马铃薯Y病毒CP基因RNAi载体构建与干涉效果测定

RNA沉默（RNAi）介导的植物抗病毒研究是近年来引起广泛关注的一项植物抗病毒基因工程策略。马铃薯Y病毒（PVY）在世界范围内引起马铃薯、烟草等重要经济作物的病害,并且造成严重的经济损失。本文以PVY的外壳蛋白（CP）基因为模板扩增300bp和354bp两个片段,正向和反向分别插入植物表达载体pROKⅡ的35S启动子下游,从而构建了以PVY的CP基因为靶标的RNAi植物表达载体pROKY300,转入农杆菌EHA105中,以农杆菌渗入法在本氏烟中瞬时表达与wyCP同源的hairpin RNA。结果表明,瞬时表达的hairpin RNA有效干涉了PVY侵染。     

设施菜地土壤氮素运移及淋溶损失模拟评价

设施菜地因大水大肥管理方式导致的氮素淋失已成为当前关注焦点。探寻氮素淋失阻控技术需要首先探明土壤中NO_3~--N的运移和淋失过程,找到淋失阻控的关键点,从而实现蔬菜栽培高产量低环境成本。本研究以京郊设施菜地黄瓜-番茄轮作系统为研究对象,通过田间试验获取土壤温度、湿度、NO_3~--N含量等数据,对反硝化-分解(DNDC)模型进行参数校验,并以农民常规种植模式为基线情景,设置改变土壤基础性质、灌溉量、施氮量等不同情景,运用DNDC模型对设施菜地系统土壤氮素运移及淋溶损失进行定量评价。结果表明:经验证后的DNDC模型能够较好地模拟蔬菜产量、5 cm土壤温度和0～20 cm土壤孔隙含水率变化以及NO_3~--N的迁移过程,是模拟和评价氮素运移和损失的有效工具。模拟不同情景表明,设施菜地0～60 cm土壤NO_3~--N累积主要受灌溉水量和氮肥施入量的影响,此外土壤pH和土壤有机碳的变化也是影响NO_3~--N运移的重要因子。节水节肥是设施菜地氮素淋失减量的最有效方法,相比常规措施,同时减少20%灌溉量和20%施氮量可明显降低59.04%的NO_3~--N淋失量。同时,在节水节肥的基础上改变灌溉方式并提高20%土壤有机碳含量,在保证蔬菜产量的前提下,能够进一步降低69.04%的NO_3~--N淋失量。可见, DNDC模型为设施菜地NO_3~--N淋失评价和阻控提供了一个较好的解决方案。在当前重点关注减氮节水等管理措施的同时,提高土壤本身的质量,不失为一种更有效的减少设施菜地氮素淋失的途径。     

Effects of antimicrobial peptides on growth,feed utilization,serum biochemical indices and disease resistance of juvenile shrimp,Litopenaeus vannamei

This experiment was conducted to assess the effects of antimicrobial peptides at different levels (Diet 1 (0%), Diet 2 (0.1%), Diet 3 (0.2%), Diet 4 (0.4%), Diet 5 (0.6%) and Diet 6 (1%)), on growth, serum biochemical indices and antioxidant effect, feed utilization and disease resistance in Litopeneaus vannamei. There were four replicates in each group in the experiment (mean weight = 0.21 ± 0.00 g) and also fed with their respective diets for 8 weeks. Growth performance compared with the control group (0%) significantly increased at first and then decreased among treatment groups (p < .05) whereas the survival rate ranged from 78% to 96%. No significant differences were observed in terms of moisture, crude protein and ash content, but there was a significant increase in crude lipid (p < .05). In serum, acid phosphatase, alkaline phosphatase, polyphenol oxidase, triglyceride, glucose and total cholesterol changed as compared with 0%. Total antioxidant capacity, glutathione peroxidase, catalase, superoxide dismutase and malondialdehyde were also different from 0%. Disease resistance was increased in shrimp among treatment groups with 0.4% recording the lowest mortality percentage of 37% after the challenge test. The results from the present study suggested that supplementation of AMP at 0.4% in shrimp diet can improve growth performance, antioxidants activities and innate immune response of Pacific whiteleg shrimp.     

太湖地区有机与常规种植方式下稻麦轮作农田温室气体短期排放特征

为探明有机种植模式对农田温室气体排放的影响,以太湖地区有机与常规种植模式下稻麦轮作农田为研究对象,采用静态箱-气相色谱法监测农田温室气体(CO_2、CH_4和N_2O)排放的动态变化特征,并运用温室气体增温潜势(GWP)和排放强度(GHGI)进行温室效应估算。结果表明:在稻麦轮作季,有机与常规种植模式下温室气体排放通量整体动态变化趋势基本一致。在稻季,有机种植土壤CH_4排放总量为195.56 kg·hm~(-2),显著高于常规种植(119.77 kg·hm~(-2)),而CO_2和N_2O排放总量与常规种植无显著差异;在麦季,有机种植土壤CO_2、N_2O和CH_4排放总量分别为12 554.92、1.44 kg·hm~(-2)和7.02 kg·hm~(-2),常规种植土壤分别为8 096.61、2.67 kg·hm~(-2)和6.74 kg·hm~(-2)。稻季有机种植土壤温室气体GWP和GHGI显著高于常规种植,而在麦季常规种植较高。在整个稻麦轮作季,有机种植模式下温室气体GWP和GHGI分别为6 501.69 kg CO_2-eq·hm~(-2)和0.44 kg·kg~(-1),显著高于常规种植模式(4 745.38 kg CO_2-eq·hm~(-2)和0.37 kg·kg~(-1))。有机种植模式在稻季温室气体减排方面无明显优势,但是有利于麦季农田土壤温室气体的减排。     

优质蛋白玉米发展回顾与前景展望

优质蛋白玉米(QPM)是过去植物育种领域中取得最意想不到的成就之一,它的赖氨酸和色氨酸含量比普通玉米高,从而改善玉米蛋白质品质,因此其营养价值优于普通玉米。文章回顾了优质蛋白玉米的发展历史以及中国优质蛋白玉米研究的发展历程,提出政府支持,重视科技投入,加强研究力度,实施多学科合作尤其是现代生物技术的引进利用,加强种质资源创新与利用研究,把普通玉米自交系和杂种优势群转育为优质蛋白玉米资源,挖掘新的种质源,探索新的检测方法和应用领域,形成科研——种植——加工业——养殖业产业链联合开发是中国优质蛋白玉米研究的发展方向。     

油桐品种五爪桐含油量及桐油质量研究

研究结果显示,五爪桐[Vernicia fordii(Hemsl.)Airy-Shaw cv.Five fingernails tung]的桐油组分中含有63种成分,其中18种十八-6,9,12-三烯酸甲酯顺反异构体的α-桐酸的总含量达63.94%,(Z,Z,Z)十八-9,12,15-三烯酸甲酯的β-桐酸含量为8.62%,十八-9-烯酸甲酯含量为6.23%,(Z,Z)十八-9,12-二烯酸甲酯含量为8.05%,棕榈酸甲酯含量为3.30%,二十-11-烯酸甲酯含量为1.19%。五爪桐桐油总脂肪酸的相对含量为99.04%,其中有21种不饱和脂肪酸,干性油含量为90.63%;其种仁含油量为62.89%,折光指数1.520 6,酸化值5.1 mg/g,碘化值165 mg/g,皂化值190 mg/g,透明无异味,色泽0.1,密度0.937 6g/mL,热聚合时间446 s。五爪桐桐油脂肪酸因含β-桐酸高,桐油产品中有结晶析出,不能达到商品桐油的质量要求;但β-桐酸是一种治疗心血管疾病有显效的有效成分,含量高,有提取价值,可将它作为药用油桐树发展。     

Event-specific quantitative detection of nine genetically modified maizes using one novel standard reference molecule

With the development of genetically modified organism (GMO) detection techniques, the Polymerase Chain Reaction (PCR) technique has been the mainstay for GMO detection, and real-time PCR is the most effective and important method for GMO quantification. An event-specific detection strategy based on the unique and specific integration junction sequences between the host plant genome DNA and the integrated gene is being developed for its high specificity. This study establishes the event-specific detection methods for TC1507 and CBH351 maizes. In addition, the event-specific TaqMan real-time PCR detection methods for another seven GM maize events (Bt11, Bt176, GA21, MON810, MON863, NK603, and T25) were systematically optimized and developed. In these PCR assays, the fluorescent quencher, TAMRA, was dyed on the T-base of the probe at the internal position to improve the intensity of the fluorescent signal. To overcome the difficulties in obtaining the certified reference materials of these GM maizes, one novel standard reference molecule containing all nine specific integration junction sequences of these GM maizes and the maize endogenous reference gene, zSSIIb, was constructed and used for quantitative analysis. The limits of detection of these methods were 20 copies for these different GM maizes, the limits of quantitation were about 20 copies, and the dynamic ranges for quantification were from 0.05 to 100% in 100 ng of DNA template. Furthermore, nine groups of the mixed maize samples of these nine GM maize events were quantitatively analyzed to evaluate the accuracy and precision. The accuracy expressed as bias varied from 0.67 to 28.00% for the nine tested groups of GM maize samples, and the precision expressed as relative standard deviations was from 0.83 to 26.20%. All of these indicated that the established event-specific real-time PCR detection systems and the reference molecule in this study are suitable for the identification and quantification of these GM maizes.     

脲酶硝化双抑制剂缓释肥提高番茄产量及NPK养分吸收

为提高番茄肥料的利用效率,该文采用恒温培养和土培试验研究了自制番茄专用缓释肥（special slow-realease fertilizer for tomato,TSRF1和TSRF2）在酸、中、碱性土中的氮素释放特性以及对番茄产量、NPK养分吸收利用的影响。结果表明,在3种不同土壤中,氮素释放累积量均表现为普通复合肥（ordinary compound fertilizer,OCF）>商品缓释肥（commercial slow-release fertilizer,MSRF）>自制专用肥（special compound fertilizer for tomato,TCF）>自制专用缓释肥1（TSRF1）>自制专用缓释肥2（TSRF2）,且各施肥处理在3种不同土壤类型上的氮素累积释放量大小表现为碱性土>中性土>酸性土。在整个培养期,各施肥处理在3种不同土壤中氮素相对累积释放率大小总体表现为碱性土>中性土>酸性土,且土壤中不同形态氮素累积量均是铵态氮大于硝态氮。铵态氮、硝态氮的累积量大小也表现为碱性土>中性土>酸性土。不同形态氮在3种土壤中的累积释放量动态释放以一级动力学方程拟合最好（r=0.963～0.998）。采用一级动力学方程,不同形态氮素的最大释放量表现为总N>NH4+-N>NO3--N,这与土壤中各形态氮素养分的累积释放特性变化规律表现一致。在土培试验中,两种专用缓释肥（TSRF2和TSRF1）显著提高了番茄果实干物质量,较TCF、MSRF和OCF处理分别增加了18.18%、7.24%、31.40%和13.45%、2.96%、26.15%,且番茄产量在各处理之间的差异达到显著水平。各处理对氮素的积累量大小顺序为TSRF2>TSRF1>MSRF>TCF>OCF,对磷的吸收上表现为TSRF1>TSRF2>MSRF>TCF> OCF,钾素吸收积累量的趋势与氮素基本相同。与普通复合肥相比,两种专用缓释肥处理的N、P、K利用率分别增加了10.66%、20.53%和18.62%（TSRF1）,14.94%、18.48%和21.95%（TSRF2）。两种专用缓释肥（TSRF2和TSRF1）在抑制剂的作用下,能够延缓肥料中N素养分的释放,增加番茄植株对氮磷钾养分的吸收,从而提高了NPK养分利用率和番茄产量。     

小蜂对杨圆蚧的趋性及杨圆蚧挥发物分析

采用四臂式嗅觉仪测定了长棒四节蚜小蜂和黄胸扑虱蚜小蜂对杨圆蚧1龄固定若虫的虫体、介壳、虫体与介壳复合体的趋性。结果表明，介壳和虫体与介壳复合体对两种小蜂具有较强的吸引力。两种小蜂对气味源的剂量都比较敏感。采用敢相色谱－质谱联机分析方法，分析了杨圆蚧1龄固定若虫虫体及介壳所释放的挥发性物质的成分和各组分所占比例，分析表明，虫体和介壳中释放出的挥发性物质均含有9个组分，但这9个组分在虫体和介壳挥发物中的比例略有变异。     

腐霉对姜根茎腐烂的作用

本文描述了姜根茎腐烂的三种症状类型:青枯型、黄腐型及黄枯型;分别由青枯细菌、腐霉菌及青桔细菌和腐霉苗引起,鉴定出4种致病腐霉:P(?)(?)P.(?)P.(?)和P.(?).通过接种试验,证明腐霉对姜有较强的致病力;与青枯细菌共同为害,病将更严重,故姜的根茎腐烂不完全是细菌青枯病。