亚洲玉米螟末龄幼虫促前胸腺激素与蜕皮甾类激素滴度的变化

用放射免疫分析法(Radioimmunoassay,RIA)以12小时间隔测定了亚洲玉米螟Ostrinia tfurnacalis末龄非滞育幼虫血淋巴中蜕皮甾类激素滴度.通过前胸腺体外培养,以12小时间隔测定了前胸腺体外分泌活性的变化.发现二者的变化在相同发育阶段是一致的.在亚洲玉米螟上建立了促前胸腺激素(PTTH)体外测定法,并用此法以24小时间隔测定了末龄幼虫脑和血淋巴中PTTH滴度.发现血淋巴中PTTH滴度在末龄第5和7天各有一高峰,脑中只在第5天有一高峰.     

滞育和非滞育棉铃虫血淋巴类固醇蜕皮素含量变化的比较

采用放射免疫分析法对不同时期的注定滞育和非滞育棉铃虫的血淋巴中的类固醇蜕皮素的含量进行了测定,发现在预蛹期间,注定滞育的棉铃虫的类固醇蜕皮素含量高于非滞育的棉铃虫,化蛹后,注定滞育的棉铃虫的类固醇蜕皮素含量则迅速降到极低的水平,明显低于非滞育棉铃虫。用20-羟基蜕皮素处理不同时期的滞育蛹,均能打破滞育。由此可见,类固醇蜕皮素含量的降低或缺乏乃是导致棉铃虫滞育的关键因子之一。     

鞭角华扁叶峰幼虫期的呼吸代谢

报道了鞭角华扁叶蜂Chinolyda flagellicornis幼虫不同发育时期的耗氧量,试验表明,鞭角华扁叶蜂的耗氧量随着幼虫的生长发育而增加,在同一龄期内,耗氧量与虫体鲜重呈2次曲线相关;在不同的龄期之间,耗氧量则与虫体鲜重的0.8299次方成正比,在同一龄期内,幼虫的代谢速率呈抛物线状;在整个幼虫期随着龄期的增加而呈下降趋势。     

鞭角华扁叶蜂幼虫期的呼吸代谢

报道了鞭角华扁叶蜂Chinolyda flagellicornis幼虫不同发育时期的耗氧量.试验表明,鞭角华扁叶蜂的耗氧量随着幼虫的生长发育而增加,在同一龄期内,耗氧量与虫体鲜重呈2次曲线相关;在不同的龄期之间,耗氧量则与虫体鲜重的0.8299次方成正比.在同一龄期内,幼虫的代谢速率呈抛物线状;在整个幼虫期随着龄期的增加而呈下降趋势.     

亚洲玉米螟滞育关联蛋白的分离和纯化

用6%聚丙烯酰胺凝胶电泳, 在亚洲玉米螟Ostrinia furnacalis河南种群滞育幼虫血淋巴中发现了2种滞育关联蛋白, 它们的等电点分别为5.3和4.7; 而在亚洲玉米螟上海种群滞育幼虫血淋巴中发现了1种滞育关联蛋白,等电点为4.7。亚洲玉米螟河南种群滞育关联蛋白仅在滞育幼虫血淋巴中存在。亚洲玉米螟上海种群滞育关联蛋白在滞育和非滞育幼虫血淋巴中均存在,只是它们在滞育幼虫血淋巴中的含量明显高于非滞育幼虫血淋巴中的含量。用30%～50%丙酮沉淀、SephaDex G-100凝胶过滤和MONOQ RH 5/5阴离子交换快速液相法,纯化到了高纯度(≥98%)亚洲玉米螟上海种群滞育幼虫血淋巴中的滞育关联蛋白。     

鞭角华扁叶蜂自然种群生命表

鞭角华扁叶蜂Chinolydaflagellicornis（F．Smith）是危害柏木的主要害虫,近年来在长江沿岸柏木防护林区发生严重,造成灾害。为了解该虫的种群动态规律及影响虫口数量变动的致死原因,并为该虫的预测预报提供资料,笔者于1995～1996年在忠县、云阳两县对鞭角华扁叶蜂自然种群进行了观察,现将结果整理于后。1生命表的研制过程1．1生命表观察虫期的划分[1]：根据鞭角华扁鞭角华扁叶蜂平均生命表叶蜂的发育进度和生活习性,将整个世代划分为卵期,1、2、3、4～6龄幼虫期,预蛹期,蛹期和成虫期共8个发育阶段。l．2观察方法。于1995—1996…     

东方粘虫末龄幼虫血淋巴蜕皮甾类滴度的变化及促前胸腺激素对前胸腺的活化作用

东方粘虫六龄幼虫血淋巴蜕皮甾类滴度,在幼虫的取食生长期一直处在很低的水平(<6pg/μl血淋巴),其后于徘徊期的前一天开始升高,至预蛹期形成唯一的1个高峰(～450pg/μl血淋巴)。前胸腺离体培养的结果表明,前胸腺分泌活力与血淋巴蜕皮甾类滴度的动态呈基本平行的趋势,只是较后者超前了约24小时。促前胸腺激素粗提物能直接活化离体前胸分泌蜕皮甾类。粘虫六龄2日龄(LVI_2)幼虫的前胸腺已能被促前胸腺激素活化,说明此时的前胸腺对促前胸腺激素已具感受性。     

棉铃虫蛹期血淋巴的蜕皮甾类

目前为止仅在少数几种昆虫中研究过蛹期的蜕皮激素。关于蜕皮甾类的性质分析,结果也颇不一致。本文采用放射免疫分析、薄层层析、高压液相色谱及质谱对棉铃虫Heliothis armigera蛹血淋巴内的蜕皮激素进行了研究。结果如下:1.物理-化学方法证明蛹血淋巴内存在二种蜕皮甾类:蜕皮酮和20-羟基蜕皮酮。2.蛹期蜕皮甾类滴度呈一宽峰,高峰出现在化蛹后的第5天(3435ng/ml)。3.在高峰时,蜕皮酮与20-羟基蜕皮酮的比例为1:3.57,说明20-羟基蜕皮酮是主要的蜕皮甾类。4.比较雌雄两性蛹的蜕皮甾类滴度,未见明显差异。研究表明在棉铃虫中影响成虫发育的主要激素是20-羟基蜕皮酮而不是蜕皮酮。     

冷诱导亚洲玉米螟幼虫产生甘油的研究

本文以亚洲玉米螟Ostrinia furnacalis末龄老熟幼虫为材料,研究了冷诱导对血淋巴、脂肪体和脂肪体体外培养液甘油含量的影响.结果表明,室内人工饲养的滞育幼虫和非滞育幼虫在冷处理后,血淋巴中甘油浓度和脂肪体培养液中甘油含量都随冷处理天数的增加而增长,但滞育幼虫高于非滞育幼虫.与此同时,培养前后的脂肪体中甘油含量却随冷处理天数的增加而下降,而且培养前与培养后无明显差别.冷诱导的非滞育幼虫血淋巴中甘油的积累不受颈部结扎的影响.初冬田间滞育幼虫血淋巴中甘油浓度与冷处理35天的室内人工饲养滞育幼虫的甘油浓度相近;冬末田间滞育幼虫血淋巴中甘油浓度与冷处理95天的室内人工饲养滞育幼虫的甘油浓度相同,比初冬增长了50％左右.但冬末幼虫脂肪体培养液和培养前后的脂肪体中甘油含量都明显下降.以上结果说明亚洲玉米螟滞育幼虫和非滞育幼虫都具有对冷诱导产生反应的能力,它们的脂肪体都能在冷诱导之后合成与分泌甘油;所不同的是,滞育幼虫比非滞育幼虫产生甘油的能力更强,因而抗寒力也更大.     

柞蚕蛹解除滞育过程中海藻糖合成酶基因的表达变化

【目的】克隆柞蚕Antheraea pernyi海藻糖合成酶(trehalose-6-phosphate synthase,TPS)基因,并对其进行组织表达分析,探讨该基因在柞蚕滞育蛹解除滞育过程中的表达规律,为阐明柞蚕滞育期间碳水化合物代谢规律与蛹滞育解除的关系提供数据支持。【方法】利用PCR及3'RACE技术从柞蚕幼虫脂肪体组织中克隆得到TPS基因,并进行生物信息学分析;RT-PCR检测该基因在柞蚕幼虫各组织中的表达分布,进一步采用Real-time PCR分析柞蚕滞育蛹解除滞育过程中该基因在脂肪体组织和血淋巴中的表达量变化。【结果】克隆获得柞蚕海藻糖合成酶基因并命名为ApTPS。其开放阅读框长2 487 bp,编码828个氨基酸,蛋白预测分子量为93.19 k D,等电点(p I)4.61;无信号肽,无跨膜区。蛋白质亚细胞定位预测该蛋白定位于细胞质中;蛋白质结构域分析表明,ApTPS有两个保守功能区:TPS(第22-497位氨基酸)和TPP(第532-772位氨基酸)。组织特异性分析表明,ApTPS基因在柞蚕幼虫脂肪体中表达量最高;柞蚕解除滞育过程中,ApTPS在脂肪体和血淋巴中的表达量均有所升高,且显著高于对照组(P0.05),但血淋巴中表达量的升高滞后于脂肪体。【结论】结果提示ApTPS参与了柞蚕蛹滞育中碳水化合物代谢调控并在其中发挥重要作用,与柞蚕蛹滞育解除关系密切。     

Diapause and development in the tobacco budworm,Heliothis virescens: A comparison of haemolymph ecdysteroid titres

The signal to induce diapause in H. virescens comes early in development (prior to the third instar in most insects), but the signal to break diapause can come shortly after entrance into diapause at pupation. Haemolymph ecdysteroid titres in both diapause-bound and non-diapause-bound Heliothis virescens larvae were similar in the first two thirds of the last-larval instar, when similar changes in morphology and behaviour occurred. However, the number of stepwise increases in titre and the timing of the steps was different in the two groups of larvae. Haemolymph ecdysteroid titres in the last third of the instar were approx, five times higher in non-diapause than in diapause-bound larvae. In diapausing pupae, haemolymph ecdysteroid titres dropped to levels found in larvae which had completed two thirds of the last instar. When diapausing pupae were warmed to break diapause, haemolymph ecdysteroid titres rose again. However, 2 of the 4 high ecdysteroid levels detected in pupae developing after diapause break were considerably lower than those detected for non-diapause pupae.     

Haemolymph ecdysteroid titre and epidermal cell commitment of the female southwestern corn borer larvae

The epidermal cell commitment (to pupation or formation of immaculate larvae) and related haemolymph ecdysteroid titres of the southwestern corn borer, Diatraea grandiosella were studied in both nondiapause-bound and diapause-bound last-instar female larvae. Cell commitment was estimated by examining the characteristics of new cuticle secreted in response to an injection of 20-hydroxyecdysone. Haemolymph ecdysteroid titres were determined by radioimmunoassay. Juvenile hormone effect on epidermal cell commitment was studied by applying a juvenile hormone mimic (ZR-515) to last-instar non-diapause-bound larvae and examining the resulting cuticle.In non-diapause-bound larvae, the epidermis of different body regions was committed to pupal development at different times. When pupal cuticular characteristics were evaluated by a scoring system, it appeared that the development of normal pupal cuticle is discontinuous. Three sudden increases in pupal characteristics were observed at 1.67, 2.67 and 3.67 days into the last-larval instar. Haemolymph ecdysteroid titre changes were correlated with the sudden increases in pupal characteristics. Peak ecdysteroid titres were found at 1.67, 2.33, and 3.33 days into the final instar. A fourth ecdysteroid peak (138.8 ng/ml of haemolymph) occurred in pharate pupae. In contrast, the commitment of diapause-bound larvae to produce immaculate integument was made in a fast and continuous fashion. Full commitment was made by 50% of the individuals 4 days (ca. first quarter) into the stadium. Haemolymph ecdysteroid titres fluctuated during the first 2 weeks of the stadium but no significant peaks were observed prior to pharate stage. An ecdysteroid peak (29.8 ng/ml of haemolymph) was identified in pharate immaculate larvae.Pupal development could be completely prevented in 26.7% of nondiapause-bound larvae as late as 4 days into the last instar by topical application of ZR-515. This indicates that the commitment to pupation as revealed by 20-hydroxyecdysone injection is reversible.     

Cellular events in the prothoracic glands and ecdysteroid titres during the last-larval instar of Spodoptera littoralis

Changes in prothoracic gland morphology were correlated to developmental events and ecdysteroid titres (20-hydroxyecdysone equivalents) during the last-larval instar in Spodoptera littoralis. After ecdysis to the last-larval instar the haemolymph ecdysteroid titre remained at about 45 ng/ml, when the prothoracic glands appeared quiescent. The first signs of distinct gland activity, indicated by increased cell size and radial channel formation, were observed at about 12 h prior to the cessation of feeding (36 h after the last-larval moult), accompanied by a gradual increase in ecdysteroid titre to 110 ng/ml haemolymph, at the onset of metamorphosis. During this phase ecdysteroid titres remained at a constant level (140–210 ng/ml haemolymph) and prothoracic gland cellular activity was absent for a short period. The construction of pupation cells occurred when haemolymph ecdysteroids titres increased to 700 ng/ml. A rapid increase in ecdysteroids began on the fourth night (1600 ng/ml haemolymph) reaching a maximal level (4000 ng/ml haemolymph) at the beginning of the fourth day. In freshly moulted pupae a relatively high ecdysteroid titre (1100 ng/ml haemolymph) was still observed, although during a decrease to almost negligible levels. The increase in ecdysteroid level during the third and the fourth nights of the last-larval instar was correlated with the period when almost all the prothoracic gland cells showed signs of high activity. Neck-ligation experiments indicated the necessity of head factors for normal metamorphosis up to the second to third day of the instar. The possibility that the prothoracic glands are under prothoracicotropic hormone regulation at these times is discussed.     

Haemolymph ecdysteroid titres in diapause and nondiapause larvae of the European corn borer, Ostrinia nubilalis

The ecdysteroid titres of last-instar prediapausing, diapausing and nondiapausing larvae of Ostrinia nubilalis were determined by radioimmunoassay. In the nondiapause larvae a major peak of ecdysteroid activity preceded pupation by 24 h and continued through the pupal ecdysis. This peak was correlated with head and thorax critical periods as well as with changes in behaviour and physiology marking the transition from feeding larva to prepupa. Nondiapause larvae also displayed a rise in ecdysteroid titre during the feeding phase of development. This rise was approx one tenth that of the major peak and lasted 32 h. It was not correlated with any overt changes in larval physiology or behaviour. The diapause ecdysteroid profile was distinctive in that the levels measured were all lower than the lowest of the nondiapause curve. No peaks were observed in the diapause titres. Prepupal changes such as spinning and the cessation of feeding were not correlated with any increase in ecdysteroid levels. During diapause termination, under a long-day photoperiod, no increases in ecdysteroid titre were observed for the first 10 days. After 12 days individuals began to show ecdysteroids above the diapause levels. Pupation started after 16 long days.     

Stage dependent influences of polydnaviruses and the parasitoid larva on host ecdysteroids

In the solitary egg-larval parasitoid Chelonus inanitus (Braconidae) both polydnavirus and the parasitoid larva manipulate host development. Parasitization leads to a premature drop in juvenile hormone titre and a precocious onset of metamorphosis in the 5th larval instar. The C. inanitus bracovirus (CiBV) alone causes a reduction in host ecdysteroid titres at the pupal cell formation stage and prevents pupation. Here we report three new findings. (1) We show that parasitization causes a reduction in haemolymph ecdysteroid titre immediately after the moult to the 5th instar; similarly low values were seen in nonparasitized larvae after the moult to the 6th instar. These data along with parasitoid removal experiments indicate that the low ecdysteroid titre after the moult is a very early sign of the upcoming metamorphosis. (2) In vitro experiments with prothoracic glands and brain extracts showed that CiBV affects both prothoracic glands and prothoracicotropic hormone after the stage of pupal cell formation. (3) In the haemolymph of parasitized larvae the ecdysteroid titre increased in the late cell formation stage, i.e. immediately before egression of the parasitoid. In vitro experiments showed that late 2nd instar parasitoids release ecdysteroids and are thus very likely responsible for the rise in host ecdysteroids.     

Endocrine events during pre-diapause and non-diapause larval-pupal development of the tobacco hornworm, Manduca sexta

The haemolymph ecdysteroid titre and in vitro capacities of prothoracic glands and corpora allata to synthesize ecdysone and juvenile hormone, respectively, during the last-larval instar of diapause-destined (short-day) and non-diapause-destined (long-day) Manduca sexta were investigated. In general, the ecdysteroid titres for both populations of larvae were the same and exhibited the two peaks characteristic of the haemolymph titre during this developmental stage in Manduca. The only difference in the titre occurred between day 7 plus 12 h and day 7 plus 20 h, when the short-day larval titre did not decrease as quickly as the long-day titre. The in vitro synthesis of ecdysone by prothoracic glands of short- and long-day larvae during the pharate pupal phase of the instar were also essentially the same. Activity fluctuated at times which would support the idea that ecdysone synthesis by the glands is a major contributing factor to the changes in the haemolymph ecdysteroid titre. There was one subtle difference in prothoracic gland activity between the two populations, occurring on day 7 plus 2 h. By day 7 plus 10 h, however, rates of ecdysone synthesis by the short- and long-day glands were comparable. This elevated activity of the short-day glands occurred just prior to the period the haemolymph ecdysteroid titre remained elevated in these larvae. The capacities of corpora allata to synthesize juvenile hormone I and III in vitro were not markedly different in long- and short-day last-instar larvae. At the time of prothoracicotropic hormone release in the early pupa, activity of corpora allata from short- and long-day reared animals was low and also essentially the same. There were a few differences in the levels of synthesis at isolated times, but they were not consistent for both homologues. Overall, there are no compelling differences in the fluctuations of ecdysteroids and juvenile hormones between diapause-destined and non-diapause-destined Manduca larvae. Since these hormones do not appear to play any obviously significant role in the induction of pupal diapause in this insect, the photoperiodic induction of diapause in Manduca appears to be a predominantly brain-centred phenomenon not involving endocrine effectors.     

Diapause phenomena in non-diapausing last instar larvae,pupae, and pharate adults of the Colorado beetle

From the first day of the last (fourth) larval instar no trace of juvenile hormone (JH) can be detected in the haemolymph by Galleria bioassay. Three specific diapause proteins, which are also found in diapausing adults, appear in the haemolymph. These proteins disappear towards the end of the pupal stage. Study of the ultrastructure of the fat body revealed the formation from lysosomes of proteinaceous bodies which are also characteristic for adult diapause. The behaviour of last instar larvae and pupae resembles that of prediapausing and diapausing adults respectively. Injection of synthetic JH delays the appearance of the diapause proteins in the haemolymph and of proteinaceous bodies in the fat body for 2 to 3 days. The absence of JH seems to trigger off these diapause phenomena.     

Haemolymph ecdysteroid titres during larval-adult development in Rhodnius prolixus: Correlations with moulting hormone action and brain neurosecretory cell activity

A haemolymph ecdysteroid titre of the fifth (last)-larval instar of the hemipteran, Rhodnius prolixus has been determined by radioimmunoassay. During the last-larval stadium the ecdysteroid titre increases from a negligible level in the unfed insect to a detectable level within minutes following a blood meal. The titre reaches a plateau of ～50–70 ng/ml at 3–4 hr and this level is maintained until day 5–6, the time of the head-critical period in Rhodnius. At the head-critical period the titre begins to increase again, this time dramatically, reaching a peak of ～ 3500 ng/ml at day 13. From day 14 to ecdysis (day 21) the titre declines to a low level, ～ 30 ng/ml. Basal levels of ecdysteroids, ～ 15 ng/ml, were detectable in young adult males and females. A survey of haemolymph volumes during the last-larval instar indicates that the changes in the ecdysteroid titre reflect changes in the rates of ecdysteroid synthesis, and not changes in haemolymph volume. Excretion of ecdysteroids varies systematically during the instar, suggesting that control of ecdysteroid excretion may be important in regulation of the haemolymph titre. Qualitative analysis of the haemolymph ecdysteroid RIA activity revealed the presence of only ecdysone and 20-hydroxy-ecdysone. For the large peak preceding larval-adult ecdysis, 20-hydroxy-ecdysone was the predominant hormone. These results indicate that there may be two periods of release of prothoracicotropic hormone (PTTH) from the brain in Rhodnius, one immediately following the blood meal and the second on day 5 or 6. The significance of these times of PTTH release is discussed in relation to classical evidence of the timing of moulting hormone action, the response of target tissues, and with more recent findings on the timing of release of neurosecretory material from the brain of Rhodnius during moulting.     

The ecdysteroid titres during the last-larval instar of Ephestia kuehniella Z. (Lepidoptera: Pyralidae)

The ecdysteroid titre and the body weight during the last-larval instar of Ephestia kuehniella were determined. Slightly elevated ecdysteroid titres occur during the first 12 h following the last larval-larval ecdysis (38 ng/g) and again some 120 h later, lasting about 48 h (33 ng/g). A high ecdysteroid peak (750 ng/g) with a maximum in prepupae of the eye-class A4 precedes the larval-pupal ecdysis. The basal levels between these increased ecdysteroid titres are between 13 ng/g and 15 ng/g. Compared with the body weight, the first sligtly increased ecdysteroid titre 12 h after ecdysis is associated with the beginning of food intake, the second increase at 144 h after ecdysis with reduced gain in body weight. The prepupal ecdysteroid peak occurs whilst the body weight remains constant. Correlations between the varying ecdysteroid titre and morphological and physiological events accompanying the progress in larval-pupal development are discussed.