id and the transconductance gm, and it does not degrade on/off current ratio Ion/Ioff. The result is helpful to gain insight into the physical mechanisms of and to further improve sub-100 nm device performance based on STI process optimization.
Configuration and Stability of 1,1-Diamino-2,2-dinitroethylene (FOX-7) Embedded in Graphene
Yan-qun Wang,Gui-xiang Wang 대한화학회 2016 Bulletin of the Korean Chemical Society Vol.37 No.10
The configuration and stability of 1,1-diamino-2,2-dinitroethylene (FOX-7) embedded in graphene were studied using density functional theory with all-electron double numerical polarized basis sets. The results suggested that graphene had a greater impact on the planarity of FOX-7 molecules than did H-bonding. Under the synergistic effect of graphene and H-bonding, the geometry of H-bonded FOX-7 embedded in graphene was flatter than that of FOX-7 without H-bonds, which facilitated π–π stacking, as well as the stability of FOX-7 in graphene. The conjugated structure of FOX-7 contributed to its stability between layers of graphene. When the conjugated structure in FOX-7 was completely disrupted, the stabilization energy decreased by 48.6%. This theoretical work is useful for gaining new insights into the microscopic interaction of energetic molecules with graphene, and it will provide theoretical guidance for the encapsulation and storage of energetic materials.
Zhengxuan Jiang,Kun Liang,Xiang Gao,Fan Cao,Guangqi An,Siyu Gui,Weiwei Tang,Liping Du,Liming Tao,Xianwen Wang 한국생체재료학회 2023 생체재료학회지 Vol.27 No.00
Background EAU is an inflammatory disease usually characterized by autoinflammation and autoimmunity and is aggravated by excessive generation of ROS. Conventional hormone therapy often has more adverse effects. It is urgent to find a therapeutic drug with higher efficiency and fewer adverse effects. Methods We developed an Fe-curcumin nanozyme in which natural antioxidants coordinate with Fe3+ to form nanoparticles with excellent solubility for directing anti-inflammatory and ROS scavenging effects to treat EAU. Several experiments were used to detect the characteristics of nanozymes. EAU model rats were used to detect the abilities of decreasing autoinflammation and autoimmunity. PBMCs were used to detect the ability to inhibit cell proliferation. Results Free radical scavenging experiments showed that nanozymes decreased the level of free radicals at low concentrations. In vitro and in vivo experiments revealed that the group treated with Fe-curcumin nanozymes had lower inflammatory reactions and ROS levels than the control group, as reflected by the downregulated levels of several critical inflammatory cytokines, such as IFN-γ, IL-17, and TNF-α; decreased H2O2 release; inhibited proliferation of Th1 and Th17 cells; and alleviated pathological changes in the eye. Importantly, the Fe-curcumin nanozyme was detected in the retina using Prussian blue staining. Additionally, Fe-curcumin nanozyme is noncytotoxic when directing these biological activities. Conclusion This study has demonstrated the feasibility of using the Fe-curcumin nanozyme as a nanodrug to inhibit inflammatory reactions and scavenge ROS in the treatment of EAU, indicating that it may serve as a promising therapeutic agent in clinical treatment.