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161.
Jin-Yong He Xiao-Hui Wei Si-Jing Li Yang Liu Hao-Lin Hu Zheng-Zheng Li Xin-Hong Kuang Lai Wang Xin Shi Sheng-Tao Yuan Li Sun 《Cell communication and signaling : CCS》2018,16(1):100
Background
Adipocytes make up the major component of breast tissue, accounting for 90% of stromal tissue. Thus, the crosstalk between adipocytes and breast cancer cells may play a critical role in cancer progression. Adipocyte-breast cancer interactions have been considered important for the promotion of breast cancer metastasis. However, the specific mechanisms underlying these interactions are unclear. In this study, we investigated the mechanisms of adipocyte-mediated breast cancer metastasis.Methods
Breast cancer cells were cocultured with mature adipocytes for migration and 3D matrix invasion assays. Next, lentivirus-mediated loss-of-function experiments were used to explore the function of lysyl hydroxylase (PLOD2) in breast cancer migration and adipocyte-dependent migration of breast cancer cells. The role of PLOD2 in breast cancer metastasis was further confirmed using orthotopic mammary fat pad xenografts in vivo. Clinical samples were used to confirm that PLOD2 expression is increased in tumor tissue and is associated with poor prognosis of breast cancer patients. Cells were treated with cytokines and pharmacological inhibitors in order to verify which adipokines were responsible for activation of PLOD2 expression and which signaling pathways were activated in vitro.Results
Gene expression profiling and Western blotting analyses revealed that PLOD2 was upregulated in breast cancer cells following coculture with adipocytes; this process was accompanied by enhanced breast cancer cell migration and invasion. Loss-of-function studies indicated that PLOD2 knockdown suppressed cell migration and disrupted the formation of actin stress fibers in breast cancer cells and abrogated the migration induced by following coculture with adipocytes. Moreover, experiments performed in orthotopic mammary fat pad xenografts showed that PLOD2 knockdown could reduce metastasis to the lung and liver. Further, high PLOD2 expression correlated with poor prognosis of breast cancer patients. Mechanistically, adipocyte-derived interleukin-6 (IL-6) and leptin may facilitate PLOD2 upregulation in breast cancer cells and promote breast cancer metastasis in tail vein metastasis assays. Further investigation revealed that adipocyte-derived IL-6 and leptin promoted PLOD2 expression through activation of the JAK/STAT3 and PI3K/AKT signaling pathways.Conclusions
Our study reveals that adipocyte-derived IL-6 and leptin promote PLOD2 expression by activating the JAK/STAT3 and PI3K/AKT signaling pathways, thus promoting breast cancer metastasis.162.
Single‐Crystalline Ultrathin Co3O4 Nanosheets with Massive Vacancy Defects for Enhanced Electrocatalysis
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Zhao Cai Yongmin Bi Enyuan Hu Wen Liu Nico Dwarica Yang Tian Xiaolin Li Yun Kuang Yaping Li Xiao‐Qing Yang Hailiang Wang Xiaoming Sun 《Liver Transplantation》2018,8(3)
The role of vacancy defects is demonstrated to be positive in various energy‐related processes. However, introducing vacancy defects into single‐crystalline nanostructures with given facets and studying their defect effect on electrocatalytic properties remains a great challenge. Here this study deliberately introduces oxygen defects into single‐crystalline ultrathin Co3O4 nanosheets with O‐terminated {111} facets by mild solvothermal reduction using ethylene glycol under alkaline condition. As‐prepared defect‐rich Co3O4 nanosheets show a low overpotential of 220 mV with a small Tafel slope of 49.1 mV dec?1 for the oxygen evolution reaction (OER), which is among the best Co‐based OER catalysts to date and even more active than the state‐of‐the‐art IrO2 catalyst. Such vacancy defects are formed by balancing with reducing environments under solvothermal conditions, but are surprisingly stable even after 1000 cycles of scanning under OER working conditions. Density functional theory plus U calculation attributes the enhanced performance to the oxygen vacancies and consequently exposed second‐layered Co metal sites, which leads to the lowered OER activation energy of 2.26 eV and improved electrical conductivity. This mild solvothermal reduction concept opens a new door for the understanding and future designing of advanced defect‐based electrocatalysts. 相似文献
163.
Tuning Electronic Structure of NiFe Layered Double Hydroxides with Vanadium Doping toward High Efficient Electrocatalytic Water Oxidation
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Pengsong Li Xinxuan Duan Yun Kuang Yaping Li Guoxin Zhang Wen Liu Xiaoming Sun 《Liver Transplantation》2018,8(15)
Binary NiFe layer double hydroxide (LDH) serves as a benchmark non‐noble metal electrocatalyst for the oxygen evolution reaction, however, it still needs a relatively high overpotential to achieve the threshold current density. Herein the catalyst's electronic structure is tuned by doping vanadium ions into the NiFe LDHs laminate forming ternary NiFeV LDHs to reduce the onset potential, achieving unprecedentedly efficient electrocatalysis for water oxidation. Only 1.42 V (vs reversible hydrogen electrode (RHE), ≈195 mV overpotential) is required to achieve catalytic current density of 20 mA cm?2 with a small Tafel slope of 42 mV dec?1 in 1 m KOH solution, which manifests the best of NiFe‐based catalysts reported till now. Electrochemical analysis and density functional theory +U simulation indicate that the high catalytic activity of NiFeV LDHs mainly attributes to the vanadium doping which can modify the electronic structure and narrow the bandgap thereby bring enhanced conductivity, facile electron transfer, and abundant active sites. 相似文献
164.
Highly Conductive,Light Weight,Robust, Corrosion‐Resistant,Scalable, All‐Fiber Based Current Collectors for Aqueous Acidic Batteries
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Wei Luo John Hayden Soo‐Hwan Jang Yilin Wang Ying Zhang Yudi Kuang Yanbin Wang Yubing Zhou Gary W. Rubloff Chuan‐Fu Lin Liangbing Hu 《Liver Transplantation》2018,8(9)
Lithium‐ion batteries (LIBs) are integral parts of modern technology, but can raise safety concerns because of their flammable organic electrolytes with low flash points. Aqueous electrolytes can be used in LIBs to overcome the safety issues that come with organic electrolytes while avoiding poor kinetics associated with solid state electrolytes. Despite advances in aqueous electrolytes, current collectors for aqueous battery systems have been neglected. Current collectors used in today's aqueous battery systems are usually metal‐based materials, which are heavy, expensive, bulky, and prone to corrosion after prolonged use. Here, a carbon nanotube (CNT)–cellulose nanofiber (CNF) all‐fiber composite is developed that takes advantage of the high conductivity of CNT while achieving high mechanical strength through the interaction between CNT and CNF. By optimizing the CNT/CNF weight ratio, this all‐fiber current collector can be made very thin while maintaining high conductivity (≈700 S cm?1) and strength (>60 MPa), making it an ideal replacement for heavy metal current collectors in aqueous battery systems. 相似文献
165.
Xiaoyi Zhu Liang Zhang Chen Kuang Yan Guo Chunqian Huang Linbin Deng Xingchao Sun Gaomiao Zhan Zhiyong Hu Hanzhong Wang Wei Hua 《Photosynthesis research》2018,137(3):493-501
In plants, green non-foliar organs are able to perform photosynthesis just as leaves do, and the seed-enclosing pod acts as an essential photosynthetic organ in legume and Brassica species. To date, the contribution of pod photosynthesis to seed yield and related components still remains largely unexplored, and in Arabidopsis thaliana, the photosynthetic activity of the silique (pod) is unknown. In this study, an Arabidopsis glk1/glk2 mutant defective in both leaf and silique photosynthesis was used to create tissue-specific functional complementation lines. These lines were used to analyze the contribution of silique wall photosynthesis to seed yield and related traits, and to permit the comparison of this contribution with that of leaf photosynthesis. Our results showed that, together with leaves, the photosynthetic assimilation of the silique wall greatly contributed to total seed yield per plant. As for individual components of yield traits, leaf photosynthesis alone contributed to the seed number per silique and silique length, while silique wall photosynthesis alone contributed to thousand-seed weight. In addition, enhancing the photosynthetic capacity of the silique wall by overexpressing the photosynthesis-related RCA gene in this tissue resulted in significantly increased seed weight and oil content in the wild-type (WT) background. These results reveal that silique wall photosynthesis plays an important role in seed-related traits, and that enhancing silique photosynthesis in WT plants can further improve seed yield-related traits and oil production. This finding may have significant implications for improving the seed yield and oil production of oilseed crops and other species with pod-like organs. 相似文献
166.
思茅咖啡天牛种群构成与危害的时空特性研究 总被引:7,自引:1,他引:6
通过室内饲养和野外调查,本文对思茅市咖啡天牛种群的构成,发生时期危害的时空特性及幼虫蛀孔部位的选择性进行了研究。结果表明,危害思茅地区咖啡的天牛种群由旋皮天牛和灭字虎天牛构成 ,在不同时间两个种群的构成比例不同。施皮天牛是优势种心化高峰期为4月18-30日,灭字虎天牛成虫主要在10-12月出现;在咖啡树中天牛幼虫的频数分布具有明显特征,1头虫的分布频数最高; 相似文献
167.
光敏核不育水稻农垦58S 41 kD蛋白质的N—端序列分析 总被引:3,自引:0,他引:3
光敏核不育性受1对或2对或3对隐性主基因控制,这反应了光敏核不育特性遗传机制的复杂性。张端品等用形态标记法将农垦58S光敏核不育基因定位于第5染色体。胡学应和万邦惠用同工酶法以农垦58S/02428 F_2群体为材料,将光敏核不育基因定位于第6和11染色体;Zhang等用RFLP法以32001S/明恢63 F_2群体为材料将不育基因定位于第3和7染色体。这三种方法所得到的定位结果完全不同,综合起来,第3、5、6、7和11染色体均有光敏核不育基因的位点,由此结果可得出两种解释:1.光敏核不育性由多对基因、至少5对基因控制;2.上述定位方法均是以不育(可育)性状在F_2群体中的分离模式为依据,育性划分界线的不同将会造成分离群体中单株表现值的差异,从而影响定位结果的精确性;再者不同实验室使用的材料不一致,已知不同遗传背景和光温条件影响光敏核不育基因的表达。因此,染色体定位结果有待确证。光敏核不育基因在染色体上定位的复杂性和不一致在某种程度上影响了基因克隆和光敏核不育分子机制的研究。无论光敏核不育性的遗传机制如何复杂,上述结果 相似文献
168.
利用分离的叶绿体作实验材料,发现华山松(Pinus armandi Franch.)南方种源的4阶导数吸收光谱在680nm处峰值较大,在670nm处峰值较小,而北方种源中出现了在680nm处峰值较在670nm峰值小的类群,推断北方种群反应中心活力有下降趋势。南、北种源之间的低温(77K)荧光发射光谱有明显差异,PSⅠ、PSⅡ发射峰位置出现地理变动。低温荧光激发光谱分析表明,地理变异主要发生在叶绿素a的分子状态上。研究还表明,完整的针叶因为有角质层、松脂等物质干扰,检测不出光谱的差异,不是理想的实验材料。 相似文献
169.
光周期对光敏核不育水稻光敏色素A含量及其mRNA丰度的影响 总被引:7,自引:0,他引:7
光敏核不育水稻(农垦58S)是我国特有的水稻(Oryza sativa L.)种质材料,光敏色素是光周期诱导其育性转变的受体。报道了育性转换敏感期间的光周期处理对农垦58S及对照“农垦58”叶片中光敏色素A(Phy A)含量及其mRNA丰度的影响。在10个光周期处理的最后一个暗期结束前,收获每株水稻的上部两片叶,用酶联免疫吸附测定法测定Phy A。和长日照(LD)相比,短日照(SD)处理导致农垦58SPhy A相对含量增加38.5%;而“农垦58”只增加18.5%。显然,在较长的暗期中,农垦58S中Phy A的积累比对照快。在水稻幼苗中也得出相似的结果。以光敏色素A基因(phy A)的特异性片段RPA3作探针,用RNA斑点杂交的方法对叶片中Phy A mRNA丰度进行分析的结果表明,光周期处理5d和10d时,两品种水稻的Phy A mRNA丰度都是SD处理的比LD的高,而且SD下农垦58S Phy A mRNA的丰度均比“农垦58”的高。这些结果表明,甲基化水平较低的农垦58S phy A可能比“农垦58”的phy A更活跃地表达。另外,在育性转换敏感期每日主光期结束时(EOD)进行10次短暂的远红光(FR)照射。结果表明,农垦58S植株抽穗和开花期比SD处理推迟2d,而花粉败育率、种子结实率却无变化。暗示农垦58S开花和育性转变过程的光周期反应可能不同。 相似文献
170.
光合作用的核心问题之一是光合作用的原初反应,即光能的高效吸收、转化和传递的机理。由于PSⅡ与水裂解、氧释放密切相关,因此,PSⅡ反应中心原初反应和能量传递的机理研究具有重要的理论意义。最近,PSⅡ捕光天线复合物以及细菌外周天线复合物的三维空间结构被揭示,反应中心及捕光天线的能量传递规律日益成为新的研究热点之一。近年来,国际上许多实验室采用时间分辨荧光光谱和吸收光谱等技术,利用不同层次的样品,对PSⅡ的原初反应包括能量传递过程的动力学性质进行了研究。但是,不同实验室得到的动力学数据以及对实验数据的解释都存在较大差异。我们实验 相似文献