Knockdown of HMGN5 Expression by RNA Interference Induces Cell Cycle Arrest in Human Lung Cancer Cells

Chen, Peng,Wang, Xiu-Li,Ma, Zhong-Sen,Xu, Zhong,Jia, Bo,Ren, Jin,Hu, Yu-Xin,Zhang, Qing-Hua,Ma, Tian-Gang,Yan, Bing-Di,Yan, Qing-Zhu,Li, Yan-Lei,Li, Zhen,Yu, Jin-Yan,Gao, Rong,Fan, Na,Li, Bo,Yang, Jun Asian Pacific Journal of Cancer Prevention 2012 Asian Pacific journal of cancer prevention Vol.13 No.7

HMGN5 is a typical member of the HMGN (high mobility group nucleosome-binding protein) family which may function as a nucleosomal binding and transcriptional activating protein. Overexpression of HMGN5 has been observed in several human tumors but its role in tumorigenesis has not been fully clarified. To investigate its significance for human lung cancer progression, we successfully constructed a shRNA expression lentiviral vector in which sense and antisense sequences targeting the human HMGN5 were linked with a 9-nucleotide loop. Inhibitory effects of siRNA on endogenous HMGN5 gene expression and protein synthesis were demonstrated via real-time RT-PCR and western blotting. We found HMGN5 silencing to significantly inhibit A549 and H1299 cell proliferation assessed by MTT, BrdU incorporation and colony formation assays. Furthermore, flow cytometry analysis showed that specific knockdown of HMGN5 slowed down the cell cycle at the G0/G1 phase and decreased the populations of A549 and H1299 cells at the S and G2/M phases. Taken together, these results suggest that HMGN5 is directly involved in regulation cell proliferation in A549 and H1299 cells by influencing signaling pathways involved in cell cycle progression. Thus, our finding suggests that targeting HMGN5 may be an effective strategy for human lung cancer treatment.

Machining Surface Quality Analysis of Aluminum Alloy Thin-Walled Parts in Aerospace

Dai Bing,Yu Guang-bin,Guan Yan-qi,Shao Jun-peng,Guan Yan-qi,Wu Xue-mei,Liu Yu-xin 보안공학연구지원센터 2015 International Journal of Security and Its Applicat Vol.9 No.11

There are many key parts in the field of aerospace with aluminum alloy thin-walled parts, the problem of breaking the low efficiency in production that’s also followed. There will be a lot of deformation in processing because of its poor rigidity, poor process, which will lead to low processing efficiency. It is of great significance to improve the machining efficiency of the aluminum alloy thin-walled parts, and a series of analysis of the surface quality of aluminum alloy thin-walled parts there are carried out clamping, cutting tools, take the knife route so on, and the problems of low machining efficiency and poor surface quality are solved.

Discrimination of neutrons and gamma-rays in plastic scintillator based on spiking cortical model

Liu Bing-Qi,Liu Hao-Ran,Chang Lan,Cheng Yu-Xin,Zuo Zhuo,Li Peng 한국원자력학회 2023 Nuclear Engineering and Technology Vol.55 No.9

In this study, a spiking cortical model (SCM) based n-g discrimination method is proposed. The SCMbased algorithm is compared with three other methods, namely: (i) the pulse-coupled neural network (PCNN), (ii) the charge comparison, and (iii) the zero-crossing. The objective evaluation criteria used for the comparison are the FoM-value and the time consumption of discrimination. Experimental results demonstrated that our proposed method outperforms the other methods significantly with the highest FoM-value. Specifically, the proposed method exhibits a 34.81% improvement compared with the PCNN, a 50.29% improvement compared with the charge comparison, and a 110.02% improvement compared with the zero-crossing. Additionally, the proposed method features the second-fastest discrimination time, where it is 75.67% faster than the PCNN, 70.65% faster than the charge comparison and 38.4% slower than the zero-crossing. Our study also discusses the role and change pattern of each parameter of the SCM to guide the selection process. It concludes that the SCM's outstanding ability to recognize the dynamic information in the pulse signal, improved accuracy when compared to the PCNN, and better computational complexity enables the SCM to exhibit excellent n-g discrimination performance while consuming less time.

Adaptive Trajectory Compensation of Large Inertia Robot

Kuo Yang,Xin-hui Liu,Bing-wei Cao,Wei Chen,Peng Tan 제어·로봇·시스템학회 2024 International Journal of Control, Automation, and Vol.22 No.3

The electro-hydraulic controlled bionic robots suffer from path contour deviation, which is affected byinertia, system lag, and control system accuracy. The focus of this paper is on the study of a data-driven systemfor the compensation of errors in the robot’s internal arithmetic model and its own motion. A deviation predictionmodel of the robot motion process is constructed using a machine learning approach, while the spatial error, generated in the transfer process between the input trajectory and the actual output, is de-parameterized and regardedas an attribute value of the robot’s motion process. Furthermore, a data-based adaptive compensation method isproposed. The simulation model and a hardware-in-the-loop simulation platform of the proposed control strategyare constructed, in order to verify the proposed control approach. Simulation and experimental results show that theproposed compensation strategy can significantly reduce system deviation.

Efficacy and Safety of Autologous Fibroblast (FB) Seeded Biodegradable Scaffold for Rabbit Penile Girth Enlargement

( Yi Guang Wu ),( Zhe Jin ),( Zhong Cheng Xin ),( Wei Dong Song ),( Jing Peng ),( Zhi Chao Zhang ),( Bing Gao ),( Ze Long Kim ) 한국조직공학·재생의학회 2007 조직공학과 재생의학 Vol.4 No.4

The purpose of this experiment is to construct an in vitro model of rabbit penis enlargement using tissue engineering method, and to investigate the efficacy and safety of autologous fibroblast cell seeded to biodegradable scaffold and also to provide a new perspective of clinical application. We observed the growth of GFP transgenic fibroblast cell from SD mouse after transplantation with the biodegradable scaffold by fluorescence microscope. At the second hand, 160 male New Zealand rabbits were divided into four groups; Group A for control; Group B for acellular matrix implanted; Group C for scaffold implanted only; Group D for autologous cultured fibroblast seeded scaffold. Rabbit scrotal skin (4×4 mm) was detached under general anesthesia, and fibroblast (FB) was cultured and proliferated for 2weeks. Cultured cells were seeded into the scaffold and inserted on the between buck`s and dartos fascia of rabbit penis. To assess the efficacy and safety of the cells, we observed for 4months. The FB of rabbit were successfully cultured and confirmed by immunohistochemistry method. In the results of group D, dermal cell seeding group, the penile girth was significantly increased to 22.3% compared to other groups (Group A 0.3%, Group B 12.7%, Group C 14.6% and Group D 22.3%). We checked the results in 2~4 months later. We observed that moderate penile girth increase was gained using the biodegradable scaffold without other side-effects. Therefore, we carefully suggest a new guidance for penile augmentation by the tissue engineering method.

The mechanism of enhanced photocatalytic activity of SnO2 through fullerene modification

Shuang-Shuang Ding,Wei-Qing Huang,Bing-Xin Zhou,Ping Peng,Wangyu Hu,Meng-Qiu Long,Gui-Fang Huang 한국물리학회 2017 Current Applied Physics Vol.17 No.11

Carbon nanomaterials are prominent building blocks in the synthetic van der Waals (vdW) heterostructures with desired properties. Scientific understanding of their interfacial interactions is the premise to design this kind of vdW heterostructures with optimal performance.We here study the mechanism of enhanced photocatalytic activity of SnO2 by fullerene modification at electronic level, to explore the interfacial interaction and its correlation with photocatalytic activity. The results show that the interfacial interaction increases with the number of C atom of fullerene, and leads to some of C atoms be positively/ negatively charged, making the fullerene a highly active co-catalyst in heterostructures. Compared to pristine SnO2, the band gap of the heterostructures is much smaller, leading to their absorption wavelength extending the entire visible region. Interestingly, a staggered type-II band alignment in the C20 (C60)/SnO2 (101) heterostructures results into the robust separation of photoexcited charge carriers between the two constituents, indicating that the fullerene is an effective sensitizer, and thus enhanced photocatalytic activity. These findings can rationalize the available experiment and will be of broad interest in developing the highly efficient semiconductor photocatalysts via fullerene modification.

The Effect of Chickpea Dietary Fiber on Lipid Metabolism and Gut Microbiota in High-Fat Diet-Induced Hyperlipidemia in Rats

Jia Han,Rui Zhang,Dina Muheyati,Mei Xia Lv,Wubulikasimu Aikebaier,Bing Xin Peng 한국식품영양과학회 2021 Journal of medicinal food Vol.24 No.2

Hyperlipidemia is a metabolic disorder characterized by high lipid levels, which may lead to cardiovascular diseases. Evidence suggests that improving the gut microbiota homeostasis is of great importance in lipid metabolism. Dietary fiber may positively regulate blood lipid and intestinal microbiota, therefore, we have investigated the effect of chickpea dietary fiber (CDF) on high-fat diet (HFD)-induced hyperlipidemia and gut bacterial dysbiosis. Fifty male Sprague Dawley rats purchased for this study were randomly divided into 5 groups of 10 rats each. The control group was fed with normal diet (ND), while the other four groups were all fed with HFD for inducing hyperlipidemia. Then one of the four HFD groups continued to be fed with only HFD, and the other three groups were fed with CDF in different doses: high CDF (30 g CDF/kg of HFD), medium CDF (15 g CDF/kg of HFD), and low CDF (5 g CDF/kg of HFD). After CDF treatment, the lipid level in serum was determined through biochemical methods, and microbial content of the fecal sample was determined by 16S rDNA sequencing. We found that CDF could decrease the levels of total cholesterol, triglyceride, and low-density lipoprotein cholesterol and increase the level of high-density lipoprotein cholesterol significantly. The diversity of gut microbiota in the ND group and CDF-treated groups were higher than HFD group. The β-diversity analysis showed that there were significant differences in gut microbiota among HFD-, ND-, and CDF-treated groups. Rats in CDF groups tended to be similar and interactive. CDF can effectively increase the abundance of Bacteroides and Lactobacillus in rats and increase the level of propionic acid. These results indicated that CDF might affect serum lipid and gut bacterial ecosystem positively.

Novel Alkali-Stable, Cellulase-Free Xylanase from Deep-Sea Kocuria sp. Mn22

Chan Juan Li,Yu Zhi Hong,Zong Ze Shao,Ling Lin,Xiao Luo Huang,Peng Fu Liu,Gao Bing Wu,Xin Meng,Zi Duo Liu 한국미생물 · 생명공학회 2009 Journal of microbiology and biotechnology Vol.19 No.9