重寄生真菌盾壳霉pH信号通路中Pal相关基因的功能鉴定

【目的】研究pH信号通路(Pal)在重寄生真菌盾壳霉与寄主核盘菌互作过程中的作用。【方法】从盾壳霉全基因组信息中分析获得了6个Pal相关基因CmpalA、CmpalB、CmpalC、CmpalF、CmpalH和CmpalI的全编码序列和氨基酸序列,通过PEG介导的原生质转化技术获得了CmpalA、CmpalB、CmpalC、CmpalF和CmpalH等5个基因的敲除突变体,分析这些敲除突变体与野生型在菌落培养性状、重寄生能力、降解草酸能力、产生抗真菌物质能力等方面的差异。【结果】与野生型相比,在pH 6–8的条件下,5个Pal相关基因敲除突变体的菌丝生长受到显著抑制,这说明缺失Pal相关基因使盾壳霉对高pH值环境更加敏感。菌核重寄生试验发现5个Pal相关基因敲除突变体的重寄生能力均显著低于野生型。qRT-PCR试验结果表明,敲除Pal相关基因之后导致重寄生相关酶基因Cmch1、Cmg1和Cmsp1的表达量显著降低,而且pH信号通路下游的CmpacC基因的表达量也显著降低。Pal相关基因敲除突变体在pH 6条件下对草酸盐的降解能力显著高于野生型,同时这5个突变体在pH 8条件下产生抗真菌物质能力也显著高于野生型。【结论】pH信号通路相关基因的缺失影响盾壳霉对环境pH的响应。pH信号通路在盾壳霉与核盘菌互作中发挥重要作用,不仅影响盾壳霉的重寄生作用,而且还影响盾壳霉的草酸降解作用和抗真菌作用。     

新疆石河子地区印度麻花叶病植株病毒分离物的鉴定

1984年,从新疆石河子农学院实验站印度麻花叶病植株上,分离到一株病毒分离物Sc-1,经汁液摩擦接种试验表明,它可以侵染10种豆科植物和2种藜科植物。在印度麻、蚕豆、豌豆、箭舌豌豆、扁豆、山藜豆、田菁和红三叶草上引起系统花叶,在豇豆上产生局部枯斑和系统花叶,在苋色藜、昆诺藜上表现为系统黄斑。失毒温度为55～60℃,稀释限点10~(-3)～10~(-4),体外保毒期3～4天。可经汁液和蚜虫传播,不通过种子传毒。病毒粒体为线条状,大小为13～15×750nm。光学显微镜检查可见,病叶表皮细胞内形成不定形的内含体。电镜下可见风轮状、环状内含体。分离物Sc-1与菜豆黄色花叶病毒(BYMV)抗血清呈阳性反应。我们将Sc-1归为菜豆黄色花叶病毒(BYMV),且为豇豆株系。     

胰岛素抵抗与脂肪肝关系的研究

胰岛素抵抗(IR)是许多疾病的独立危险因素。胰岛素抵抗与脂肪代谢紊乱非常密切,研究发现它在脂肪肝的发生、发展过程中起了很大的作用。近年来,越来越多的人已经意识到脂肪肝与胰岛素抵抗之间的密切关系。在胰岛素抵抗与脂肪肝的研究中关于瘦素及瘦素抵抗在胰岛素抵抗及脂肪肝的关系中的作用是研究比较多的,本文主要介绍了胰岛素抵抗、脂肪肝的发生机制及瘦素、瘦素抵抗在其中的催化作用。     

Immobilization of cellulases on the reversibly soluble polymer Eudragit S‐100 for cotton treatment

Cellulases can penetrate into the fiber, causing tensile strength loss of the cellulosic fibers or fabrics. To minimize the tensile strength loss, we have immobilized cellulases on Eudragit S‐100. The characteristics of covalent Eudragit cellulase were evaluated using gel filtration analysis and UV spectra. Gel filtration analysis revealed that the cellulases were covalently bound to the polymer. Covalent Eudragit cellulase was loaded with the enzyme of about 40% and had a relative activity about 80% at a Eudragit S‐100 concentration of 15 g/L. When cellulase is bound to the polymer, the solubility profile becomes similar to the one of Eudragit. In addition, the effects of the enzyme on the cotton yarns and fabric using cellulases have been investigated. Native and immobilized cellulases caused improvements in whiteness and wrinkle recovery angle of the fabric in comparison to the control samples. The bending stiffness results show that native and immobilized cellulase treated cotton fabric has an improved softness than the control samples. It was found that using the immobilized cellulase reduced the weight and tensile strength, because the hydrolytic attack is only limited to the surfaces of cotton fibers.     

Molecular Cloning of a Novel Gene ZAhi-1 and its Expression Analysis during Zebrafish Gametogenesis

Proto-oncogen Ahi-1 is closely related to a lot of human and mouse diseases. Ahi-1 mutation will lead to leukemia in mice and Joubert syndrome in human beings. We have cloned the full cDNA sequence of Ahi-1 homologous in zebrafish, and RT-PCR results of ZAhi-1 in different tissues reveal that ZAhi-1 expressed highest in the mature gonad. In situ hybridization results of zebrafish gonad show that ZAhi-1 only expressed in the early stages’ gamete cells. RT-PCR analyses of mouse Ahi-1 in different stages of spermatogenesis have been done according to the published Ahi-1 sequence, and the findings reveal that Ahi-1 is expressed in gamete of pachytene stage. It can then be safely concluded that Ahi-1 might take place in the spermatocyte from the early pachytene stage to the late pachytene stage.     

2型糖尿病患者醛糖还原酶基因5′调控区的多态性与功能

 为了探讨醛糖还原酶基因 5′调控区存在的可引起蛋白质表达发生改变的遗传变异及这些变异与糖尿病视网膜病变的相关性 ,应用PCR SSCP分析对醛糖还原酶基因 5′调控区 - 60 9～ + 4 0的DNA片段进行了筛选 .所有变异体均进行DNA序列分析并克隆至氯霉素乙酰转移酶报告基因载体(pCATreportervector) ,然后将重组质粒转染HeLa细胞 ,通过检测氯霉素乙酰转移酶的活性求出启动子的相对活性 .同时进行凝胶滞留试验与足纹分析以确定DNA与核蛋白的相互作用 .结果显示 ,在 1 45名 2型糖尿病患者及 1 2 3名正常对照的醛糖还原酶基因 5′调控区除野生型外 ,共发现 2种多态性 [C( - 1 0 6)T、C( - 1 2 )G].在正常对照与患者中 ,基因型WT WT ,WT C( - 1 2 )G和WT C( - 1 0 6)T的发生率无显著性差异 .在有视网膜并发症与无视网膜并发症的 2型糖尿病患者中 ,WT C( -1 0 6)T的发生率分别为 35 5%和 1 7 9% ( χ2 =4 0 0 ,P <0 0 5) ,WT C( - 1 2 )G的发生率分别为1 5 5%和 3 3% ( χ2 =3 43,P >0 0 5) .在有并发症的患者中 ,WT C( - 1 2 )G和WT C( - 1 0 6)T两者的总发生率为 42 3% ,显著高于无并发症的患者 ( 2 0 0 % ) ( χ2 =6 2 3,P <0 0 2 5) .野生型 ,C( - 1 2 )G和C( - 1 0 6)T等 3种调控序列的相对活性分别为     

超低氧自理对贮藏期间甜橙果实挥发性物质含量的影响

本文主要探讨甜橙「（Ｃｉｔｒｕｓ ｓｉｎｅｎｓｉｓ（Ｌ．）Ｏｓｂ．果实在短期超低氧贮藏条件下,果皮和果汁中乙醇和乙醛等挥发性物质的含量,以及它们在不同贮藏温度和贷架存放期间的变化和对果实风味品质的影响。在普通冷藏条件下,随着贮藏期的延长,甜橙果实中挥发性物质的含量虽呈上升趋势,但超低氧贮藏更明显地刺激果实中乙醇和乙醛含量的迅速增加。甜橙果实在０．３％Ｏ２的超低氧条件下贮藏３０d,果皮中乙醇的含量为     

蛋白质组学在去泛素化酶研究中的应用

泛素-蛋白酶体系统是细胞内蛋白质特异性降解的主要途径,参与并调控细胞周期、免疫应答、信号传递和DNA修复等真核生物体内几乎所有的生命活动。去泛素酶的存在使泛素化修饰成为可逆过程,保证了泛素系统及其相关生理过程的动态平衡,其表达紊乱也是诱发多种疾病的主要原因。对去泛素化酶进行系统、全面的研究是理解其作用机制并将其作为治疗药物靶点的前提。蛋白质组学技术的快速发展为系统深入研究去泛素化酶提供了条件,特别是在去泛素化酶的相互作用网络和底物特异性研究等方面发挥了独特的作用。因此,文中结合课题组研究工作,对去泛素化酶的分类及功能进行介绍并总结了蛋白质组学在去泛素化酶研究中的应用进展。     

Oxidative stress and NF-κB signaling are involved in LPS induced pulmonary dysplasia in chick embryos

Inflammation or dysbacteriosis-derived lipopolysaccharides (LPS) adversely influence the embryonic development of respiratory system. However, the precise pathological mechanisms still remain to be elucidated. In this study, we demonstrated that LPS exposure caused lung maldevelopment in chick embryos, including higher embryo mortality, increased thickness of alveolar gas exchange zone, and accumulation of PAS⁺ immature pulmonary cells, accompanied with reduced expression of alveolar epithelial cell markers and lamellar body count. Upon LPS exposure, pulmonary cell proliferation was significantly altered and cell apoptosis was inhibited as well, indicating a delayed progress of pulmonary development. LPS treatment also resulted in reduced CAV-1 expression and up-regulation of Collagen I, suggesting increased lung fibrosis, which was verified by Masson staining. Moreover, LPS induced enhanced Nrf2 expression in E18 lungs, and the increased reactive oxygen species (ROS) production was confirmed in MLE-12 cells in vitro. Antioxidant vitamin C restored the LPS induced down-regulation of ABCA3, SP-C and GATA-6 in MLE-12 cells. Furthermore, LPS induced activation of NF-κB signaling in MLE-12 cells, and the LPS-induced decrease in SP-C expression was partially abrogated by blocking NF-κB signaling with Bay-11–7082. Bay-11–7082 also inhibited LPS-induced increases of ROS and Nrf2 expression. Taken together, we have demonstrated that oxidative stress and NF-κB signaling are involved in LPS induced disruption of pulmonary cell development in chick embryos.