利用根癌农杆菌和基因枪法转化获得转抗虫融合蛋白基因(Bt-CpTI)甘蓝植株

以下胚轴、带柄子叶和茎尖为外植体,利用根癌农杆菌和基因枪法将抗虫融合蛋白基因(Bt-CpTI)导人甘蓝品种“中甘8号”,得到了13株卡那霉素抗性植株。经PCR扩增反应和Southern blot分子验证表明:农杆菌介导转化下胚轴和带柄子叶来源的Ⅰ型抗性植株均为转基因植株,而农杆菌介导转化茎尖外植体得到的Ⅱ型抗性植株属“假阳性”植株,基因枪介导转化茎尖的2株Ⅲ型植株中,有1株是非转基因植株。经胰蛋白酶抑制剂活性分析和抗虫测试证明,部分转基因植株有较高的胰蛋白酶抑制剂活性和抗菜青虫能力。     

转化生长因子β1在肾小管上皮细胞的信号介导分子

本研究在人肾小管上皮细胞系(HK-2)上探讨了介导转化生长因子β_1(TGFβ_1)生物学效应的信号介导分子。结果表明SMADs信号蛋白及ERK激酶均参与TGFβ_1的信号转导;通路特异性Smad2于TGFβ_1作用4小时后开始增加,持续至48小时;而抑制性Smad6于TGFβ_1作用1小时开始减少,4小时达到最低值,以后逐渐恢复;ERK只参与TGFβ抑制增殖效应,对TGFβ促进FN分泌无影响。     

中国长大蚜属Eulachnus del Guercio研究及一新种记述(同翅目:蚜总科,大蚜科)(英文)

系统研究了中国的长大蚜属EulachnusdelGuercio ,190 9,共记述 12种 ,其中 1个新种 ,肖高山长大蚜E .similialticolaZhang ,sp .nov .;2种中国新记录种 :高山长大蚜E .alticolaB rner,1940和钉毛长大蚜E .tuberculostemmatus (Theobald ,1915 )。论文提供了该属的分种检索表 ,各种提供了寄主植物和地理分布 ,新种还提供了与其近缘种的示差鉴别。所有研究标本 ,包括模式标本均保存在中国科学院动物研究所动物标本馆     

One-step electrochemically co-assembled redox-active [Ru(bpy)(2)(tatp)](2+)-BSA-SWCNTs hybrid film for non-redox protein biosensors

A redox-active [Ru(bpy)(2)(tatp)](2+)-BSA-SWCNTs (bpy=2,2'-bipyridine, tatp=1,4,8,9-tetra-aza-triphenylene, BSA=bovine serum albumin, SWCNTs=single-walled carbon nanotubes) hybrid film is fabricated on an indium-tin oxide (ITO) electrode via one-step electrochemical co-assembly approach. BSA is inherently dispersive and therefore served as the linking mediator of SWCNTs, which facilitate the redox reactions of [Ru(bpy)(2)(tatp)](2+) employed as a reporter of BSA. The evidences from differential pulse voltammetry, cyclic voltammetry, scanning electron microscope, emission spectroscopy and fluorescence microscope reveal that the [Ru(bpy)(2)(tatp)](2+)-BSA-SWCNTs hybrid can be electrochemically co-assembled on the ITO electrode, showing two pairs of well-defined Ru(II)-based redox waves. Furthermore, the electrochemical co-assembly of the [Ru(bpy)(2)(tatp)](2+)-BSA-SWCNTs hybrid is found to be strongly dependent on the simultaneous presence of BSA and SWCNTs, indicating a good linear response to BSA in the range from 6 to 50mgL(-1). The results from this study provide an electrochemical co-assembly method for the development of non-redox protein biosensors.     

The Genetic and Molecular Basis of Plant Resistance to Pathogens

Plant pathogens have evolved numerous strategies to obtain nutritive materials from their host,and plants in turn have evolved the preformed physical and chemical barriers as well as sophisticated two-tiered immune system to combat pathogen attacks.Genetically, plant resistance to pathogens can be divided into qualitative and quantitative disease resistance,conditioned by major gene(s) and multiple genes with minor effects,respectively.Qualitative disease resistance has been mostly detected in plant defense against biotrophic pathogens,whereas quantitative disease resistance is involved in defense response to all plant pathogens,from biotrophs,hemibiotrophs to necrotrophs.Plant resistance is achieved through interception of pathogen-derived effectors and elicitation of defense response.In recent years,great progress has been made related to the molecular basis underlying host-pathogen interactions.In this review,we would like to provide an update on genetic and molecular aspects of plant resistance to pathogens.     

高脂饮食对小鼠附睾内质网应激的影响及褪黑素的干预作用

目的探讨内质网应激在高脂饮食引起的ApoE基因敲除小鼠附睾损伤中的作用及褪黑素（MT）的干预机制。方法将12只ApoE基因敲除的C57BL／6J雄性小鼠随机分为高脂饮食组及MT处理组。高脂饮食组为ApoE基因敲除小鼠,给予高脂饮食;MT处理组给予高脂饲养外,并MT灌胃。以6只野生型C57BL／6J雄性小鼠作为对照组,给予普通饮食。饲养12w后,取附睾组织制片,HE染色观察附睾的病理学形态,免疫组化检测GRP78和CHOP的表达。结果HE染色显示,高脂饮食组小鼠,附睾上皮细胞形态结构不清,细胞萎缩。对照组和褪黑素处理组小鼠附睾上皮细胞形态结构完整,细胞排列整齐。免疫组化显示高脂饮食组小鼠附睾中GRP78、CHOP表达增强（P〈0．01）。MT处理组和高脂饮食组相比,附睾中GRP78、CHOP表达下调（P〈0．01）。结论内质网应激参与高脂饮食导致的附睾损伤;MT可能通过抑制附睾内质网应激,减轻高脂饮食对小鼠附睾的损伤。     

Pilot-scale production of fuel ethanol from concentrated food waste hydrolysates using Saccharomyces cerevisiae H058

The aim of this study was to develop a bioprocess to produce ethanol from food waste at laboratory, semipilot and pilot scales. Laboratory tests demonstrated that ethanol fermentation with reducing sugar concentration of 200 g/L, inoculum size of 2 % (Initial cell number was 2 × 10⁶ CFU/mL) and addition of YEP (3 g/L of yeast extract and 5 g/L of peptone) was the best choice. The maximum ethanol concentration in laboratory scale (93.86 ± 1.15 g/L) was in satisfactory with semipilot scale (93.79 ± 1.11 g/L), but lower than that (96.46 ± 1.12 g/L) of pilot-scale. Similar ethanol yield and volumetric ethanol productivity of 0.47 ± 0.02 g/g, 1.56 ± 0.03 g/L/h and 0.47 ± 0.03 g/g, 1.56 ± 0.03 g/L/h after 60 h of fermentation in laboratory and semipilot fermentors, respectively, however, both were lower than that (0.48 ± 0.02 g/g, 1.79 ± 0.03 g/L/h) of pilot reactor. In addition, simple models were developed to predict the fermentation kinetics during the scale-up process and they were successfully applied to simulate experimental results.     

叉头框-c2基因在主动脉弓发育过程中的作用

为了研究叉头框-c2（Forkhead Box c2, Fox c2）基因在心血管发生和发育中的作用, 通过制作小鼠的Fox c2 基因无效突变,解析该基因缺失鼠主动脉弓的异常发育状况.纯合子胎鼠从12.5天胚胎(embryo, E)开始有宫内死亡;即使完成宫内发育过程,新生鼠出生24 h后也全部死亡.这些鼠全部表现出与人的先天性心血管发育缺陷相似的B型或C型主动脉弓离断.杂合子鼠发育正常.E10.5胚胎的原位杂交分析显示,Fox c2 mRNA在第三、第四和第六弓型动脉强烈表达,而第四弓型动脉在E10.5胚胎后逐渐消失.这些结果表明,在主动脉弓形成过程中,Fox c2基因产物是左第四弓形动脉广泛改建所必需.     

肝细胞导向的促血小板生成素基因转移对化疗后血小板减少症模型治疗的初步研究

为了探讨受体介导的基因转移技术在治疗血小板减少症方面应用的可行性,将促血小板生成素（Ｔｈｒｏｍｂｏｐｏｉｅｔｉｎ,ＴＰＯ）基因克隆入质粒型ＥＢ病毒表达载体ｐＤＲ２中,并与半乳糖化组蛋白结合,从而制备了一种为肝细胞表面特异的脱唾液酸糖蛋白受体识别并内吞的核酸－蛋白复合物。在经化疗药物卡铂诱发的血小板减少症的实验动物大鼠中,同时静脉注射该复合物,可将ＴＰＯ基因特异地导入肝细胞并在其中得到表达。从而有效地阻止了血小板减少症的发生,提示了一种以非病毒感染方式对化疗后血小板减少症进行有效基因治疗的可能前景