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Gecko phylogeography in the Western Indian Ocean region: the oldest clade of Ebenavia inunguis lives on the youngest island 下载免费PDF全文
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Cindy L K Lam 《BMJ (Clinical research ed.)》2001,323(7327):1458-1459
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Leo Lap-Yan Wong Ian Pak-Yan Lam Tracy Yuk-Nar Wong Wai-Lung Lai Heong-Fai Liu Lam-Lung Yeung Yick-Pang Ching 《PloS one》2013,8(7)
Hepatocellular carcinoma (HCC) is one of the major malignancies worldwide and is associated with poor prognosis due to the high incidences of metastasis and tumor recurrence. Our previous study showed that overexpression of p21-activated protein kinase 1 (PAK1) is frequently observed in HCC and is associated with a more aggressive tumor behavior, suggesting that PAK1 is a potential therapeutic target in HCC. In the current study, an allosteric small molecule PAK1 inhibitor, IPA-3, was evaluated for the potential in suppressing hepatocarcinogenesis. Consistent with other reports, inhibition of PAK1 activity was observed in several human HCC cell lines treated with various dosages of IPA-3. Using cell proliferation, colony formation and BrdU incorporation assays, we demonstrated that IPA-3 treatment significantly inhibited the growth of HCC cells. The mechanisms through which IPA-3 treatment suppresses HCC cell growth are enhancement of apoptosis and blockage of activation of NF-κB. Furthermore, our data suggested that IPA-3 not only inhibits the HCC cell growth, but also suppresses the metastatic potential of HCC cells. Nude mouse xenograft assay demonstrated that IPA-3 treatment significantly reduced the tumor growth rate and decreased tumor volume, indicating that IPA-3 can suppress the in vivo tumor growth of HCC cells. Taken together, our demonstration of the potential preclinical efficacy of IPA-3 in HCC provides the rationale for cancer therapy. 相似文献
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Lam , S. L. and A. C. Leopold . (Purdue U., Lafayette, Indiana.) Reversion from flowering to the vegetative state in Xanthium. Amer. Jour. Bot. 47(4): 256—259. Illus. 1960.–Plants of Xanthium pensylvanicum Wallr. which had been induced with short photoperiods were caused to revert to the vegetative state either by decapitation or by pinching and subsequent partial de-budding. The ability of induced plants to revert varies with the intensity of the inductive stimulus, and with the extent to which the plant is cut back. Four successive decapitation treatments caused complete reversion of almost all plants which had been given 7 inductive cycles. Reversion can be obtained after 3 inductive cycles even when all of the induced leaves remain on the plant. It is suggested that under the conditions of these experiments the synthesis of the flowering stimulus is stopped or the stimulus is immobilized in the leaves and made ineffective. 相似文献
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Steroids are chiral molecules with multiple stereogenic centers. Studies of their intermediary metabolism often require analytical techniques to separate the isomers and determine their stereochemistry. Methods for resolving steroid stereoisomers by HPLC using β-cyclodextrin in the mobile phase are reported. Even with the improved selectivity of cyclodextrin chromatography, not all isomers within a steroid series can be resolved. Additional specificity is achieved by reaction detection using postcolumn reactors containing hydroxysteroid dehydrogenases stereospecific for the configuration of the hydroxy functions of steroids. The enzymes catalyze the oxidation of hydroxysteroids and reduction of the coenzyme NAD to NADH. NADH, which is highly fluorescent, is detected at the nanogram levels. Isomers not separated by chromatography were effectively resolved by reaction detection with stereospecific enzymes. © 1992 Wiley-Liss, Inc. 相似文献
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Several RNA-cleaving deoxyribozymes (DNAzymes) have been reported for efficient cleavage of purine-containing junctions, but none is able to efficiently cleave pyrimidine-pyrimidine (Pyr-Pyr) junctions. We hypothesize that a stronger Pyr-Pyr cleavage activity requires larger DNAzymes with complex structures that are difficult to isolate directly from a DNA library; one possible way to obtain such DNAzymes is to optimize DNA sequences with weak activities. To test this, we carried out an in vitro selection study to derive DNAzymes capable of cleaving an rC-T junction in a chimeric DNA/RNA substrate from DNA libraries constructed through chemical mutagenesis of five previous DNAzymes with a kobs of ∼ 0.001 min− 1 for the rC-T junction. After several rounds of selective amplification, DNAzyme descendants with a kobs of ∼ 0.1 min− 1 were obtained from a DNAzyme pool. The most efficient motif, denoted “CT10-3.29,” was found to have a catalytic core of ∼ 50 nt, larger than other known RNA-cleaving DNAzymes, and its secondary structure contains five short duplexes confined by a four-way junction. Several variants of CT10-3.29 exhibit a kobs of 0.3-1.4 min− 1 against the rC-T junction. CT10-3.29 also shows strong activity (kobs > 0.1 min− 1) for rU-A and rU-T junctions, medium activity (> 0.01 min− 1) for rC-A and rA-T junctions, and weak activity (> 0.001 min− 1) for rA-A, rG-T, and rG-A junctions. Interestingly, a single-point mutation within the catalytic core of CT10-3.29 altered the pattern of junction specificity with a significantly decreased ability to cleave rC-T and rC-A junctions and a substantially increased ability to cleave rA-A, rA-T, rG-A, rG-T, rU-A, and rU-T junctions. This observation illustrates the intricacy and plasticity of this RNA-cleaving DNAzyme in dinucleotide junction selectivity. The current study shows that it is feasible to derive efficient DNAzymes for a difficult chemical task and reveals that DNAzymes require more complex structural solutions for such a task. 相似文献
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M. C. Gómez-Puerto L. P. Verhagen A. K. Braat E. W.-F. Lam P. J. Coffer 《Autophagy》2016,12(10):1804-1816
Bone remodeling is a continuous physiological process that requires constant generation of new osteoblasts from mesenchymal stem cells (MSCs). Differentiation of MSCs to osteoblast requires a metabolic switch from glycolysis to increased mitochondrial respiration to ensure the sufficient energy supply to complete this process. As a consequence of this increased mitochondrial metabolism, the levels of endogenous reactive oxygen species (ROS) rise. In the current study we analyzed the role of forkhead box O3 (FOXO3) in the control of ROS levels in human MSCs (hMSCs) during osteogenic differentiation. Treatment of hMSCs with H2O2 induced FOXO3 phosphorylation at Ser294 and nuclear translocation. This ROS-mediated activation of FOXO3 was dependent on mitogen-activated protein kinase 8 (MAPK8/JNK) activity. Upon FOXO3 downregulation, osteoblastic differentiation was impaired and hMSCs lost their ability to control elevated ROS levels. Our results also demonstrate that in response to elevated ROS levels, FOXO3 induces autophagy in hMSCs. In line with this, impairment of autophagy by autophagy-related 7 (ATG7) knockdown resulted in a reduced capacity of hMSCs to regulate elevated ROS levels, together with a reduced osteoblast differentiation. Taken together our findings are consistent with a model where in hMSCs, FOXO3 is required to induce autophagy and thereby reduce elevated ROS levels resulting from the increased mitochondrial respiration during osteoblast differentiation. These new molecular insights provide an important contribution to our better understanding of bone physiology. 相似文献