硫化氢在心血管保护过程中免疫炎症调节研究进展

硫化氢(hydrogen sulfide,H_2S)是一种无色、具有臭鸡蛋气味的气体,过去认为只是一种有毒的气体。近年来大量研究证实H_2S是继一氧化氮(nitric oxide,NO)和一氧化碳(carbon oxide,CO)后第三种内源性气体信号分子,同时,H_2S在心血管系统疾病发生、发展过程中起关键的调控作用,但其机制还不明确,已有报道主要通过抗凋亡、抗氧化、调节内皮一氧化氮合酶活性、促进血管新生等;而本文总结了H_2S在缺血性心脏病、动脉粥样硬化等心血管疾病中免疫炎症调节作用及其机制,从而为H_2S生物学功能以及相关心血管疾病的防治提供新的思路。     

直接重整细胞核程序的诱导性多能干细胞研究进展

诱导性多能干细胞（induced pluripotent stem cells, iPS）是分化细胞在外源性因子作用下,经直接细胞核程序重整而重新获得分化潜能的干细胞,具有很重要的应用前景。介绍了iPS诱导方法从转录因子、RNA结合蛋白、小分子化合物、到信号传导通路的发展过程,以及在提高生物安全性方面的改进。iPS的生成在细胞学上表现为渐进的、时间依赖的过程,同细胞的分化状态密切相关;然而,iPS同胚胎干细胞表遗传特征并非完全相同。iPS的进展结合基因治疗和细胞治疗的成果已应用到动物疾病模型的治疗。     

Function of RNA-binding protein Musashi-1 in stem cells

Musashi is an evolutionarily conserved family of RNA-binding proteins that is preferentially expressed in the nervous system. The first member of the Musashi family was identified in Drosophila. This protein plays an essential role in regulating the asymmetric cell division of ectodermal precursor cells known as sensory organ precursor cells through the translational regulation of target mRNA. In the CNS of Drosophila larvae, however, Musashi is expressed in proliferating neuroblasts and likely has a different function. Its probable mammalian homologue, Musashi-1, is a neural RNA-binding protein that is strongly expressed in fetal and adult neural stem cells (NSCs). Mammalian Musashi-1 augments Notch signaling through the translational repression of its target mRNA, m-Numb, thereby contributing to the self-renewal of NSCs. In addition to its functions in NSCs, the role of mammalian Musashi-1 protein in epithelial stem cells, including intestinal and mammary gland stem cells, is attracting increasing interest.     

Stepwise sRNA targeting of structured bacterial mRNAs leads to abortive annealing

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Regulation of Gene Expression in Higher Plants

The study on regulation of gene expression in higher plants has attracted attention of many scientists and is also one of the major scientific research areas in modern biological studies. With advancement of the technology of genetic engineering, more and more details of gene regulation are revealed and it has been found that regulatory zones of most genes are located at the 5' upstream promoter regions. Now,the study on regulation of gene expression is mainly focused on light regulated genes, tissue specific genes, environmental stress induced genes, bormone-induced genes and so on. This article gives a more or less comprehensive review on the several aspects mentioned above.     

The effects of cultural conditions on growth and secondary metabolism in Streptomyces thermoviolaceus

Abstract Granaticin, an isochromate quinone antibiotic is synthesized as a secondary metabolite by Streptomyces thermoviolaceus . Antibiotic productivity was investigated under a variety of cultural conditions, including complex and defined media, mesophilic and thermophilic temperatures and a variety of sole carbon sources. In a defined medium growth was supported, to varying extents, by different carbon sources and in most cases granaticin production was observed. Highest biomass and granaticin yields were obtained when cultures were grown in the presence of xylan, fructose, glutamate or proline as carbon source. Changes in pH during growth affected both the timing and extent of granaticin production.