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Li, Xue-Wen,Lei, Mei,Chen, Tong-Bin,Wan, Xiao-Ming The Korean Society for Applied Biological Chemistr 2009 Applied Biological Chemistry (Appl Biol Chem) Vol.52 No.5
In this study, the role of sulfur (S) and arsenic (As) species in the As hyperaccumulator Pteris vittata (P. vittata) and the As hypertolerant plant Adiantum capillus-veneris (A. capillus-veneris) were investigated. Under As exposure, sulfhydryl groups (-SH) increased in both plants, indicating that arsenate enhanced sulfur assimilation. This S then played different roles in the two plants. In A. capillus-veneris, As was mainly coordinated with S; whereas in P. vittata, it was coordinated with oxygen. Differences in As concentration and in the rate of As reduction were noted in the two plants. In A. capillus-veneris, As was present at lower levels and was reduced and coordinated (combined) with -SH. This was considered to represent a defense strategy to limit As transport to the frond. For P. vittata, we deduced that the SH group was likely used as an electron donor to reduce As (V) to As (III), therefore fewer SH groups were used to coordinate with reduced As (III). This was regarded as an accumulation strategy to facilitate As transport. The results of this study suggested that S played important roles in As detoxification and accumulation in tolerant and hyperaccumulating plants.
Zhang Laijun,Tong Jizao,Li Yijia,Xu Caili,Wan Song,Xiao Huifang 한국세라믹학회 2023 한국세라믹학회지 Vol.60 No.4
A serial of zirconia (ZrO 2) nanocrystals was hydrothermally synthesized without or with the addition of a certain amount of sodium hydroxide (NaOH) solution using a new water-soluble zirconium precursor solution obtained by mixing zirconium oxychloride octahydrate with nonpolar amino acid tryptophan (Trp) in water. The morphology and crystal structure of the resulting ZrO 2 nanocrystals were characterized by powder X-ray diffraction, transmission electron microscopy, field-emission scanning electron microscopy, and Fourier transform infrared spectroscopy. The results showed that when using Trp as the sole additive without any addition of NaOH solution, pure monoclinic-phase Trp-coated ZrO 2 nanorods with the average diameter and length of about 5 and 27 nm were formed and further assembled anisotropically into 40–70 nm tetragonal star- like nanostructures. The addition of the increasing NaOH solution in the Trp-assisted hydrothermal reaction induced gradual transformation of both crystal structure and morphology of the resulting ZrO 2 products, which fi nally evolved into sheet-like aggregates of pure tetragonal-phase 5–7 nm ZrO 2 nanospheres simultaneously coated by both Trp and –OH groups/OH − ions. These ZrO 2 products synthesized in the presence of both Trp and NaOH solution compared with those synthesized with the addition of either only Trp or NaOH solution showed more excellent adsorption abilities towards cationic dye rhodamine B, with high adsorption efficiencies of up to 80% within 30 min, and can be potentially applied as absorbents for chemical wastewater treatment.
On the recursive sequence$x_{n+1}=\alpha-(x_n/x_{n-1})$
Xing-Xue Yan,Wan-Tong Li,Zhu Zhao 한국전산응용수학회 2005 Journal of applied mathematics & informatics Vol.17 No.1-2
We study the global asymptotic stability, global attractivity, boundedness character, and periodic nature of all positive solutions and all negative solutions of the difference equation xn+1 = − xn xn−1 , n = 0, 1, · · · , where 2 R is a real number, and the initial conditions x−1, x0 are arbitrary real numbers
ON THE RECURSIVE SEQUENCE X_{n+1} = $\alpha$ - (X_n/X_n-1)
YAN, XING XUE,LI, WAN TONG,ZHAO, ZHU 한국전산응용수학회 2005 Journal of applied mathematics & informatics Vol.17 No.1
We study the global asymptotic stability, global attractivity, boundedness character, and periodic nature of all positive solutions and all negative solutions of the difference equation $$x_{n+1}\;=\;{\alpha}-{\frac{x_{n-1}}{x_{n}},\;n=0,1,\;{\cdots}$$, where ${\alpha}\;\in\; R$ is a real number, and the initial conditions $x_{-1},\;x_0$ are arbitrary real numbers.
( Xiaofang Yang ),( Ting Ye ),( Li Rong ),( Hong Peng ),( Jin Tong ),( Xiao Xiao ),( Xiaoqiang Wan ),( Jinjun Guo ) 대한소화기기능성질환·운동학회 2024 Gut and Liver Vol.18 No.3
Background/Aims: Gastric intestinal metaplasia (GIM), a common precancerous lesion of gastric cancer, can be caused by bile acid reflux. GATA binding protein 4 (GATA4) is an intestinal transcription factor involved in the progression of gastric cancer. However, the expression and regulation of GATA4 in GIM has not been clarified. Methods: The expression of GATA4 in bile acid-induced cell models and human specimens was examined. The transcriptional regulation of GATA4 was investigated by chromatin immunopre-cipitation and luciferase reporter gene analysis. An animal model of duodenogastric reflux was used to confirm the regulation of GATA4 and its target genes by bile acids. Results: GATA4 expression was elevated in bile acid-induced GIM and human specimens. GATA4 bound to the promoter of mucin 2 (MUC2) and stimulate its transcription. GATA4 and MUC2 expression was positively correlated in GIM tissues. Nuclear transcription factor-κB activation was required for the upregulation of GATA4 and MUC2 in bile acid-induced GIM cell models. GATA4 and caudal-related homeobox 2 (CDX2) reciprocally transactivated each other to drive the transcription of MUC2. In chenodeoxycholic acid-treated mice, MUC2, CDX2, GATA4, p50, and p65 expression levels were increased in the gastric mucosa. Conclusions: GATA4 is upregulated and can form a positive feedback loop with CDX2 to transactivate MUC2 in GIM. NF-κB signaling is involved in the upregulation of GATA4 by chenodeoxycholic acid. (Gut Liver 2024;18:414-425)
Shi Si,Gu Huijie,Xu Jinyuan,Sun Wan,Liu Caiyin,Zhu Tong,Wang Juan,Gao Furong,Zhang Jieping,Ou Qingjian,Jin Caixia,Xu Jingying,Chen Hao,Li Jiao,Xu Guotong,Tian Haibin,Lu Lixia 생화학분자생물학회 2023 Experimental and molecular medicine Vol.55 No.-
Excessive osteoclast activation, which depends on dramatic changes in actin dynamics, causes osteoporosis (OP). The molecular mechanism of osteoclast activation in OP related to type 1 diabetes (T1D) remains unclear. Glia maturation factor beta (GMFB) is considered a growth and differentiation factor for both glia and neurons. Here, we demonstrated that Gmfb deficiency effectively ameliorated the phenotype of T1D-OP in rats by inhibiting osteoclast hyperactivity. In vitro assays showed that GMFB participated in osteoclast activation rather than proliferation. Gmfb deficiency did not affect osteoclast sealing zone (SZ) formation but effectively decreased the SZ area by decreasing actin depolymerization. When GMFB was overexpressed in Gmfb-deficient osteoclasts, the size of the SZ area was enlarged in a dose-dependent manner. Moreover, decreased actin depolymerization led to a decrease in nuclear G-actin, which activated MKL1/SRF-dependent gene transcription. We found that pro-osteoclastogenic factors (Mmp9 and Mmp14) were downregulated, while anti-osteoclastogenic factors (Cftr and Fhl2) were upregulated in Gmfb KO osteoclasts. A GMFB inhibitor, DS-30, targeting the binding site of GMFB and Arp2/3, was obtained. Biocore analysis revealed a high affinity between DS-30 and GMFB in a dose-dependent manner. As expected, DS-30 strongly suppressed osteoclast hyperactivity in vivo and in vitro. In conclusion, our work identified a new therapeutic strategy for T1D-OP treatment. The discovery of GMFB inhibitors will contribute to translational research on T1D-OP.