甘蔗黄叶病毒cp基因的克隆及原核表达

甘蔗黄叶病毒(Sugarcane Yellow Leaf Virus,ScYLV)是甘蔗黄叶病的病原生物,其引起的甘蔗黄叶病是典型的系统性侵染的病毒病害。1990年Schenck等人第一次报道了这种大面积出现于夏威夷群岛夷哈马库亚(Hamakua)地区种植的H65-7025甘蔗品种上的非营养缺乏性甘蔗黄化现象[1-2]。2007年,海南有关甘蔗黄叶综合症的报道称:甘蔗黄叶病在海南已有零星出现[3]。

CP自由基与C_6H_6反应机理的理论研究

在B3LYP/6-311++G(d,p)水平下研究了CP自由基与C6H6反应体系的产物分布和反应机理.得到了详细标注反应物、产物、中间体和过渡态的势能面示意图.计算结果表明CP+C6H6体系的主要产物是C6H5CP+H,次要产物是HCP+C6H5.与深入研究的CN+C6H6反应体系相比,CP和CN反应体系的机理完全相似.本理论计算可以为将来实验室分离和研究一些含有不饱和CP基团的物种提供非常有价值的信息.

巯基蛋白酶水解对残余蛋白质膜再吸附色素能力的影响

目的:观察蛋白质/色素复合膜和蛋白质单层膜分别经木瓜蛋白酶、菠萝蛋白酶、无花果蛋白酶3种巯基蛋白酶(CPs)水解后再吸附色素的能力。方法:在消散因子石英微天平(QCM-D)芯片表面分别自组装构建去磷酸化牛乳β-酪蛋白(Dβ-CN)/茶黄素(TF)复合膜和Dβ-CN单层膜,经3种CPs水解后,观察残余膜的厚度及其再吸附TF的质量;用SPSS 18.0软件对结果进行单因素方差分析,非线性回归法拟合曲线分析膜厚度与TF吸附量的相关性。结果:Dβ-CN/TF复合膜和Dβ-CN单层膜分别经3种CPs水解后,其厚度均明显减少(P<0.05);残余膜再吸附TF的量也显著下降(P<0.05),膜厚度与其吸附TF的质量呈非线性正相关。结论:巯基蛋白酶可降低蛋白质残余膜与TF亲和力,在清除和预防蛋白质色渍方面具有潜在应用价值。

SiC_p/2024与2219铝合金电子束焊接

分别采用电子束对中焊、偏束焊技术,研究了Si C颗粒增强铝基复合材料Si Cp/2024与2219铝合金的接头组织及力学性能.结果表明,对中焊时接头易出现Si C增强相的偏聚,同时发生严重的界面反应,生成大量脆性相Al4C3,接头抗拉强度最高为104 MPa.采用偏束焊工艺可以很好地抑制界面反应,通常只在焊缝上部与Si Cp/Al热影响区上部生成少量脆性相Al4C3,接头抗拉强度最高可达131 MPa.试件均断裂在母材界面反应层上,且为明显的脆性断裂.不同工艺下接头横截面硬度分布存在突变区,该区域在Si Cp/2024熔合区附近,该处脆性相Al4C3的生成导致硬度升高.

Potato Virus Y mRNA Expression Knockdown Mediated by siRNAs in Cultured Mammalian Cell Line

RNA interference(RNAi) is a powerful tool for functional gene analysis which has been successfully used to downregulate the expression levels of target genes.The goal of this research was to provide a highly robust and concise methodology for in-vitro screening of efficient siRNAs from a bulk to be used as a tool to protect potato plants against PVY invasion.In our study,a 480bp fragment of the capsid protein gene of potato virus Y(CP-PVY) was used as a target to downregulate PVY mRNA expression in-vitro,as the CP gene interferes with viral uncoating,translation and replication.A total of six siRNAs were designed and screened through transient transfection assay and knockdown in expression of CP-PVY mRNA was calculated in CHO-k cells.CP-PVY mRNA knockdown efficiency was analyzed by RT-PCR and real-time PCR of CHO-k cells co-transfected with a CP gene construct and siRNAs.Six biological replicates were performed in this study.In our findings,one CP gene specific siRNA out of a total of six was found to be the most effective for knockdown of CP-PVY mRNA in transfected CHO-k cells by up to 80%-90%.