不在沉默中死亡 就在沉默中爆发 CDL季后赛决赛:HTML VS IFNT

背景:CDL联赛代表中国最高水平的DOTA联赛,在上月圆满结束。IFNT最终打破宿命,在决赛中2比0战胜了对手HTML,取得了冠军。第一场由于RELOAD导致REP丢失,现在将第二场做成战报,与大家分享其中的精彩之处!

绵羊干扰素tau在毕赤酵母中的表达

应用绵羊的干扰素tau基因IFNt,根据毕赤酵母(Pichia pastoris)密码子选择偏好进行分子改造。改造后的基因IFNt克隆到毕赤酵母表达载体p PIC9上,构建得到重组毕赤酵母表达质粒p PIC9-IFNt。电转化于毕赤酵母GS115菌株,对转化后菌体诱导表达,上清SDS-PAGE检测,并优化诱导表达条件。结果表明:IFNt基因已重组到酵母染色体上,并能正常分泌表达,最佳诱导条件为:200 r/min,28℃,0.5%甲醇,96 h。该研究为真核表达绵羊IFNt的生产应用提供了一定的理论依据。

TEAD1和YAP1对牛干扰素Tau基因表达调控的试验

为研究TEAD1和YAP1对牛IFNT基因的表达调控,利用PCR分析检测牛胚胎及各脏器中TEAD1和YAP1的表达情况。并通过IFNT荧光素酶报告基因,分析TEAD1和YAP1对牛IFNT基因在JEG3细胞中表达的影响。结果显示,TEAD1和YAP1基因在牛着床前胚胎中及各脏器中都有表达。荧光素酶分析表明,在IFNT基因5′端上游区域逐渐切除或者点突变的情况下,YAP1对IFNT基因的表达都有显著的上调作用;TEAD1对IFNT基因表达的影响不显著;TEAD1和YAP1共同作用时,协同效果不显著。

压痕诱发GaAs和Si晶体塑性、损伤与断裂

对压痕诱发脆性材料塑性、损伤与断裂研究进行总结,并结合与之有关学科研究进展予以评述.主要结果:微压痕诱导硅和砷化镓晶体的纳米和非晶转变,并发现这一转变的临界应力;转变过程是由切应力,并非静水压力控制;电子辐照诱导非晶晶化,并发现晶化临界条件;晶化速率与电流密度有关;压痕诱发的裂纹尖端不是原子尖的,其萌生与扩展伴随位错的产生,并由此引发点阵的畸变,并产生1～2nm宽非晶带;裂纹扩展沿非晶带发生,而非裂端前方原子键相继断裂的结果;经傅立叶变换和逆变换发现,裂纹尖端变形显示出各向异性.

鸭肠炎病毒感染诱导鸭胚成纤维细胞γ干扰素上调表达及初步机制的研究

目的探讨鸭肠炎病毒(DEV)诱导鸭胚成纤维细胞(DEF)中γ干扰素(IFNγ)的表达情况及初步机制。方法分别提取感染DEV后24h、36h、48h、60h的DEF总RNA,反转录成cDNA,使用特异性引物,运用荧光定量PCR方法 ,检测IFNγ及几个相关干扰素刺激基因(ISGs)mRNA水平的变化。结果感染DEV的细胞相对于未感染的细胞,IFNγ的mRNA在24 h、36 h、48 h、60 h均显著上调,且相关ISGs包括抗黏液病毒基因(Mx)、DEAD框蛋白50(DDX50,是一种ATP依赖的RNA解旋酶)、2'-5'寡腺苷酸合成酶L(OASL)等基因的mRNA表达水平也均显著上调。结论 DEV感染DEF能够诱导IFNγ产生及相关ISGs表达的上调。

Lactic acid in tumor microenvironments causes dysfunction of NKT cells by interfering with mTOR signaling

Cellular metabolism has been shown to regulate differentiation and function of immune cells. Tumor associated immune cells undergo phenotypic and functional alterations due to the change of cellular metabolism in tumor microenvironments. NKT cells are good candidates for immunotherapies against tumors and have been used in several clinical trials. However, the influences of tumor microenvironments on NKT cell functions remain unclear. In our studies, lactic acid in tumor microenvironments inhibited IFN？ and IL4 productions from NKT cells, and more profound influence on IFN？ was observed. By adjusting the pH of culture medium we fiu-ther showed that, dysfunction of NKT cells could simply be induced by low extracellular pH. Moreover, low extracellular pH inhibited NKT cell functions by inhibiting mammalian target of rapamycin （roTOR） signaling and nuclear translocation of promyelocytic leukemia zinc-finger （PLZF）. Together, our results suggest that tumor acidic microenvironments could interfere with NKT cell functions through metabolic controls.