福建省水稻螟虫种群发生变化及原因初探

根据资料及系统调查分析了福建水稻螟虫发生的新特点,揭示了不同稻区不同年份间二化螟种群变动情况及其原因,旨在为稻螟的预测预报和可持续综合治理提供理论依据。     

农杆菌转化获得转B．t．基因水稻及其生物学鉴定

以水稻主栽品种\"秀水11\"和\"春江11\"预培养4d未成熟胚为转化受体,经农杆茵LBA4404／pGBI4A2B(含B．t．基因)感染后,筛选出抗性愈伤组织并获得转化植株。其中抗性愈伤组织产生频率达44％～70％,转化植株产生频率达27％～64％。转基因植物总DNA经PCR和Southernblot分子杂交试验表明,T-DNA上的外源基因已整合到水稻的基因组里。对转B．t．基因水稻植株进行了两种水稻主要害虫纵卷叶螟和二化螟的饲虫试验。与对照相比,7d后纵卷叶螟幼虫死亡率达31％～49％,同时纵卷叶螟对转基因水稻叶片的危害程度大大减轻。二化螟在咬食转B．t．基因水稻植株7d后的校正死亡率达15％～71％,30d后多数转基因水稻仍能正常抽穗,表明转基因水稻对上述害虫具有一定抗性。     

Twelve nuclear microsatellite loci for rice stem borer (Chilo suppressalis W.)

We developed 12 polymorphic microsatellite markers for the rice stem borer Chilo suppressalis (Walker). These loci were screened for 96 individuals from eight populations across China. The total number of alleles ranged from 3 to 33 and the expected heterozygosity at these loci ranged from 0.131 to 0.671. These molecular markers will be useful for fully investigating the population structure and host preference of C. suppressalis at fine spatial scales.     

水稻品种(系)对二化螟抗性的初步研究

2000-2001年,对本省目前推广的55个主要水稻品种（系）进行二化螟抗性测定和田间调查,从中筛选出中抗品种（系）3个,耐虫品种（系）16个,且粳稻的抗虫性优于籼稻。田间试验进一步验证了各品种（系）对二化螟的抗耐性,为育种单位和生产部门提供理论依据。     

晚稻中后期二化螟为害特点及严重发生原因剖析

近年来 ,浙江省仙居县晚稻中后期二化螟ChilosuppressalisWalker为害日趋严重。分析原因 ,一是单季稻等桥梁田面积的不断扩大 ,使 8月底至 9月上旬田间出现了全年发生量最大的 2代主蛾峰 ,卵孵化盛期与连作晚稻抽穗期吻合 ;二是冬春气温升高 ,发生期提早 ,2代虫源寄主、水稻移栽期等的多样化 ,使 3,4代发生期拉长 ;三是因 3代主峰和 4代的螟害发生具有“隐性”的特点 ,其测报和防治工作被忽视 ;四是二化螟对常用药剂的抗药性提高。据此提出了相应的治理对策     

人工饲料、转Bt水稻及其亲本稻苗饲养下二化螟种群适合度的比较研究

以人工饲料、转Bt水稻\"克螟稻\"(cry1Ab纯和基因型)及其对照亲本\"秀水11\"稻苗为供试寄主植物开展二化螟Chilo suppressalis(Walker)1～5龄幼虫的室内饲养试验,以明确不同龄期二化螟种群的生活史参数。试验结果表明:二化螟在低龄时死亡率最高。克螟稻对二化螟各个龄期表现出高抗性,其各个龄期在克螟稻上均不能化蛹,随着龄期的增加二化螟的耐受性增强。以秀水11和人工饲料饲养二化螟对其蛹期、成虫期、单雌产卵量、羽化率的影响无显著性差异,以人工饲料饲养的二化螟蛹重显著高于以秀水11饲养的二化螟的蛹重,蛹重与人工饲料饲养时间呈正相关。与秀水11幼苗相比,人工饲料饲养下有利于二化螟雌虫的分化。     

Agrobacterium tumefaciens－mediated transformation of rice with the spider insecticidal gene conferring resistance to leaffolder and striped stem borer

Immature embryos of rice varieties "Xiushuill" and "Chunjiang 11" precultured for 4d were infected and transformed by Agrobacterium tumefaciens strain EHA101/pExT7 (containing the spider insecticidal gene). The resistant calli were transferred onto the differentiation medium and plants were regenerated. The transformation frequency reached 56% approximately 72% measured as numbers of Geneticin (G418)-resistant calli produced and 36% approximately 60% measured as numbers of transgenic plants regenerated, respectively. PCR and Southern blot analysis of transgenic plants confirmed that the T-DNA had been integrated into the rice genome. Insect bioassays using T1 transgenic plants indicated that the mortality of the leaffolder (Cnaphalocrasis medinalis) after 7d of leaf feeding reached 38% approximately 61% and the corrected mortality of the striped stem borer (Chilo suppressalis) after 7d of leaf feeding reached 16% approximately 75%. The insect bioassay results demonstrated that the transgenic plants expressing the spider insecticidal protein conferred enhanced resistance to these pests.     

转cry1Ab基因水稻对二化螟幼虫血细胞的影响

研究了转cry1Ab基因水稻“克螟稻1号”对二化螟Chilo suppressalis幼虫细胞免疫系统的影响。结果表明,转cry1Ab基因水稻对二化螟幼虫的血细胞影响明显,取食转cry1Ab基因水稻后,二化螟幼虫各类血细胞都明显低于取食非转基因水稻“秀水11”的对照组（原血细胞和囊血细胞在取食初期例外）,随取食时间延长,各类血细胞数量及血细胞总数均呈递减的趋势。从各类血细胞所占血细胞总数的百分比来看,原血细胞在取食36 h后锐减,而浆血细胞和粒血细胞则比例增加,其余珠血细胞、囊血细胞的变化不明显。另外,血细胞还出现空泡化、肿胀等病态变化,致使血细胞快速破裂。由此推测转cry1Ab基因水稻自身表达的毒蛋白能严重干扰靶标昆虫二化螟幼虫的细胞免疫系统。     

Transgenic rice established to express corn cystatin exhibits strong inhibitory activity against insect gut proteinases

Corn cystatin (CC), a phytocystatin, shows a wide inhibitory spectrum against various cysteine proteinases. We produced transgenic rice plants by introducing CC cDNA under CaMV 35S promoter as a first step to obtain a rice plant with insecticidal activity. This attempt was based on the observation that many insect pests, especially Coleoptera, have cysteine proteinases, probably digestive enzymes, and also that oryzacystatin, an intrinsic rice cystatin, shows a narrow inhibition spectrum and is present in ordinary rice seeds in insufficient amounts to inhibit the cysteine proteinases of rice insect pests. The transgenic rice plants generated contained high levels of CC mRNA and CC protein in both seeds and leaves, the CC protein content of the seed reaching ca. 2% of the total heat soluble protein. We also recovered CC activity from seeds and found that the CC fraction efficiently inhibited both papain and cathepsin H, whereas the corresponding fraction from non-transformed rice seeds showed much lower or undetectable inhibitory activities against these cysteine proteinases. Furthermore, CC prepared from transgenic rice plants showed potent inhibitory activity against proteinases that occur in the gut of the insect pest, Sitophilus zeamais.     

一种采集水稻二化螟卵(块)的高效简便新方法

比较了二化螟Chilosuppressalis卵块的塑料袋收集法和稻株法。结果表明 ,塑料袋法和稻株法收集的卵粒总数及卵孵化率都没有显著的差异 ,均为 2 79粒卵 雌蛾和 95 %。塑料袋法收集的卵块数较稻株法的多 ,但小卵块比例较高 ( <1 0 0粒卵 卵块 )。还讨论了采用塑料袋法收集二化螟及其它昆虫卵的优点。     

Accumulation of a chymotrypsin inhibitor in transgenic tobacco can affect the growth of insect pests

A member of the potato proteinase inhibitor II (PPI II) gene family that encodes for a chymotrypsin iso-inhibitor has been introduced into tobacco (Nicotiana tabacum) usingAgrobacterium tumefaciens-mediated T-DNA transfer. Analysis of the primary transgenic plants (designated R₀) confirmed that the introduced gene is being expressed and the inhibitor accumulates as an intact and fully functional protein. For insect feeding trials, progeny from the self-fertilization of R₀ plants (designated R₁) were used. Leaf tissue, either from transgenic or from control (non-transgenic) plants, was fed to larvae ofChrysodeixis eriosoma (Lepidoptera: Noctuidae, green looper),Spodoptera litura (F.) (Lepidoptera: Noctuidae) andThysanoplusia orichalcea (F.) (Lepidoptera: Noctuidae) and insect weight gain (increase in fresh weight) measured. Consistently,C. eriosoma larvae fed leaf tissue from transgenic plants expressing thePPI II gene grew slower than insects fed leaf tissue from non-transgenic plants or transgenic plants with no detectablePPI II protein accumulation. However, larvae of bothS. litura andT. orichalcea consistently demonstrated similar or faster growth when fed leaf tissue from transgenic plants compared with those fed non-transgenic plants. In agreement with the feeding trials, the chymotrypsin iso-inhibitor extracted from transgenic tobacco effectively retarded chymotrypsin-like activity measured inC. eriosoma digestive tract extracts, but not in extracts fromS. litura. We conclude, therefore, that for certain insects the use of chymotrypsin inhibitors should now be evaluated as an effective strategy to provide field resistance against insect pests in transgenic plants, but further, that a single proteinase inhibitor gene may not be universally effective against a range of insect pests. The significance of these observations is discussed with respect to the inclusion of chymotrypsin inhibitors in the composite of insect pest resistance factors that have been proposed for introduction into crop plants.     

抗二化螟的水稻品种筛选

【目的】筛选抗二化螟Chilo suppressalis水稻品种资源,明确其抗虫机理,是农业防治的基础。【方法】采用室内人工接虫为害和大田自然受害相结合的方法,鉴定了不同的水稻品种抗性;同时通过目测不同水稻植株外部形态特征、在网罩内供试品种上接入成虫后2 d的产卵量、幼虫孵化后2 d观察稻株内二化螟的存活率,探讨抗虫品种的抗虫机理。【结果】从344个水稻品种资源和当家品种中筛选出"碑田倒"和"银间杂糯"2个抗虫品种,以及"农飞"和"三香糯"等65个中抗品种,进一步对鉴定出的2个抗虫品种和65个中抗品种进行大田验证,发现符合率达88.06%;其中,抗虫品种"碑田倒"和"银间杂糯"稻株叶舌、叶耳紧贴,叶鞘紧包,脉间距较窄,其植株上的产卵量和幼虫存活率显著少于感虫品种"香稻"、"赣南早"、"三粒寸"、"赣优晚"及中抗品种"赛湖早"、"TKM6"。【结论】在籼稻、粳稻和糯稻中均可筛选出抗虫和中抗品种。其中,糯稻中的抗虫品种和中抗品种较多,占糯稻品种的33.3%;粳稻品种次之,中抗品种占20%,籼稻品种较少,为18.83%。其抗虫机理主要是稻株外部形态特征不利于二化螟蚁螟侵入、成虫产卵量少和幼虫生长发育不良、存活率低。     

Toxicity toChrysomela tremulae (Coleoptera: Chrysomelidae) of transgenic poplars expressing a cysteine proteinase inhibitor

The aim of this study was to test the potential of proteinase inhibitors to controlChrysomela tremulae, a beetle that causes severe damage in young plantations and in short-rotation intensive culture (SRIC) of poplar. As a first step, cysteine proteinases were determined to be the major digestive proteinases ofC. tremulae and oryzacystatin OCI, a cysteine proteinase inhibitor, was shown to inhibit this activityin vitro. The gene encoding OCI was introduced into poplar (Populus tremula ×P. tremuloides) and transgenic plants expressing OCI at a high level were selected. Feeding tests on these transgenic plants demonstrate the toxicity of OCI-producing poplar leaves againstC. tremulae larvae.J.C. Leplé and M. Bonadé-Bottino contributed equally to the research presented in this paper.     

The Structure of Cervicarcin

An antitumor antibiotic Cervicarcin has been shown to have the structure (1).     

CO_2倍增和转Bt水稻对二化螟幼虫的生理影响

通过开顶式气室研究了CO2浓度倍增(750vs.375μL/L)对取食转Bt水稻及其对照亲本秀水11的二化螟Chilo suppressalis(Walker)幼虫体内代谢酶乙酰胆碱酯酶(AChE)和保护酶(超氧化物歧化酶SOD、过氧化物酶POD和过氧化氢酶CAT)活力的影响,以期明确该类害虫对大气CO2浓度升高及转Bt水稻的生理响应。研究结果表明:(1)AChE受CO2浓度水平影响显著,与对照CO2处理相比,高CO2条件下该酶活力显著降低;(2)高CO2水平及水稻中Bt毒素蛋白的存在均会导致二化螟幼虫体内POD活力显著降低,SOD初期活力显著升高,但不能维持较长时间,CAT活力表现为先升后降的特点;(3)当受到水稻品种、CO2浓度水平和取食时间的综合影响时,以上代谢酶和保护酶活力会发生显著变化。短时间内二化螟幼虫可通过体内以上生理代谢调节减缓受CO2浓度升高和水稻中Bt毒素蛋白的不利影响,但长时间环境胁迫下这种应对不利环境的响应机制将会失去作用,最终导致种群适合度的降低。