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The compounds pGlu-His-Pro-Amph and pGlu-His-Amph obtained from the condensation of TRH or a fragment of TRH with amphetamine show activities which are different regarding the parent compounds. Although the two derivatives exhibit about the same low toxicity they differ in several pharmacological properties. Physicochemical analysis by 1H-NMR and CD spectroscopy was carried out in order to detect in the two compounds conformational differences that might explain their different activities. The results show that in the proline containing peptide the amphetamine has a hindered rotation in comparison with the compounds devoid of proline. This, together with the occurrence of a cis conformer having different properties than the trans conformer could be the origin of the biological difference observed between the two hybrid compounds. 相似文献
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Jia Z. Shen Zhixin Qiu Qiulian Wu Darren Finlay Guillermina Garcia Dahui Sun Juha Rantala William Barshop Jennifer L. Hope Ryan C. Gimple Olle Sangfelt Linda M. Bradley James Wohlschlegel Jeremy N. Rich Charles Spruck 《Cell》2021,184(2):352-369.e23
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《Molecular cell》2021,81(23):4876-4890.e7
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Yuxin Yang Shuting Song Qiuyu Meng Liyan Wang Xiaonan Li Sijie Xie Yingjie Chen Xiaoxue Jiang Chen Wang Yanan Lu Xiaoru Xin Hu Pu Xin Gui Tianming Li Jie Xu Jiao Li Song Jia Dongdong Lu 《Journal of cellular and molecular medicine》2020,24(5):2772-2790
Several microRNAs are associated with carcinogenesis and tumour progression. Herein, our observations suggest both miR24-2 and Pim1 are up-regulated in human liver cancers, and miR24-2 accelerates growth of liver cancer cells in vitro and in vivo. Mechanistically, miR24-2 increases the expression of N6-adenosine-methyltransferase METTL3 and thereafter promotes the expression of miR6079 via RNA methylation modification. Furthermore, miR6079 targets JMJD2A and then increased the tri-methylation of histone H3 on the ninth lysine (H3K9me3). Therefore, miR24-2 inhibits JMJD2A by increasing miR6079 and then increases H3K9me3. Strikingly, miR24-2 increases the expression of Pim1 dependent on H3K9me3 and METTL3. Notably, our findings suggest that miR24-2 alters several related genes (pHistone H3, SUZ12, SUV39H1, Nanog, MEKK4, pTyr) and accelerates progression of liver cancer cells through Pim1 activation. In particular, Pim1 is required for the oncogenic action of miR24-2 in liver cancer. This study elucidates a novel mechanism for miR24-2 in liver cancer and suggests that miR24-2 may be used as novel therapeutic targets of liver cancer. 相似文献
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Fangfang Wu Shanshan Zhang Baojuan Xi Zhenyu Feng Di Sun Xiaojian Ma Junhao Zhang Jinkui Feng Shenglin Xiong 《Liver Transplantation》2018,8(13)
Despite great breakthroughs, the search for anode materials with high performance for lithium‐ion batteries (LIBs) remains challenging. Hence, engineering advantageous structures via effective routes can bring new possibilities to the development of the LIB field. Herein, the precise synthesis of three‐dimensional (3D) hybrids of ultrathin carbon‐wrapped CoO (CoO@C) dandelions is reported by the pyrolysis of two‐dimensional (2D) Kagóme metal–organic layers (MOLs) at 400 °C under an Ar atmosphere. Due to the special coordination structure of the paternal MOLs, the resulting CoO nanowires show a small diameter of 5–10 nm and are uniformly confined within the ultrathin carbon layer. Based on the time‐dependent pyrolysis experiments, a crystal transformation mechanism of in situ self‐templated‐recrystallization‐self‐assembly accompanied by phase and morphology changes is first presented to reveal the formation of the 3D dandelion‐like spheres with assembly of nanowire arrays from a 2D Kagóme MOL. By virtue of structural and compositional features, including a 3D array structure, the small size of the primary ultrathin nanowires, and a uniform ultrathin graphitic carbon layer, these unique CoO@C dandelions display high specific capacity, good rate capability, and excellent cycling stability. Importantly, this approach can be extended to accurately synthesize other desired composite structures. 相似文献
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Anna Stroynowska-Czerwinska Anna Piasecka Matthias Bochtler 《Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms》2018,1861(12):1093-1101
CXXC domains have traditionally been considered as CpG specific DNA binding domains that are repelled by cytosine modifications. This view has recently been challenged by the demonstration that CXXC domain of TET3 has relaxed sequence specificity and binds with the highest affinity to symmetric DNA duplex containing 5caCpG. Here, we present a comparative analysis of the MLL1-CXXC and TET3-CXXC sequence specificity and tolerance to cytosine modifications (5-methyl, 5-hydroxymethyl, 5-formyl, 5-carboxyl) in CpG and non-CpG context. For the first time, we take into consideration possible interference from cytosine bases elsewhere in the sequence. We show that despite similar overall structure, MLL1-CXXC has greater sequence and modification specificity than TET3-CXXC. MLL1-CXXC is specific only for CpG and does not tolerate any cytosine modifications. In contrast, TET3-CXXC does not require the CpG context of cytosine bases. Methyl-, formyl- and carboxyl-modifications are tolerated by TET3-CXXC, but only preceding G. Based on our and other data we propose a parsimonious model of MLL1-CXXC and TET3-CXXC DNA binding. This model explains why the binding of modified DNA duplexes by TET3-CXXC requires in some cases a register shift and is therefore context-dependent. 相似文献