光肩星天牛体内纤维素酶活性及其与寄主选择的关系（英文）

为了揭示光肩星天牛Anoplophora glabripennis Motschulsky纤维素酶与寄主选择的关系, 以4种不同寄主树种（新疆杨Populus alba var. pyramidalis Bunge、箭杆杨Populus nigra var. thevestina (Dode) Bean、合作杨Populus simonii × Populus pyramidalis cv. opera Hsu和漳河柳Salix matsudana f. lobato-glandulosa Faug et Liu来源的光肩星天牛幼虫, 和以取食5种不同树种（臭椿Ailanthus altissima、毛白杨Populus tomentosa、合作杨、旱柳Salix matsudana Koidz.和复叶槭Acer negundo Linn.）的光肩星天牛成虫为实验对象, 测定其纤维素酶活性。结果表明: 不同寄主来源的光肩星天牛幼虫内切-β-1,4-葡聚糖酶活性在1.36~2.71 μmol葡萄糖/ (g FW·h)之间, β-葡萄糖苷酶活性在2.57~4.86 μmol葡萄糖/(g FW·h)之间;取食不同树种的光肩星天牛成虫内切-β-1,4-葡聚糖酶活性在4.08~9.27 μmol葡萄糖/(g FW·h)之间, β-葡萄糖苷酶活性在2.87~6.08 μmol葡萄糖/ (g FW·h)之间。不同寄主树种来源的光肩星天牛幼虫体内纤维素酶活性无显著性差异, 取食与否以及取食树种的不同对光肩星天牛成虫纤维素酶活有较大影响。     

水稻品种对稻纵卷叶螟抗性的物理及生化机制

稻纵卷叶螟Cnaphalocrocis medinalis连年大发生,为在其治理中培育和推广抗虫品种,本文应用扫描电镜和生化测定研究了5个常用水稻栽培品种扬辐粳8号、扬稻6号、扬粳9538、淮稻9号和宁梗1号叶片中的硅含量、硅颗粒大小、蜡质含量等物理指标和一些生化指标与抗虫性的关系,并比较了稻纵卷叶螟幼虫危害不同水稻品种后其体内生化反应的差异。结果表明抗虫品种宁梗1号、淮稻9号叶片表面的硅含量显著高于感虫品种,硅颗粒大小在品种间无显著差异。宁粳1号叶片蜡质含量显著高于其他品种。由此表明叶片表面硅和蜡质含量与抗性有关。稻纵卷叶螟幼虫取食后,抗虫品种体内的过氧化物酶（POD）、超氧化物岐化酶（SOD）活性显著高于感虫品种,但丙二醛(MDA)含量低于感虫品种。稻纵卷叶螟幼虫取食不同品种后,其体内一些酶的活性明显不同,取食抗虫品种的幼虫体内POD和谷胱甘肽-S-转移酶(GST)活性显著高于取食其他品种的幼虫,SOD活性显著低于取食感虫品种的幼虫, 表明抗虫品种对稻纵卷叶螟幼虫有毒害作用。     

Cry1Ab蛋白对稻纵卷叶螟幼虫体内三种保护酶活性的影响

室内采用酶活力测定方法研究转B t基因水稻表达的Cry1Ab蛋白对稻纵卷叶螟幼虫体内3种保护酶(AChE、SOD和CAT)活性的影响。结果表明,用转B t基因水稻处理稻纵卷叶螟幼虫,饲喂4 h、36 h后,其体内AChE活力分别比对照增加了52.09%、128.51%,并且都极显著(P<0.01)高于对照组;取食转基因水稻叶片4 h后,幼虫体内SOD酶活性比对照提高了91.5%,与对照有显著差异;36 h后活性达到最大值,但与对照差异不显著。取食转基因水稻叶片24 h后,幼虫体内CAT酶活性达到最大值且高于对照,但与对照差异不显著;48 h后酶活性受到显著抑制,与对照差异显著。同时,测定了幼虫体内及其粪便中Cry1Ab蛋白含量的变化,结果表明,取食转基因水稻叶片12 h后,进入体内的Cry1Ab蛋白随粪便排出,幼虫体内的Cry1Ab蛋白含量一直低于粪便中的含量,且在24 h时两者差异达到最大。由于Cry1Ab蛋白在幼虫体内的积累,扰乱了稻纵卷叶螟幼虫体内AChE、SOD和C AT保护酶的动态平衡,使虫体内自由基的清除遇到障碍,从而对其产生毒害作用。     

感染稻水象甲的Wolbachia基因组中插入序列的鉴定与分析

共生细菌Wolbachia对宿主的生殖起多种调控作用。以往研究表明, Wolbachia基因组中广泛存在插入序列(insertion sequence, IS), 它们对宿主基因组的可塑性、 多样性和进化起重要作用。稻水象甲Lissorhoptrus oryzophilus Kuschel在东亚是一种外来水稻害虫, 在原产地北美营两性生殖, 而在所有入侵地均营孤雌生殖。本研究采用PCR法从河北唐海孤雌生殖型稻水象甲体内克隆获得了Wolbachia的2条IS序列, 即ISWosp4和ISWosp6; 从美国德克萨斯州两性生殖型稻水象甲成虫体内克隆获得了Wolbachia的2条IS序列, 即ISWosp3和ISWosp5。碱基序列比对显示: ISWosp3和ISWosp4属于IS3家族IS3组成员, ISWosp5为IS4家族IS231组成员, ISWosp6为IS5家族IS1031组成员。对这些IS的ORF结构、 所编码氨基酸序列的结构等进行了分析, 推测ISWosp5具有潜在转座活性。所得结果增进了我们对Wolbachia IS3, IS4和IS5家族插入序列的认识, 同时为今后从IS的角度探讨Wolbachia与稻水象甲生殖的关系奠定了基础。     

转cry1Ab基因水稻对非靶标昆虫白背飞虱种群增长的影响

通过室内饲养实验及水稻氨基酸和碳、氮含量测定,比较研究了转cry1Ab水稻克螟稻 (KMD1和KMD2)与其亲本秀水11对非靶标害虫白背飞虱种群增长的影响。 结果表明,以克螟稻为食可对白背飞虱的产卵期和每雌产卵量产生一定影响。 以KMD2为食的白背飞虱的产卵期为7.6天,每雌产卵量为95.0粒,均显著低于以母本秀水11为食的白背飞虱的12.7天和167.5粒。但是,以KMD1为食的白背飞虱仅产卵期（8.6天）显著变短, 其每雌产卵量与以其母本秀水11为食的白背飞虱无显著差异。稻苗氨基酸含量分析结果表明KMD2引起白背飞虱种群生殖力显著下降可能与其游离氨基酸的总量和丙氨酸含量的显著下降以及谷氨酸含量的显著上升有关。因此,转cry1Ab水稻可对白背飞虱种群增长产生影响,但其影响因转cry1Ab水稻品种而异。     

中国隐毒甲属分类研究及四新种记述

记述中国隐毒甲属Cryphaeus Klug, 1833的4新种: 短角隐毒甲C. brevicornus sp. nov.,长角隐毒甲C. longicornus sp. nov.,短毛隐毒甲C. barbellatus sp. nov.和歪角隐毒甲C. obliquicornus sp .nov.。模式标本保存在河北大学博物馆。给出中国及部分周边地区已知种雄性和雌性检索表。     

米蛾体内Wolbachia的wsp基因序列测定与系统发育分析

Wolbachia是广泛分布于节肢动物体内的一类共生菌, 它们参与多种调控寄主的生殖活动机制。通过对wsp基因的特异性扩增和测序,发现了Wolbachia在米蛾Corcyra cephalonica (Stainton)体内的感染。利用所测序列和其他已发表的序列建立系统树,结果表明米蛾体内Wolbachia属于B大组的Pip类群,与其寄生物茧蜂及赤眼蜂中的Wolbachia各株系遗传距离相差较远。据此推测米蛾体内感染的Wolbachia不是由寄生物（茧蜂、赤眼蜂）水平传播所致。     

棉铃虫细胞色素P450 CYP6B7基因的克隆与融合表达

细胞色素P450 CYP6B7被推测与棉铃虫Helicoverpa armigera对拟除虫菊酯类杀虫剂的抗性有关,但至今尚无CYP6B7参与杀虫剂代谢方面的直接证据。为揭示CYP6B7的代谢功能,作者以棉铃虫幼虫基因组DNA 为模板,以CYP6B7基因设计特异性引物,扩增出包含321 bp内含子的CYP6B7基因。用反向PCR的方法消除内含子,获得包含完整的CYP6B7基因的开放阅读框。将CYP6B7基因与pMAL-c2X载体连接,并转化E.coli TB1细胞,在IPTG诱导下,CYP6B7能与载体基因编码的麦芽糖结合蛋白（MBP）在大肠杆菌中融合表达,表达产物经直链淀粉（amylose） 柱亲和层析分离洗脱后,得到SDS-PAGE电泳纯的融合蛋白。     

转双抗虫基因三倍体毛白杨外源基因表达及性状相关性分析

用部分改造的BtCry1Ac基因与慈菇蛋白酶抑制剂（API）基因构建的双抗虫基因表达载体,通过农杆菌介导法转化了三倍体毛白杨Populus tomentosa Carr.,获得一批转双抗虫基因株系。对转基因株系的抗虫毒蛋白表达进行了ELISA和Western Blot检测,同时用转基因株系叶片对杨扇舟蛾Clostera anachoreta Fabricius和舞毒蛾Lymantria dispar L.幼虫进行室内饲虫试验,并对各项外源基因表达指标进行了相关分析。结果表明：在检测的28个转基因株系中,对杨扇舟蛾高抗株系占总参试系号的41％,中抗系号占35.0％,低抗系号占24％,对舞毒蛾高抗株系占参试系号的70％。转基因植株可明显抑制存活幼虫的生长发育,且不同转基因株系饲养的幼虫发育存在显著差异。连续两年相关分析表明,不同转基因株系幼虫死亡率间存在极显著相关。转基因植株对舞毒蛾和杨扇舟蛾均表达出抗虫性,并存在极显著相关。ELISA检测结果表明,不同转基因株系Bt毒蛋白表达量存在差异,变化在0.0011％～0.0161％。转基因植株对害虫的杀虫效果与Bt杀虫蛋白的表达量存在显著相关,表明Bt毒蛋白在抗虫效果中占有重要地位。转基因植株对卡那霉素表现出一定的抗性,但与抗虫程度相关不明显,单纯用卡那霉素作为筛选手段并不能完全反映植株的真实抗虫效果。     

中国纵脊叶蜂属分类研究（膜翅目：叶蜂科）

厘订了中国纵脊叶蜂属Xenapatidea Malaise种类,并记述1个新种——方顶纵脊叶蜂Xenapatidea reticulata sp. nov.和1个中国新纪录种——红胸纵脊叶蜂 Xenapatidea rufoscutellata Koch, 1996。首次报道并描述了X. rufoscutellata Koch, 1996的雌性。编制了纵脊叶蜂属8个已知种分种检索表。新种模式标本保存于中南林业科技大学昆虫标本馆。     

转cry1Ab/cry1Ac基因水稻对大螟幼虫体内三种保护酶活性的影响

为阐明转cry1Ab/cry1Ac基因水稻对大螟Sesamia inferens (Walker)作用的生理生化机制, 本研究用转cry1Ab/cry1Ac基因水稻茎秆饲喂大螟3龄和5龄幼虫, 采用酶活性测定方法研究了取食转Bt水稻对大螟幼虫体内3种保护酶SOD(superoxide dismutase)、 CAT(catalase)和POD(peroxidase)活性的影响。结果表明, 大螟3龄幼虫在取食转基因水稻24 h后SOD活性与对照相比提高了43.44%, 48 h后降至最低值; 在取食24 h后POD值达到最高值, 其酶活性比对照升高了29.22%, 最终在取食48 h后降至最低值, 并显著低于对照; 在取食转基因水稻4 h后, CAT活性升高了30.33%, 在取食48 h后, 与对照相比, CAT活性降低了27.01%; 5龄幼虫取食4 h后SOD活性显著高于对照水平, 36 h后降至最低值, 与对照相比, 活性下降了31.62%; 在取食8 h后POD活性达到最高值, 与对照相比, 升高了73.20%, 36 h后酶活性降至最低值; 在取食之初4 h CAT活性达到最高值, 与对照相比, 其值升高了75.73%, 在取食48 h后, 其活性与对照相比减少了7.55%。3龄幼虫与5龄幼虫相比, 对Bt的抗性水平较低, 自身防卫能力较差。结果说明, 在取食初期, 试虫体内保护酶活性升高, 以抵御Bt毒蛋白对虫体的伤害作用, 随着取食时间的延长, 保护酶活性迅速降低, 从而干扰虫体正常的代谢过程, 导致虫体出现中毒症状, 致使昆虫死亡。     

水稻施用硅肥对稻纵卷叶螟幼虫保护酶和解毒酶活性的影响

【目的】研究施硅水稻对稻纵卷叶螟Cnaphalocrocis medinalis(Guenée)幼虫保护酶(过氧化氢酶CAT、过氧化物酶POD、超氧化物歧化酶SOD)和解毒酶(谷胱甘肽-S-转移酶GST、乙酰胆碱酯酶ACh E)活性的影响,为探明硅增强水稻抗稻纵卷叶螟的机理和稻纵卷叶螟的综合治理提供依据。【方法】采用感虫水稻品种TN1,设置2种施硅水平,即0.32 g Si/kg土壤(Si+)和不施硅(Si-),测定取食水稻24、48、72、96 h后3龄幼虫体内CAT、POD、SOD、GST、ACh E活性的动态变化。【结果】幼虫取食Si+水稻前期(24~48 h),CAT、POD、SOD活性呈上升趋势,并在48 h时达到最高值;取食后期(48~96 h),CAT、POD、SOD活性下降并在96 h时显著低于Si-处理。在Si-处理中,幼虫CAT和POD活性"先降低、再升高",SOD活性呈一直增大的趋势。取食Si+水稻幼虫GST活性始终显著高于Si-处理,而ACh E活性均低于Si-水稻,并在72 h和96 h时显著低于Si-水稻。处理间幼虫存活率存在显著差异,Si+水稻上1龄和3龄幼虫的存活率显著低于Si-水稻。这些结果说明,硅处理可能使稻纵卷叶螟幼虫产生应激反应引起保护酶活性在短时间内增大,但取食一段时间后保护酶活性下降。ACh E活性受到抑制,会引起昆虫神经传导的异常反应,造成昆虫死亡。【结论】硅可能通过参与植物的生理代谢过程,诱导植物增加次生代谢物的合成和积累,引起稻纵卷叶螟保护酶和解毒酶的活性变化,可能会影响稻纵卷叶螟的存活。     

转基因杨树对杨小舟蛾体内三种保护酶活力的影响

用转Bt单基因（FB56）和转Bt＋CpTI双价基因（D18）杨树叶片饲喂杨小舟蛾Micromelalopha troglodyta (Graeser),采用酶活力测定方法研究了转基因杨树对幼虫中肠和血淋巴三种保护酶（SOD、CAT 和POD）活力的影响。结果表明,幼虫中肠SOD活力显著升高,而CAT和POD活力受到了显著抑制。用FB56处理24 h,杨小舟蛾幼虫中肠SOD活力增加了41.7%,与对照有显著差异;而用D18处理,SOD活力增加了25.3%,与对照差异不显著。用FB56处理24 h,中肠CAT活力受到显著抑制,36 h后抑制能力不强;而用D18处理,CAT活力全程受到显著抑制。用FB56和D18处理36 h,中肠POD活力均受到显著抑制,分别比对照下降70.1%和898%。转基因杨树通过扰乱幼虫中肠SOD、CAT和POD三种保护酶的动态平衡,使虫体内自由基清除遇到了障碍,从而对其产生了毒害作用。转双价基因杨树对幼虫中肠保护酶的毒害作用大于转单基因杨树。用2种转基因杨树叶片饲喂杨小舟蛾幼虫后其血淋巴SOD和POD活力均没有受到显著影响,但CAT活力均显著高于对照,转基因杨树对血淋巴保护酶系统的影响小于对中肠保护酶系统的影响。     

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。     

转基因水稻表达的Bt蛋白对拟环纹豹蛛（Pardosa pseudoannulata）体内保护酶活性的影响

把取食24h的转Cry1Ab／Cry1Ac基因水稻叶片的稻纵卷叶螟Cnaphalocrocis medinalis（Guenée）幼虫,分别喂养拟环纹豹蛛3天、6天、9天、12天后,采用酶活力测定方法探究了转基因水稻表达的Bt蛋白对拟环纹豹蛛体内3种保护酶（SOD、POD和CAT）活性的影响。结果表明：就整体来看,实验期间处理组蜘蛛体内3种保护酶（SOD、POD和CAT）的活性均受到Bt蛋白的影响,且前期3种保护酶活性均表现不同程度的被抑制,明显低于对照组。在实验过程中,SOD活性随着处理时间的增加而逐渐增强,至处理第9天时达到最大值;同时处理组POD、CAT活性也随着处理时间的增加而增强,实验初期（前6天）均显著低于对照组,而至第9天则均高于对照组。由此可见,Bt基因在水稻体内所表达的Bt蛋白能够沿食物链传递至次级消费者,并且在一定程度上对次级消费者产生影响。     

Effects of elevated CO2 and transgenic Bt rice on yeast‐like endosymbiote and its host brown planthopper

The effects of elevated CO₂ (750 vs. 375μl/l) on population abundances and metabolism enzyme of AChE and protective enzymes of SOD, POD and CAT in brown planthoppers (BPH) Nilaparvata lugens, and on size and abundances of yeast‐like endosymbiotes (YLES) were studied as BPH fed Bacillus thuringiensis (Bt) rice expressing pure Cry1Ab after successively two generations in open‐top chambers. The results indicated that: (1) Brachypterous and macropterous subpopulations and total population increased with elevated CO₂. Significant increases were found as BPH fed non‐transgenic rice while only significant increase as macropterous‐BPH fed Bt rice. (2) The responses of brachypterous and macropterous‐BPH to Bt rice were different. Brachypterous‐subpopulation significantly decreased (13.6%) while macropterous ones significantly increased (43.8%) as fed Bt rice relative to non‐transgenic rice at elevated CO₂. (3) Elevated CO₂ only significantly inhibited AChE activity as brachypterous‐BPH fed non‐transgenic rice. Significant increases in POD and SOD, and significant decrease in CAT were found as brachypterous‐BPH fed Bt rice, while significant increases in CAT and significant decrease in POD were also observed as fed non‐transgenic rice in elevated CO₂ relative to ambient CO₂. (4) Bt rice significantly inhibited POD and SOD activity at ambient CO₂, while only significantly enhanced SOD activity at elevated CO₂. (5) Elevated CO₂ significantly decreased YLES per mg/head of brachypterous‐BPH females while only significantly decreased YLES per mg/head as brachypterous‐BPH males fed Bt rice. And there were significant differences in YLES width or length between females and males. Elevated CO₂ can markedly affect the symbiosis relationship between YLES and BPH through the bottom‐up forcing on BPH physiological metabolism. And the damage inflicted by BPH on rice, irrespective of the presence of insecticidal genes, is predicted to be higher at elevated CO₂. Furthermore, transgenic Bt rice can also exacerbate emigrating‐macropterous‐BPH occurring especially at elevated CO₂.     

Resistance of transgenic rice events (rbcS:cry1Ac) against three lepidopteran rice pests

The transgenic rice expressing cry1Ac gene, which is linked to the rice rbcS promoter and its transit peptide sequence (tp), was highly resistant against all instars of Cnaphalocrocis medinalis (Guenetée) (Lepidoptera: Crambidae). In this study, we evaluated the larval mortality, behavior change, and field occurrence of three main rice pests, C. medinalis, Naranga aenescens (Moore) (Lepidoptera: Noctuidae), and Parnara guttata (Bremer & Grey) (Lepidoptera: Hesperiidae) in T4 generations of three Bt rice events (rbcS3:cry1Ac; 608102, 608104 and 608107) and non-Bt rice. All of the three Bt rice events were resistant to C. medinalis which showed significantly higher mortality for all instars compared to non-Bt rice. The resistance of Bt rice events against the larvae decreased gradually as the larvae developed. However, the survived larvae which ingested Bt rice events died eventually without further development. The resistance of three Bt rice events was investigated in the pot test, which was conducted with 3rd instars of C. medinalis, N. aenescens, and P. guttata, showed mortalities of over 70%. In behavioral assay, C. medinalis fed on the Bt rice events showed feeding avoidance and less leaf rolling behavior compared to that of the larvae fed on non-Bt rice. A 2-yr field survey conducted with larvae of C. medinalis and P. guttata also showed that the three Bt rice events significantly had lower damaged on leaves compared to that of non-Bt rice. Overall, the three Bt rice events were highly resistant to the larvae of lepidopteran target rice pests.     

Efficacy of transgenic rice expressing Cry1Ac and CpTI against the rice leaffolder, Cnaphalocrocis medinalis (Guenée)

Detached leaf bioassays, open field tests and cage tests were conducted to evaluate the control efficacy of two transgenic rice lines, expressing Cry1Ac and CpTI, against Cnaphalocrocis medinalis (Guenée) during 2005-2006 in Fuzhou, China. Bioassay results showed that cumulative feeding areas of C. medinalis on transgenic lines were significantly lower than that on control rice lines at different developmental stages. The corrected mortalities at 96 h after infestation on transgenic lines during six rice growth stages were >90% and 100% during experiments conducted in 2005 and 2006, respectively. In the open field test, there was no significant difference in egg density between transgenic and control lines during early days of infestation, but significant differences were detected in late season, due to serious damage on control lines. Larval densities on control lines were significantly higher than the low larval populations observed on transgenic lines during both seasons. The percentages of plants with folded leaves and percentages of folded leaves on transgenic lines were significantly lower than that on control lines with and without insecticide applications, during the entire season. In cage tests the cumulative numbers of C. medinalis adults derived from transgenic lines were significantly lower than that from control lines with and without insecticide treatments. The high level of efficacy of the two transgenic rice lines against C. medinalis may provide an important basis for reduced insecticide applications, an expansion of alternative pest-control strategies and insect resistance management of Bt rice in the future.     

艳婀珍蝶取食对薇甘菊叶片生理指标的影响

艳婀珍蝶取食后,对薇甘菊叶片的超氧物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)、多酚氧化酶(PPO)的活性,总酚含量,有机自由基(DPPH·)清除能力进行分析。结果表明,取食后3h内所测各量即发生变化,但与对照差异不显著。取食4d中,叶片的SOD、POD活性总体上分别高于对照,CAT活性总体上低于对照,说明在艳婀珍蝶胁迫过程中,SOD和POD所起的作用比CAT大。取食叶SOD、POD活性均在48h时达到最大值,之后下降;CAT活性在24h时达到最大值,之后也迅速下降。取食叶PPO活性动态变化程度较大,表现出3个峰值,分别为对照的1·83,1·92倍和2·17倍;总酚含量表现为先上升后下降的趋势;对DPPH·的清除力一直显著性甚至极显著性低于对照。取食叶的SOD与CAT和POD均呈正相关性,且相关性大于对照;PPO与总酚含量在取食叶与对照中也均呈弱正相关性。实验结果表明,薇甘菊的保护酶对艳婀珍蝶胁迫的应激效应是短暂而有限的,艳婀珍蝶的取食破坏了薇甘菊叶片功能,较大程度的干扰了薇甘菊保护酶系统的防御代谢,薇甘菊的总抗氧化能力降低。薇甘菊也不能通过改变酚类物质含量来抵御艳婀珍蝶的取食,艳婀珍蝶取食对薇甘菊有较明显的控制作用。