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101.
An?Hoai?Nguyen Leon?M.?Hodgson William?Erskine Susan?J.?BarkerEmail author 《Plant Cell, Tissue and Organ Culture》2016,127(3):623-635
For pulse legume research to fully capitalise on developments in plant molecular genetics, a high throughput genetic transformation methodology is required. In Western Australia the dominant grain legume is Lupinus angustifolius L. (narrow leafed lupin; NLL). Standard transformation methodology utilising Agrobacterium tumefaciens on wounded NLL seedling shoot apices, in combination with two different herbicide selections (phosphinothricin and glyphosate) is time consuming, inefficient, and produces chimeric shoots that often fail to yield transgenic progeny. Investigation of hygromycin as an alternative selection in combination with expression of green fluorescent protein indicated that transformation of NLL apical cells was not the rate limiting step to achieve transgenic shoot materials. In this research it was identified that despite ready transformation, apical cells were not competent to regenerate. However a deep and broad wounding procedure to expose underlying axillary shoot and vascular cells to Agrobacterium, in combination with delayed selection proved successful, increasing initial explants transformation efficiency up to 75?% and generating axillary shoots with significant transgenic content. Based on knowledge gained from studies of plant chimeras, further subculture of these initial axillary shoots will result in development of low chimeric transgenic materials with heritable content. Furthermore, the method was also tested successfully on other Lupinus species, faba bea and field pea. These results demonstrate that development of a high yielding transformation methodology for pulse legume crops is achievable. 相似文献
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107.
Jia‐Min Wang An‐Fang Huang Wang‐Dong Xu Lin‐Chong Su 《Journal of cellular and molecular medicine》2019,23(12):7926-7932
Interleukin‐29 (IL‐29) is a newly discovered member of type III interferon. It mediates signal transduction via binding to its receptor complex and activates downstream signalling pathways, and therefore induces the generation of inflammatory components. Recent studies reported that expression of IL‐29 is dysregulated in inflammatory autoimmune diseases, such as rheumatoid arthritis, systemic lupus erythematosus, osteoarthritis, Sjögren's syndrome, psoriasis and systemic sclerosis. Furthermore, functional analysis revealed that IL‐29 may involve in the pathogenesis of the inflammatory autoimmune disorders. In this review, we will systematically review the current knowledge about IL‐29. The information collected revealed the regulatory role of IL‐29 and may give important implications for its potential in clinical treatment. 相似文献
108.
Xuyang Wang Jinyu Pan Dian Liu Mingjun Zhang Xiaowei Li Jingjing Tian Ming Liu Tao Jin Fengshuang An 《Journal of cellular and molecular medicine》2019,23(8):5349-5359
Nicorandil exerts myocardial protection through its antihypoxia and antioxidant effects. Here, we investigated whether it plays an anti‐apoptotic role in diabetic cardiomyopathy. Sprague‐Dawley rats were fed with high‐fat diet; then single intraperitoneal injection of streptozotocin was performed. Rats with fasting blood glucose (FBG) higher than 11.1 mmol/L were selected as models. Eight weeks after the models were built, rats were treated with nicorandil (7.5 mg/kg day and 15 mg/kg day respectively) for 4 weeks. H9c2 cardiomyocytes were treated with nicorandil and then stimulated with high glucose (33.3 mmol/L). TUNEL assay and level of bcl‐2, bax and caspase‐3 were measured. 5‐HD was used to inhibit nicorandil. Also, PI3K inhibitor (Miltefosine) and mTOR inhibitor (rapamycin) were used to inhibit PI3K/Akt pathway. The results revealed that nicorandil (both 7.5 mg/kg day and 15mg/kg day) treatment can increase the level of NO in the serum and eNOS in the heart of diabetic rats compared with the untreated diabetic group. Nicorandil can also improve relieve cardiac dysfunction and reduce the level of apoptosis. In vitro experiments, nicorandil (100 µmol) can attenuate the level of apoptosis stimulated by high glucose significantly in H9C2 cardiomyocyte compared with the untreated group. The effect of nicorandil on apoptosis was blocked by 5‐HD, and it was accompanied with inhibition of the phosphorylation of PI3K, Akt, eNOS, and mTOR. After inhibition of PI3K/Akt pathway, the protective effect of nicorandil is restrained. These results verified that as a NO donor, nicorandil can also inhibit apoptosis in diabetic cardiomyopathy which is mediated by PI3K/Akt pathway. 相似文献
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Ting Zhu Shu An Man‐Ting Choy Junhao Zhou Shanshan Wu Shihua Liu Bangdong Liu Zhicheng Yao Xun Zhu Jueheng Wu Zhenjian He 《Journal of cellular and molecular medicine》2019,23(3):1852-1864
Long noncoding RNAs (lncRNAs) are involved in the pathology of various tumours, including non‐small cell lung cancer (NSCLC). However, the underlying molecular mechanisms of their specific association with NSCLC have not been fully elucidated. Here, we report that a cytoplasmic lncRNA, DUXAP9‐206 is overexpressed in NSCLC cells and closely related to NSCLC clinical features and poor patient survival. We reveal that DUXAP9‐206 induced NSCLC cell proliferation and metastasis by directly interacting with Cbl‐b, an E3 ubiquitin ligase, and reducing the degradation of epidermal growth factor receptor (EGFR) and thereby augmenting EGFR signaling in NSCLC. Notably, correlations between DUXAP9‐206 and activated EGFR signaling were also validated in NSCLC patient specimens. Collectively, our findings reveal the novel molecular mechanisms of DUXAP9‐206 in mediating the progression of NSCLC and DUXAP9‐206 may serve as a potential target for NSCLC therapy. 相似文献
110.
Yiming An Xia Long Ming Ma Jue Hu He Lin Dan Zhou Zheng Xing Bolong Huang Shihe Yang 《Liver Transplantation》2019,9(41)
Currently, in addition to the electroactive non‐noble metal water‐splitting electrocatalysts, a scalable synthetic route and simple activity enhancement strategy is also urgently needed. In particular, the well‐controlled synthesis of the well‐recognized metal–metal nanointer face in a single step remains a key challenge. Here, the synthesis of Cu‐supported Ni4Mo nanodots on MoOx nanosheets (Ni4Mo/MoOx) with controllable Ni4Mo particle size and d‐band structure is reported via a facile one‐step electrodeposition process. Density functional theory (DFT) calculations reveal that the active open‐shell effect from Ni‐3d‐band optimizes the electronic configuration. The Cu‐substrate enables the surface Ni–Mo alloy dots to be more electron‐rich, forming a local connected electron‐rich network, which boosts the charge transfer for effective binding of O‐related species and proton–electron charge exchange in the hydrogen evolution reaction. The Cu‐supported Ni4Mo/MoOx shows an ultralow overpotential of 16 mV at a current density of 10 mA cm?2 in 1 m KOH, demonstrating the smallest overpotential, at loadings as low as 0.27 mg cm?2, among all non‐noble metal catalysts reported to date. Moreover, an overpotential of 105 mV allows it to achieve a current density of 250 mA cm?2 in 70 °C 30% KOH, a remarkable performance for alkaline hydrogen evolution with competitive potential for applications. 相似文献