Transcriptional Profiling and Dynamical Regulation Analysis Identify Potential Kernel Target Genes of SCYL1-BP1 in HEK293T Cells

Wang, Yang,Chen, Xiaomei,Chen, Xiaojing,Chen, Qilong,Huo, Keke Korean Society for Molecular and Cellular Biology 2014 Molecules and cells Vol.37 No.9

SCYL1-BP1 is thought to function in the p53 pathway through Mdm2 and hPirh2, and mutations in SCYL1-BP1 are associated with premature aging syndromes such as Geroderma Osteodysplasticum; however, these mechanisms are unclear. Here, we report significant alterations in miRNA expression levels when SCYL1-BP1 expression was inhibited by RNA interference in HEK293T cells. We functionally characterized the effects of potential kernel miRNA-target genes by miRNA-target network and protein-protein interaction network analysis. Importantly, we showed the diminished SCYL1-BP1 dramatically reduced the expression levels of EEA1, BMPR2 and BRCA2 in HEK293T cells. Thus, we infer that SCYL1-BP1 plays a critical function in HEK293T cell development and directly regulates miRNA-target genes, including, but not limited to, EEA1, BMPR2, and BRCA2, suggesting a new strategy for investigating the molecular mechanism of SCYL1-BP1.

Transcriptional Profiling and Dynamical Regulation Analysis Identify Potential Kernel Target Genes of SCYL1-BP1 in HEK293T Cells

Yang Wang,Xiaomei Chen,Xiaojing Chen,Qilong Chen,Keke Huo 한국분자세포생물학회 2014 Molecules and cells Vol.37 No.9

SCYL1-BP1 is thought to function in the p53 pathway through Mdm2 and hPirh2, and mutations in SCYL1-BP1 are associated with premature aging syndromes such as Geroderma Osteodysplasticum; however, these mechanisms are unclear. Here, we report significant alterations in miRNA expression levels when SCYL1-BP1 expression was inhibited by RNA interference in HEK293T cells. We functionally characterized the effects of potential kernel miRNA-target genes by miRNA-target network and protein-protein interaction network analysis. Importantly, we showed the diminished SCYL1-BP1 dramatically reduced the expression levels of EEA1, BMPR2 and BRCA2 in HEK293T cells. Thus, we infer that SCYL1-BP1 plays a critical function in HEK293T cell development and directly regulates miRNA-target genes, including, but not limited to, EEA1, BMPR2, and BRCA2, suggesting a new strategy for investigating the molecular mechanism of SCYL1-BP1.

Safety and antifatigue effect of Korean Red Ginseng: a randomized, double-blind, and placebo-controlled clinical trial

Zhang, Li,Chen, Xiaoyun,Cheng, Yanqi,Chen, Qilong,Tan, Hongsheng,Son, Dongwook,Chang, Dongpill,Bian, Zhaoxiang,Fang, Hong,Xu, Hongxi The Korean Society of Ginseng 2019 Journal of Ginseng Research Vol.43 No.4

Background: Korean Red Ginseng (KRG) is widely used for strengthening the immune system and fighting fatigue, especially in people with deficiency syndrome. However, there is concern that the long-term application or a high dose of KRG can cause "fireness" (上火 in Chinese) because of its "dryness" (燥性 in Chinese). The aim of this study was to assess the safety and efficacy of a 4-week treatment with KRG in participants with deficiency syndrome. Methods: This was a 4-week, randomized, double-blind, placebo-controlled clinical trial. A total of 180 Chinese participants were randomly allocated to three groups: placebo control group, participants were given a placebo, 3.6 g/d; KRG 1.8 g and 3.6 g groups. The primary outcomes were the changes in fireness and safety evaluation (adverse events, laboratory tests, and electrocardiogram). The secondary outcomes were the efficacy of KRG on fatigue, which include the following: traditional Chinese medicine (TCM) symptom scale and fatigue self-assessment scale. Results: Of the 180 patients, 174 completed the full study. After 4 weeks of KRG treatment, the Fire-heat symptoms score including Excess fire-heat score and Deficient fire-heat score showed no significant change as compared with placebo treatment, and no clinically significant changes in any safety parameter were observed. Based on the TCM syndrome score and fatigue self-assessment score, TCM symptoms and fatigue were greatly improved after treatment with KRG, which showed a dose- and time-dependent effect. The total effective rate was also significantly increased in the KRG groups. Conclusion: Our study revealed that KRG has a potent antifatigue effect without significant adverse effects in people with deficiency syndrome. Although a larger sample size and longer treatment may be required for a more definite conclusion, this clinical trial is the first to disprove the common conception of "fireness" related to KRG.

Safety and antifatigue effect of Korean Red Ginseng: a randomized, double-blind, and placebo-controlled clinical trial

Li Zhang,Xiaoyun Chen,Yanqi Cheng,Qilong Chen,Hongsheng Tan,Dongwook Son,Dongpill Chang,Zhaoxiang Bian,Hong Fang,Hongxi Xu 고려인삼학회 2019 Journal of Ginseng Research Vol.43 No.4

Background: Korean Red Ginseng (KRG) is widely used for strengthening the immune system andfighting fatigue, especially in people with deficiency syndrome. However, there is concern that the longtermapplication or a high dose of KRG can cause “fireness” (上火in Chinese) because of its “dryness” (燥性in Chinese). The aim of this study was to assess the safety and efficacy of a 4-week treatment with KRGin participants with deficiency syndrome. Methods: This was a 4-week, randomized, double-blind, placebo-controlled clinical trial. A total of 180Chinese participants were randomly allocated to three groups: placebo control group, participants weregiven a placebo, 3.6 g/d; KRG 1.8 g and 3.6 g groups. The primary outcomes were the changes in firenessand safety evaluation (adverse events, laboratory tests, and electrocardiogram). The secondary outcomeswere the efficacy of KRG on fatigue, which include the following: traditional Chinese medicine (TCM)symptom scale and fatigue self-assessment scale. Results: Of the 180 patients, 174 completed the full study. After 4 weeks of KRG treatment, the Fire-heatsymptoms score including Excess fire-heat score and Deficient fire-heat score showed no significantchange as compared with placebo treatment, and no clinically significant changes in any safetyparameter were observed. Based on the TCM syndrome score and fatigue self-assessment score, TCMsymptoms and fatigue were greatly improved after treatment with KRG, which showed a dose- and timedependenteffect. The total effective rate was also significantly increased in the KRG groups. Conclusion: Our study revealed that KRG has a potent antifatigue effect without significant adverse effectsin people with deficiency syndrome. Although a larger sample size and longer treatment may berequired for a more definite conclusion, this clinical trial is the first to disprove the common conceptionof “fireness” related to KRG.

Synthesis of multi-walled carbon nanotubes over tungsten-doped cobalt-based catalyst derived from a layered double hydroxide precursor

Meng Lan,Feng Li,Guoli Fan,Qilong Chen 한국공업화학회 2014 Journal of Industrial and Engineering Chemistry Vol.20 No.4

Multi-walled carbon nanotubes (CNTs) were prepared over a series of W-doped Co-based catalysts derived from layered double hydroxide precursor by catalytic chemical vapor deposition (CCVD) of acetylene. The materials were characterized by powder X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), nitrogen adsorption–desorption experi-ments and Raman spectroscopy. The effect of the proportion of W in the Co-based catalysts on the carbon yield, diameter uniformity and quality of CNTs was investigated. The results demonstrated that with the increasing W/Co molar ratio from 0 to 1.0, both the mean number of walls and the average diameter of CNT produced over catalysts increased from about 8 to 28 nm and from about 12.1 to 23.7 nm, respectively. A small amount of tungsten added to the catalyst with the W/Co molar ratio of 0.3 could facilitate the dispersion of catalytically active Co species on the surface of support, and thus uniform and high-quality CNTs with a remarkably high yield of ca. 1600% were obtained.

Ferrocene-based hydrazone energetic transition-metal complexes as multifunctional combustion catalysts for the thermal decomposition of ammonium perchlorate

Xiaoju Liu,Haitao Feng,Yang Li,Xiaoyan Ma,Fang Chen,Qilong Yan 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.115 No.-

Three novel ferrocene-based hydrazone energetic transition-metal complexes denoted as M/E-FcDz-TMCs (M = Co (II), Fe (III), and Co(II)Fe(III)), were successfully prepared to improve the thermal decompositionof ammonium perchlorate (AP) and anti-migration performance of Fc-based catalysts. 1-hydrazinoethylene-ferrocene (E-FcDz) with unique electronic structure and energy bonds (C@N, NAN)as ligand reacted with transition metal Co, or Fe mono-metal nodes, and Co-Fe bimetal nodes, respectively. The chemical structure, crystalline texture, and morphology were confirmed, and the catalytic performancewas investigated. The thermal decomposition kinetics were estimated by applying Kissinger,FWO, and KAS methods. The results revealed that M/E-FcDz-TMCs had superior catalytic performancesfor AP decomposition compared to the traditional catalyst catocene due to their high electron transportcapacity. Especially, CoFe/E-FcDz-TMCs showed the best catalytic efficiency due to the hybridizationbetween Co (II) 3d and Fe (III) 3d orbitals in the structure led to electron redistribution, driving the optimalsynergistic catalytic effect of the bimetal Co-Fe nodes and E-FcDz, and further enhancing catalysis forAP. Moreover, AP/CoFe/E-FcDzTMCs showed the best combustion performance. In addition, the thermaldecomposition products of AP were explored by TG/FTIR, and the AP thermal decomposition processcould be explained by a possible mechanism following the principle of electron transfer theory.