芫根调节免疫功能的小肠转录组学研究

目的利用生物信息学技术初步探索芫根调控肠道免疫功能的分子生物学机制。方法选择雄性SPF级BALB/c小鼠18只,随机分为3组,每组6只。SC1组小鼠每只每次灌胃芫根提取液150μL,SC2组小鼠每只每次灌胃绞碎芫根原浆悬液150μL,NC组小鼠每只每次灌胃生理盐水150μL,连续7 d每日灌胃一次。分别取每组小鼠小肠组织样品提取RNA,总RNA的质检合格后,进行转录组测序。按GO功能和KEGG信号通路对差异表达基因聚类分析揭示差异表达高度富集的免疫相关通路。从免疫角度分析芫根灌胃小鼠小肠组织的基因表达变化情况。结果转录组测序共检测到27733条mRNA的表达,SC1组与NC组比较,显著差异表达基因1635个,其中上调差异表达基因1236个,下调差异表达基因399个;SC2组与NC组比较,显著差异表达基因2872个,其中上调差异表达基因2233个,下调差异表达基因639个(P<0.05)。按GO功能和KEGG信号通路聚类分析显示差异表达基因在白介素分泌、干扰素反应、T细胞受体信号通路及维生素和脂肪消化吸收等途径的富集度在两个芫根组中均居于前20位(P<0.01),肠黏膜趋化因子CCL20和巨噬细胞极化标志物CD274等免疫蛋白编码基因差异表达显著且同属于上述多个免疫通路。结论芫根灌胃小鼠小肠的差异表达基因在白介素分泌、干扰素反应、T细胞受体信号通路、营养物质消化吸收等途径高度富集,提示芫根对肠道免疫系统及肠黏膜功能的调节,其中CD274的表达上调和CCL20的表达下调提示诱导M1型巨噬细胞极化和T细胞活化可能是芫根调控免疫和维护肠道正常结构功能的重要途径。

三维针刺工艺参数对碳纤维复合材料力学性能的影响

以碳纤维单向布/网胎针刺织物为增强体,以树脂为基体,制备碳纤维复合材料,探究针刺密度、针刺深度对其力学性能的影响。结果表明:拉伸性能随着针刺密度、针刺深度的增加,呈下降趋势,层间剪切性能呈先增后减趋势;针刺深度对拉伸性能、层间剪切性能影响比针刺密度的大;单向布/网胎叠层针刺复合材料在针刺密度25刺/cm2,针刺深度13 mm工艺参数下具有较优的综合力学性能,其面内拉伸性能为493 MPa,层间剪切性能为30 MPa。

针刺参数对玄武岩纤维预制体力学和热导率影响的有限元分析

针刺密度、针刺深度等针刺工艺会对纤维针刺预制体的性能造成显著影响。本文通过有限元分析方法,利用Python语言对ABAQUS软件进行二次开发,建立了玄武岩纤维针刺预制体的代表性体积单元(RVE)。研究了针刺深度和针刺密度对玄武岩纤维针刺预制体层间力学和热导率的影响,并结合实验结果分析了其影响机制。结果表明,不同纤维网胎层间主要依靠针刺纤维进行结合,增加针刺密度和针刺深度均可提高针刺预制体的剪切性能,但提高针刺密度的效果比提高针刺深度的效果更加明显。当沿针刺预制体z轴方向施加温度梯度时,热流矢量主要集中于针刺纤维中,且当增加针刺深度时上述现象更加明显。因此,增加针刺深度不利于针刺预制体的防热性能。

叠层针刺工艺参数对碳纤维复合材料力学性能的影响

采用叠层针刺工艺方法,制备缎纹布/网胎碳纤维针刺预制体,并进行树脂基复合,得到碳纤维复合材料。测试其力学性能,探究不同针刺密度、针刺深度对其拉伸性能和层间剪切性能的影响。结果表明:随着针刺密度、针刺深度的增加,碳纤维复合材料拉伸性能呈下降趋势,其层间剪切性能呈先增后减趋势;针刺深度对拉伸性能、层间剪切性能的影响比针刺密度更显著。在针刺密度25刺/cm^2、针刺深度13 mm的工艺参数下可获得综合力学性能较优的缎纹布/网胎叠层针刺复合材料,其拉伸强度为253 MPa、层间剪切强度为31.24 MPa。

Deoxyribozymes inhibit the expression of periodl gene in vitro

To investigate the effect of two deoxyribozymes targeting period1(per1)mRNA in vitro for exploring a novel gene therapy approach about circadian rhythm diseases,the specific deoxyribozymes targeting per1 were designed and synthesized chemically following MFold analysis according to its mRNA secondary structure.per1 RNA fragments were prepared by in vitro transcription of pcDNA3.1(+)-per1_(164:256).The cleavage reactions containing deoxyribozymes and per1 RNA fragments were performed under certain conditions.With the transfection tech-nique mediated by LipofectAMINE^(TM),pcDNA3-per1 and DRz164 or DRz256 were introduced into NIH3T3 cells.The effects of deoxyribozymes on per1 were studied by reverse tran-script-polymerase chain reaction(RT-PCR)and flow cytometry(FCM).When deoxyribozymes and RNA transcripts were incubated under the adopted conditions at 37℃for 2 h,about 63%of per1_(164:256)RNA transcripts were cleaved by DRz164 and about 50.5%by DRz256.After co-transfecting pcDNA3-per1 with DRz164 or DRz256,the expression of per1 mRNA was de-creased,as indicated by RT-PCR semi-quantity analysis.FCM analysis showed that Per1 protein was inhibited.Both DRz164 and DRz256 targeting per1 have the specific cleavage activity to-ward per1 mRNA in vitro and can highly block the expression of per1 gene in cellular milieu.