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Nai-Yun Chang,Zeng-Weng Chen,Ter-Hsin Chen,Jiunn-Wang Liao,Cheng-Chung Lin,Maw-Sheng Chien,Wei-Cheng Lee,Jiunn-Horng Lin,Shih-Ling Hsuan 대한수의학회 2014 Journal of Veterinary Science Vol.15 No.1
Exotoxins produced by Actinobacillus (A.) pleuropneumoniae(Apx) play major roles in the pathogenesis of pleuropneumoniain swine. This study investigated the role of ApxI in hemolysisand cellular damage using a novel apxIA mutant, ApxIA336,which was developed from the parental strain A. pleuropneumoniae serotype 10 that produces only ApxI in vitro. The genotype of ApxIA336 was confirmed by PCR, Southernblotting, and gene sequencing. Exotoxin preparation derivedfrom ApxIA336 was analyzed for its bioactivity towardsporcine erythrocytes and alveolar macrophages. Analysisresults indicated that ApxIA336 contained a kanamycinresistantcassette inserted immediately after 1005 bp of theapxIA gene. Phenotype analysis of ApxIA336 revealed nodifference in the growth rate as compared to the parentalstrain. Meanwhile, ApxI production was abolished in thebacterial culture supernatant, i.e. exotoxin preparation. Theinability of ApxIA336 to produce ApxI corresponded to the lossof hemolytic and cytotoxic bioactivity in exotoxin preparation,as demonstrated by hemolysis, lactate dehydrogenase release,mitochondrial activity, and apoptosis assays. Additionally, thevirulence of ApxIA336 appeared to be attenuated by 15-fold inBALB/c mice. Collectively, ApxI, but not other components inthe exotoxin preparation of A. pleuropneumoniae serotype 10,was responsible for the hemolytic and cytotoxic effects onporcine erythrocytes and alveolar macrophages.
Chen, Nai-Zhi,Zhang, Xiu-Qing,Wei, Peng-Cheng,Chen, Qi-Jun,Ren, Fei,Chen, Jia,Wang, Xue-Chen Korean Society for Biochemistry and Molecular Biol 2007 Journal of biochemistry and molecular biology Vol.40 No.6
The HAP complex has been found in many eukaryotic organisms. HAP recognizes the CCAAT box present in the promoters of 30% of all eukaryotic genes. The HAP complex consists of three subunits - HAP2, HAP3 and HAP5. In this paper, we report the biological function of the AtHAP3b gene that encodes one of the HAP3 subunits in Arabidopsis. Compared with wild-type plants, hap3b-1 and hap3b-2 mutants exhibited a delayed flowering time under long-day photoperiod conditions. Moreover, the transcription levels of FT were substantially lower in the mutants than in the wild-type plants. These results imply that AtHAP3b may function in the control of flowering time by regulating the expression of FT in Arabidopsis. In a subsequent study, AtHAP3b was found to be induced by osmotic stress. Under osmotic stress conditions, the hap3b- 1 and hap3b-2 mutants flowered considerably later than the wild-type plants. These results suggest that the AtHAP3b gene plays more important roles in the control of flowering under osmotic stress in Arabidopsis.
Po-Cheng Hsieh,Yi-Chun Chen,Nai-Ci Zheng,Dave Mangindaan,Hsiu-Wen Chien 한국공업화학회 2023 Journal of Industrial and Engineering Chemistry Vol.126 No.-
The present study explores the remarkable photothermal properties and potential applications exhibitedby melanoidin-enriched spent coffee grounds (SCGs). However, the inherent challenge lies in the substantialparticle size of SCGs, leading to rapid sedimentation within the medium and resulting in unevenheat distribution during photothermal analysis. To overcome this obstacle, acid hydrolysis was employedto liquefy the SCGs, allowing their dispersion in water and significantly enhancing their light absorptioncapacity. The photothermal properties of liquefied SCGs (LSCGs) were analyzed under 808-nm nearinfrared(NIR) irradiation and compared with those of SCGs. Remarkably, the photothermal conversionefficiency of the LSCGs was as high as 52%, twice that of SCGs. To further explore their potential, theLSCGs were incorporated into chitosan (CS) to create homogenous and porous CS/LSCGs composites. These low-cost and environmentally friendly CS/LSCGs composites, made entirely from waste materials,demonstrated photothermal properties under NIR irradiation. Notably, they exhibited excellent performancein multiple cycles of water evaporation experiments, achieving an impressive water evaporationefficiency of nearly 90%.
The impact of pyriproxyfen on the development of honey bee (Apis mellifera L.) colony in field
Yue-Wen Chen,Pei-ShanWu,En-Cheng Yang,Yu-Shin Nai,Zachary Y. Huang 한국응용곤충학회 2016 Journal of Asia-Pacific Entomology Vol.19 No.3
Pyriproxyfen (PPN) is an insect growth regulator (IGR) that interferes with insect metamorphosis. Although the side effects of PPN on honey bee larval/adult stages have been studied, the risk to honey bee larvae from PPN residue in the environment is still unclear. In this study, we evaluated the impact of PPN on larval honey bees in field colonies by using an in vivo feeding assay. Oral toxicity to adult honey bees were determined. Finally, influence on royal jelly production was also examined. For in vivo feeding assay, the highest observed PPN treatment caused 67% mortality during pupal stage and in the remaining bees, 62.3% showed abnormal eclosion. Reductions in hatching rate, capping rate and adult emergence rate and increased abnormal eclosion rate were found in the colonies fed with 10 ppm PPN syrup. Oral toxicity test revealed that adult honey bees were less susceptible to PPN. Moreover, PPN reduced not only queen cell acceptance rate but also yield of royal jelly in queen cells. These results indicate that PPN has negative impacts on both larval and adult honey bees and royal jelly production, especially under high PPN concentrations. Since PPN is harmful to the development of honey bee larvae and pupae in the natural environment, the issue of honey bee colony contamination by PPN should be addressed.
Sun-Wung Hsieh,Jui-Cheng Chen,Nai-Ching Chen,Kai-Ming Jhang,Wenfu Wang,Yuan-Han Yang 대한정신약물학회 2021 CLINICAL PSYCHOPHARMACOLOGY AND NEUROSCIENCE Vol.19 No.3
Objective: The purpose of this study is to investigate the safety, tolerability and efficacy of titrating dose of rivastigmine oral solution in patients with mild to moderate Alzheimer’s disease (AD) in Taiwan. Methods: We recruited 108 mild to moderate AD patients with RivastⓇ (rivastigmine oral solution 2 mg/ml) treatment for 52 weeks. We recorded the demographic characteristics, initial cognition by mini-mental state examination (MMSE), initial global status by clinical dementia rating (CDR) with CDR-Sum of Boxes (CDR-SB), initial dose, and titrating dose at each visit. We investigated the adherence, proportion of possible side effects, optimal dose, and time to optimal dose. We demonstrated the proportion of cognitive decline and its possible risk factors. Results: During the course, 9 patients discontinued the rivastigmine oral solution due to poor compliance or preference. Twelve out of 99 patients (12.1%) reported possible side effects. Among 87 patients, the mean age was 77.2 ± 9.0 years ago with female predominant (65.2%). The optimal dose was 3.6 ± 1.4 ml in average and 4 ml (n = 31, 35.6%) in mode. The duration to optimal dose was 12.5 ± 10.2 weeks and 24 weeks (n = 35, 40.2%) in mode. It presented 25% with cognitive decline in MMSE, 27% with global function decline in CDR and 63% with global function decline in CDR-SB. Conclusion: We demonstrated the clinical experience of rivastigmine oral solution in mild to moderate AD patients. It suggested rivastigmine oral solution 4ml is the optimal dose with 24 weeks to the optimal dose for at least one third of patients.
Guo Zhen,Tong Di,Zhao Yan-cheng,Chen Shuang,Nai Ji-qiu,Ye Ming-hao 대한전기학회 2024 Journal of Electrical Engineering & Technology Vol.19 No.1
Asynchronous motor is widely used in various industrial fields. When asynchronous motor works in case close to the rated load, it will run at maximum efficiency. However, most of the load is 50–100% of rated load and it will lead to the serious waste of energy. This paper proposes an efficiency optimization control strategy based on the grey wolf optimization algorithm to improve the operating efficiency of asynchronous motors at light loads. The motor loss model considering the change of iron loss is established and it makes the asynchronous motor model more accurate. The grey wolf optimization algorithm is used to find the optimized flux value. When the asynchronous motor operates at the optimal flux, the loss power of the motor is decreased and the operation efficiency improves effectively. The proposed method reduces the flux search time and improves the stability of the system. The simulation model is established and the simulation results are provided to verify the feasibility of the proposed control strategy achieving the global efficiency optimum of asynchronous motor.
Thu-Trang Nguyen,Chih-Chien Hu,Rajalakshmi Sakthivel,Sasza Chyntara Nabilla,Yu-Wen Huang,Jiashing Yu,Nai-Chen Cheng,Yi-Jie Kuo,Ren-Jei Chung 한국생체재료학회 2022 생체재료학회지 Vol.26 No.2
Background: All types of movements involve the role of articular cartilage and bones. The presence of cartilage enables bones to move over one another smoothly. However, repetitive microtrauma and ischemia as well as genetic effects can cause an osteochondral lesion. Numerous treatment methods such as microfracture surgergy, autograft, and allograft, have been used, however, it possesses treatment challenges including prolonged recovery time after surgery and poses a financial burden on patients. Nowadays, various tissue engineering approaches have been developed to repair bone and osteochondral defects using biomaterial implants to induce the regeneration of stem cells. Methods: In this study, a collagen (Col)/γ-polyglutamate acid (PGA)/hydroxyapatite (HA) composite scaffold was fabricated using a 3D printing technique. A Col/γ-PGA/HA 2D membrane was also fabricated for comparison. The scaffolds (four layers) were designed with the size of 8 mm in diameter and 1.2 mm in thickness. The first layer was HA/γ-PGA and the second to fourth layers were Col/γ-PGA. In addition, a 2D membrane was constructed from hydroxyapatite/γ-PGA and collagen/γ-PGA with a ratio of 1:3. The biocompatibility property and degradation activity were investigated for both scaffold and membrane samples. Rat bone marrow mesenchymal stem cells (rBMSCs) and human adipose-derived stem cells (hADSCs) were cultured on the samples and were tested in-vitro to evaluate cell attachment, proliferation, and differentiation. In-vivo experiments were performed in the rat and nude mice models. Results: In-vitro and in-vivo results show that the developed scaffold is of well biodegradation and biocompatible properties, and the Col-HA scaffold enhances the mechanical properties for osteochondrogenesis in both in-vitro and animal trials. Conclusions: The composite would be a great biomaterial application for bone and osteochondral regeneration.