灰葡萄孢丝裂原活化蛋白激酶编码基因bmp1和bmp3的功能

【背景】植物病原真菌丝裂原活化蛋白激酶(Mitogen-activated protein kinase,MAPK)信号途径参与病菌有性生殖、细胞壁完整、菌丝侵染、致病力、胁迫响应等过程,灰葡萄孢MAPK信号途径参与病菌生长发育、致病力以及胁迫响应,但MAPK信号途径基因在灰葡萄孢中的功能尚未完全阐明,该信号途径对灰葡萄孢的生长发育和致病力的调控机制尚不明确。【目的】明确灰葡萄孢MAPK编码基因bmp1、bmp3在病菌生长发育、致病力以及氧化胁迫响应过程的功能,为进一步阐明MAPK信号途径调控灰葡萄孢生长发育和致病力的分子机制奠定基础。【方法】利用RNAi技术构建灰葡萄孢MAPK编码基因bmp1和bmp3的RNAi突变体,并以野生型BC22菌株为对照,对bmp1和bmp3基因的RNAi突变体的表型、致病力以及对氧化胁迫的敏感性进行分析。【结果】灰葡萄孢bmp1和bmp3基因的RNAi突变体其菌落形态、菌丝形态均与野生型BC22菌株没有明显差别;bmp1基因的RNAi突变体生长速率明显减慢,分生孢子产量明显降低;bmp3基因的RNAi突变体的生长速率与野生型BC22菌株没有明显差别,不能产生分生孢子。bmp1和bmp3基因的RNAi突变体在番茄果实的表面均不能产生明显的致病症状,而且不能穿透玻璃纸。bmp1基因的RNAi突变体在含有H_2O_2的培养基上受抑制的程度显著低于野生型,而在含甲萘醌的培养基上受抑制的程度显著高于野生型;bmp3基因的RNAi突变体在含有H_2O_2和甲萘醌的培养基受抑制的程度均显著高于野生型。【结论】灰葡萄孢bmp1基因正调控病菌生长、分生孢子形成、致病力和穿透能力,参与调控病菌对氧化胁迫的响应;灰葡萄孢bmp3基因正调控病菌分生孢子形成、致病力、穿透能力以及对氧化胁迫的响应。     

Development of mechanistically based model for simulating soluble microbial products generation in an aerated/non-aerated SBR

Soluble microbial products (SMPs) are considered as the main organic components in wastewater treatment plant effluent from biological wastewater treatment systems. To investigate and explore SMP metabolism pathway for further treatment and control, two innovative mechanistically based activated sludge models were developed by extension of activated sludge model no.3 (ASM3). One was the model by combining SMP formation and degradation (ASM3-SMP model) processes with ASM3, and the other by combining both SMP and simultaneous substrate storage and growth (SSSG) mechanisms with ASM3 (SSSG-ASM3-SMP model). The detailed schematic modification and process supplements were introduced for comprehensively understanding all the mechanisms involved in the activated sludge process. The evaluations of these two models were demonstrated by a laboratory-scale sequencing batch reactor (SBR) operated under aerated/non-aerated conditions. The simulated and measured results indicated that SMP comprised about 83% of total soluble chemical oxygen demand (SCOD) in which biomass-associated products (BAPs) were predominant compared with utilization-associated products (UAPs). It also elucidated that there should be a minimum SMP value as the reactive time increases continuously and this conclusion could be used to optimize effluent SCOD in activated sludge processes. The comparative results among ASM3, ASM3-SMP and SSSG-ASM3-SMP models and the experimental measurements (SCOD, ammonia and nitrate nitrogen) showed clearly the best agreement with SSSG-ASM3-SMP simulation values (R = 0.993), strongly suggesting that both SMP formation and degradation and SSSG mechanisms are necessary in biologically activated sludge modeling for municipal wastewater treatment.     

Genetic and alkaloid analysis of Menispermum dauricum DC. by RAPD and HPLC

The aim of the present work was to determine whether dauricine could be used as a taxonomic marker for Menispermum dauricum DC., and to explore the correlation among RAPD, ecological markers and chemical markers. To this end, the chemical and genetic differences of 173 individual samples of M. dauricum from nine different sources were studied based on the relevant ecological factors including longitude, latitude, annual precipitation, mean temperature, annual accumulated temperature and mean sea level. The contents of dauricine in the sample rhizomes were assayed by HPLC with photodiode array detection. The leaves from the same sample were assayed using randomly amplified polymorphism DNA (RAPD). The genetic distances were then compared. Hierarchical cluster analysis and multiple linear stepwise regression analysis were used in the statistical analysis. The results indicated that the contents of dauricine were respectively correlated with the genetic distance (r = 1.000), longitude (r = 0.849), latitude (r = 0.861), annual precipitation (r = 0.903), mean temperature(r = 0.912), annual accumulated temperature (r = 0.919) and mean sea level (r = 0.925). It is concluded that the content of dauricine in M. dauricum is significantly correlated with genetic distance and ecological factors, and may be used as the taxonomic marker.     

温度对香蕉花蓟马发育和存活的影响

通过在人工气候箱内饲养香蕉花蓟马,测定了14、18、22、26℃和30℃5个温度下香蕉花蓟马不同虫态的发育历期,分析了温度与香蕉花蓟马发育速率的关系,计算了其发育起点温度、有效积温及存活率。结果表明:香蕉花蓟马各虫态的发育历期随温度的升高而缩短,发育速率和温度之间有很大的相关性;香蕉花蓟马卵、一龄若虫、二龄若虫、预蛹、蛹及世代的发育起点温度分别为8.26、10.56、7.92、9.17、9.53、8.69℃,世代的有效积温为153.81d·℃。26℃下香蕉花蓟马的世代存活率最高,为63.16%;30℃下的存活率最低,为46.34%。     

花香的生物合成、调控及基因工程研究进展

花香能提高观赏植物的审美特性,并且在植物的繁衍中起着重要作用。近年来,随着分子生物学的发展,花香分子水平的研究呈现加速发展的趋势,已成为当前的一大研究热点。该文主要论述了花香的生物合成途径及关键酶基因、分子水平的调控和共调控探索、花香基因工程策略,以期为花香性状改良提供参考。     

Biochemical characterization of the mitochondrial tRNASer(UCN) T7511C mutation associated with nonsyndromic deafness

We report here the biochemical characterization of the deafness-associated mitochondrial tRNA^Ser(UCN) T7511C mutation, in conjunction with homoplasmic ND1 T3308C and tRNA^Ala T5655C mutations using cybrids constructed by transferring mitochondria from lymphoblastoid cell lines derived from an African family into human mtDNA-less (ρ°) cells. Three cybrids derived from an affected matrilineal relative carrying the homoplasmic T7511C mutation, exhibited ~75% decrease in the tRNA^Ser(UCN) level, compared with three control cybrids. This amount of reduction in the tRNA^Ser(UCN) level is below a proposed threshold to support a normal rate of mitochondrial protein synthesis in lymphoblastoid cell lines. This defect is likely a primary contributor to ~52% reduction in the rate of mitochondrial protein synthesis and marked defects in respiration and growth properties in galactose-containing medium. Interestingly, the T5655C mutation produces ~50% reduction in the tRNA^Ala level in mutant cells. Strikingly, the T3308C mutation causes a significant decrease both in the amount of ND1 mRNA and co-transcribed tRNA^Leu(UUR) in mutant cells. Thus, mitochondrial dysfunctions caused by the T5655C and T3308C mutations may modulate the phenotypic manifestation of the T7511C mutation. These observations imply that a combination of the T7511C mutation with two mtDNA mutations accounts for the high penetrance of deafness in this family.     

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.     

番石榴果实蝇与桃实蝇的形态区别

介绍我国口岸截获频率较高的2种形态相似的实蝇---番石榴果实蝇Bactrocera (Bactrocera) correcta(Bezzi) 和桃实蝇Bactrocera zonata Saunders的鉴别特征。两者主要区别在于桃实蝇具1对卵圆形黑色颜斑,中胸背板红褐色。     

增温及隔离降水对杉木幼树细根生物量、形态及养分特征的影响

为揭示全球变暖和降水格局改变对我国中亚热带地区森林生态系统地下生态过程的影响,在福建三明森林生态系统国家野外科学观测研究站内开展杉木(Cunninghamia lanceolata)幼树土壤增温和隔离降水双因子试验,研究增温和隔离降水在夏季对杉木幼树细根生物量、形态及养分特征的影响。结果表明,增温(+5℃,W)、隔离降水(–50%,P)和增温+隔离降水(WP)处理的细根总生物量分别比对照(CT)显著降低35.7%、51.7%和59.1%,P和WP处理的细根总生物量分别比W处理显著降低24.9%和36.4%;W、P和WP处理的0~1 mm细根比根长(specific root length,SRL)比对照均显著增加,而0~1和1~2 mm细根比表面积(specific root area,SRA)均无显著变化;与对照相比,W处理的细根N含量、C/N和δ¹⁵N均无显著变化,P处理的细根N含量和C/N分别显著增加和下降,WP处理的细根N含量和δ¹⁵N显著增加,而C/N显著降低。因此,未来在全球变暖和降水减少的双重环境胁迫下,调整表层细根形态特征可能不是杉木幼树的主要应对策略;而相较于温度升高,降水减少可能是影响杉木幼树细根生物量及表层化学元素分配的主要环境因子。