Repression of SIRT1 Promotes the Differentiation of Mouse Induced Pluripotent Stem Cells into Neural Stem Cells

The use of transplanting functional neural stem cells (NSCs) derived from induced pluripotent stem cells (iPSCs) has increased for the treatment of brain diseases. As such, it is important to understand the molecular mechanisms that promote NSCs differentiation of iPSCs for future NSC-based therapies. Sirtuin 1 (SIRT1), a NAD⁺-dependent protein deacetylase, has attracted significant attention over the past decade due to its prominent role in processes including organ development, longevity, and cancer. However, it remains unclear whether SIRT1 plays a role in the differentiation of mouse iPSCs toward NSCs. In this study, we produced NSCs from mouse iPSCs using serum-free medium supplemented with retinoic acid. We then assessed changes in the expression of SIRT1 and microRNA-34a, which regulates SIRT1 expression. Moreover, we used a SIRT1 inhibitor to investigate the role of SIRT1 in NSCs differentiation of iPSCs. Data revealed that the expression of SIRT1 decreased, whereas miRNAs-34a increased, during this process. In addition, the inhibition of SIRT1 enhanced the generation of NSCs and mature neurocytes. This suggests that SIRT1 negatively regulated the differentiation of mouse iPSCs into NSCs, and that this process may be regulated by miRNA-34a.     

Improvement of xylose utilization in Clostridium acetobutylicum via expression of the talA gene encoding transaldolase from Escherichia coli

Clostridium acetobutylicum ATCC 824 was metabolically engineered for improved xylose utilization. The gene talA, which encodes transaldolase from Escherichia coli K-12, was cloned and overexpressed in C. acetobutylicum ATCC 824. Compared with C. acetobutylicum ATCC 824 (824-WT), the transformant bearing the E. coli talA gene (824-TAL) showed improved ability on xylose utilization and solvents production using xylose as the sole carbon source. During the fermentation of xylose and glucose mixtures with three xylose/glucose ratios (approximately 1:2, 1:1 and 2:1), the rate of xylose consumption and final solvents titers of 824-TAL were all higher than those of 824-WT, despite glucose repression on xylose uptake still existing. These results suggest that the insufficiency of transaldolase in the pentose phosphate pathway (PPP) of C. acetobutylicum is one of the bottlenecks for xylose metabolism and therefore, overexpressing the gene encoding transaldolase is able to improve xylose utilization and solvent production.     

生源要素有效性及生物因子对湿地土壤碳矿化的影响

湿地土壤是全球碳存储的重要场所,湿地生态系统的碳循环过程对全球变化有重要指示作用。土壤碳矿化是湿地生态系统碳循环的重要环节,对于认知湿地生态系统生物地球化学循环过程具有重要的意义。综述了生源要素及生物因素对湿地土壤碳矿化的内在作用机制。土壤活性有机碳库通过调节土壤能源物质和微生物活性影响土壤碳库的有效性,是表征土壤碳矿化的敏感指标。湿地其它养分如N、P、S等元素的有效性也是影响土壤碳矿化的关键要素。电子受体(NO₃^-、SO₄^2-、Fe³⁺、Mn⁴⁺等)对湿地土壤碳矿化和有机碳转变的影响主要通过电子受体的还原过程完成,在厌氧分解过程中,湿地土壤利用难溶性电子受体可能是土壤C矿化的更重要途径。动物、植物、微生物群落和区系等则是土壤碳矿化的主要驱动因子。土壤动物区系在有机态养分矿化为无机态养分的过程有着独特的功能,能显著增加土壤碳矿化。土壤微生物的活性,决定着土壤中有机碎屑的降解速率,是土壤有机碳分解周转的主要诱导因素。湿地植物则通过影响根系、微生物呼吸底物的供应以及对小气候和土壤因子的调节而影响土壤有机质的分解。湿地生源要素和生物因子还极易与土壤理化性质如温度、水分、pH值和质地等环境因素形成交互和制约,共同影响土壤碳矿化。最后,提出了进一步研究生源要素和生物因素与湿地土壤碳矿化关系需要解决的一些重要问题。     

Decoy engineering of the receptor-like cytoplasmic kinase StPBS1 to defend against virus infection in potato

Potato virus Y (PVY) is an important pathogen of potato (Solanum tuberosum). Although the PBS1–RPS5 immune system is well documented in Arabidopsis thaliana, it has not been reported in potato. In Arabidopsis, the bacterial effector AvrPphB cleaves AtPBS1 to trigger an immune response. Here, we show that the AvrPphB-triggered immune response is mediated by StPBS1, a close homologue of AtPBS1 in potato. However, downstream signalling of StPBS1 was mediated by unknown resistance (R) proteins other than potato orthologues of AtRPS5 and HvPBR1, which is important for HvPBS1 signalling in barley. Immune signalling of StPBS1 is mediated by the AvrPphB C-terminal cleavage domain and an STKPQ motif, in contrast to AtPBS1-mediated immunity in which both AvrPphB cleavage fragments and an SEMPH motif are essential. The cleavage sequence of AvrPphB in StPBS1 was replaced with that of the PVY NIa-Pro protease to obtain StPBS1^NIa. StPBS1^NIa overexpression potato displayed stronger immunity to PVY infection than did the StPBS1 transgenic lines. StPBS1^NIa was cleaved at the expected target site by NIa-Pro protease from PVY. Thus, we characterized the function of StPBS1 in potato immunity and provide a biotechnology control method for PVY via transformation of decoy-engineered StPBS1^NIa.     

Nonlocal Immunized Mid-Infrared Magnetic Hot Spots in Graphene Junctions

Magnetic hot spots, which implies confinements and enhancements of magnetic fields, are demonstrated in graphene junctions (GJs) in the mid-infrared range. The appearance of magnetic hot spots in GJs comes from the conduction currents in the junction. In further, the extinction resonance peaks suffer blue shift, along with the increases in the magnetic fields inside junction area, when the junction width reduces. In opposite to the circumstances for electric field enhancements, neither magnetic field enhancements nor resonance frequency of GJs is perturbed by the intrinsic nonlocal electronic response of graphene. Such nonlocality immunized magnetic enhancement could be explained by the polarization dependent property of nonlocal effect.     

生长因子受体酪氨酸激酶的结构与功能

受体酪氨酸蛋白激酶是细胞信号转导进行的关键信号酶,在生长因子调控细胞生长、发育与功能的过程中起着重要的生理作用.本文主要介绍生长因子受体酪氨酸蛋白激酶的分类、结构与功能及其部分相关信号转导机制的研究进展.     

初次卵裂时间是猪克隆胚胎发育潜能的重要标识

初次卵裂时间与哺乳动物胚胎发育潜能有关．比较了不同初次卵裂时间(20～24 h,早期;25～36 h,中期;37～48 h,晚期;20～48 h,对照)的猪孤雌(parthenogenetic,PA)、体细胞核移植(somatic cell nuclear transfer,SCNT)胚胎的囊胚发育率、扩张囊胚发育率和囊胚细胞数,评价其体外发育能力．发现早期卵裂的PA胚胎发育到第6天的囊胚发育率显著高于中期、晚期以及对照组(P < 0.05;54.0% vs. 19.6%,5.4%,18.7%)．扩张囊胚发育率,早裂胚胎同样优于其他组．早期卵裂的SCNT胚胎发育到第6天的囊胚比率高于中期卵裂胚胎(32.2% vs. 23.5%),而晚期卵裂胚胎发育到囊胚的比率最低(6.3%)．早期卵裂的SCNT胚胎发育到第6天的扩张囊胚比率显著高于其余各组 (P < 0.05;18.9% vs. 5.9%、3.1%、7.4%)．囊胚细胞数在早期、中期、晚期三组之间表现出下降趋势．将早期卵裂的SCNT胚胎与未经挑选的对照组胚胎分别进行移植,观察其体内发育能力．移植早裂SCNT胚胎的受体在产仔数和克隆效率上均明显高于未经挑选胚胎的受体(4.7 vs. 2.1;3.9% vs. 0.9%),说明早裂胚胎着床后具有更强的发育能力．以上结果表明：初次卵裂时间可以作为猪克隆胚胎发育潜能的重要标识,选择早裂的胚胎进行移植,有助于提高克隆效率．     

皖南尖吻蝮蛇毒出血毒素Ⅳ的纯化与初步鉴定

从皖南尖吻蝮蛇（Ａｇｋｉｓｔｒｏｄｏｎａｃｕｔｕｓ）毒液中经ＤＥＡＥ－Ｓｅｐｈａｒｏｓｅ和ＳｅｐｈａｃｒｙｌＳ－２００两步凝胶柱层析首次纯化出一种中分子量出血毒素（简称ＡａＨⅣ）．经ＳＤＳ－ＰＡＧＥ和等电聚焦凝胶电泳测定其分子量为４４ｋＤ,等电点为ｐＨ５．０．从５００ｍｇ粗毒中可获得２０ｍｇＡａＨⅣ纯品．ＡａＨⅣ有较强的出血活性,最小出血剂量（ＭＨＤ）为０．４μｇ．     

2010年冬季寒冷天气对闽江口3种红树植物幼苗的影响

2010年10月8日-2011年2月26日,跟踪监测了闽江河口互花米草治理试验区人工种植的秋茄(Kandelia candel)、无瓣海桑(Sonneratia apetala)和拉关木(Leguncalaria racemosa)1年生幼苗叶片相溶性物质含量以及活性氧代谢等生理生化指标.结果表明:可溶性糖和脯氨酸含量均随气温的逐步降低而增加,秋茄可溶性糖含量最高,拉关木脯氨酸含量最高;整个监测期无瓣海桑和拉关木幼苗叶片超氧阴离子(O2)产生速率显著高于秋茄(P＜0.01),而超氧化物歧化酶(SOD)和过氧化物酶(POD)活性显著低于秋茄(P＜0.01);3种植物叶片丙二醛(MDA)含量及电解质渗透率均随着气温的降低而增加,其中无瓣海桑和拉关木MDA含量及电解质渗透率与日最低气温为显著和极显著的负相关关系.2010年冬季持续寒冷天气对闽江河口湿地1年生土著种秋茄幼苗无破坏,对引进种无瓣海桑和拉关木造成了严重的低温胁迫并使幼苗基本全部死亡.     

同型半胱氨酸对大鼠血管平滑肌细胞增殖的作用

血中同型半胱氨酸（ｈｏｍｏｃｙｓｔｅｉｎｅ,ＨＣＹ）浓度的升高已成为动脉粥样硬化发生的一个独立危险因子．为进一步阐明ＨＣＹ促进血管平滑肌细胞（ｖａｓｃｕｌａｒｓｍｏｏｔｈｍｕｓｃｌｅｃｅｌｓ,ＶＳＭＣｓ）增殖,从而引起动脉粥样硬化发生的机理．本实验采用细胞计数、３Ｈ－ＴｄＲ参入、细胞周期分析、Ｎｏｒｔｈｅｒｎ杂交方法证明,一定剂量的ＨＣＹ可促进离体培养的ＷＫＹ大鼠血管平滑肌细胞增殖,使其ＤＮＡ合成增加,细胞周期中Ｓ期细胞所占比例增加４３％,并促进ｃ－ｍｙｃ与ｃ－ｆｏｓ原癌基因ｍＲＮＡ表达增加．提示ＨＣＹ可能通过促进ＶＳＭＣｓ增殖而诱发动脉粥样硬化