Study of temperature-sensitive mutations in the virilis group of Drosophila. 4. Phenogenetics of a temperature-sensitive mutation affecting the development of imaginal discs in Drosophila virilis Sturt]

The phenogenetics of a new temperature-sensitive mutation diskless-ts (dl-ts, 2nd chromosome) has been studied in D. virilis. The rearing of larvae from the 1st instar at the temperature 31 degrees resulted in the complete or partial arrest of the development of imaginal discs and, consequently, the death of larvae prior to the pupation, at the prepupa stage. The change of temperature from 25 to 31 degrees during the second half of development in the 3rd instar affects the differentiation of imaginal discs. Some organs differentiate completely or partially (eyes, wings, legs) whereas the rest do not develop at all. The sensitive period embraces the whole larval development till the beginning of pupation.     

The temperature sensitivity of mutations in species of the virilis group of Drosophila. II. The effect of temperature on the maternal effect on the puffed marker following hybridization

The influence of temperature (17 and 31 degrees) on the maternal effect of mutation Puffed (Pu) in Drosophila hybrids has been studied. In the hybrids female D. littoralis +/+ x male D. virilis Pu/Pu, the stage of formation of black ring on anterior spiracles in the 3rd larval instar is sensitive to 31 degrees. In the hybrids female D. virilis Pu/Pu x male D. littoralis +/+, the expression of Pu gene manifests the maternal effect and as a result, two temperature-sensitive stages are found. The first one--onset of embryogenesis (2 to 4 hrs). At the temperature 17 degrees, the penetrance of Pu increases. The second stage is sensitive to 31 degrees and coincides with the period of black rings formation on anterior spiracles in the 3rd laval instar. It has been shown that at least two genetic systems take part in the formation of this feature. One group of genes controls the maternal effect and is sensitive to low temperature in the early embryogenesis of the hybrids female D. virilis x male D. littoralis. The second one--Pu gene and its modifiers--is active during the 2nd half of the 3rd larval instar and is heat-sensitive.     

Aedes aegypti midgut remodeling during metamorphosis

The Aedes aegypti midgut is restructured during metamorphosis; its epithelium is renewed by replacing the digestive and endocrine cells through stem or regenerative cell differentiation. Shortly after pupation (white pupae) begins, the larval digestive cells are histolized and show signs of degeneration, such as autophagic vacuoles and disintegrating microvilli. Simultaneously, differentiating cells derived from larval stem cells form an electron-dense layer that is visible 24 h after pupation begins. Forty-eight hours after pupation onset, the differentiating cells yield an electron-lucent cytoplasm rich in microvilli and organelles. Dividing stem cells were observed in the fourth instar larvae and during the first 24 h of pupation, which suggests that stem cells proliferate at the end of the larval period and during pupation. This study discusses various aspects of the changes during midgut remodeling for pupating A. aegypti.     

黑果蝇dlts品系的温度敏感时期及dlts基因多效影响的自主性研究

本文采用D.T.Suzuki的方法,研究了黑果蝇Drosophila virilis Sturt dlts品系的温度敏感时期和致死时期的相互关系.选择了31℃为限制温度,25℃为许可温度.对于成虫盘缺损的研究用了12个小时为一个脉冲或24个小时为一个脉冲的热处理,用扫描电镜技术辅助对成虫形态缺损的研究.对于成虫盘缺失和重复的关系主要在48小时为一个脉冲的热处理盘中进行,对dlts基因的表达采用了遗传嵌合性的研究,其结果如下:1. 两个不连续的温度敏感时态对致死的影响是在第1龄幼虫、第2龄幼虫、第3龄幼虫和进入蛹期后的10个小时.温度敏感时态和致死时态并不一致,而是先于致死时态几个小时.2. 温度敏感时态对成虫形态的影响是:触角的重复和复眼的缺失发生在第2龄和第3龄幼虫期.足关节融合及跗节和腿节的缩短发生在第3龄幼虫期,翅脉硬化主要发生在第3龄幼虫期即将结束进入前蛹期的这段时间.第3龄幼虫期是成虫盘发生缺陷比较集中的时期,可以明显见到足、复眼、翅和刚毛的缺陷,同源异型突变体也在这个时期发生.同源突变体的变化主要是足、触角片段及刚毛和触角片段的相互转移.3. 每一个成虫盘缺陷部有自己明显的特征,根据它们成虫盘的形态缺陷和热处理的时间性,所有的成虫盘缺陷变化都可以分为这样三类:缺失,重复,缺失和重复并存.4. 遗传镶嵌测试表明:dlts基因是自主表达的,且具有一定的时间、环境和组织的特殊性.     

黑果蝇dlts品系的温度敏感时期及dlts基因多效影响的自主性研究

本文采用D.T.Suzuki的方法,研究了黑果蝇Drosophila virilis Sturt dl^ts品系的温度敏感时期和致死时期的相互关系。选择了31℃为限制温度,25℃为许可温度。对于成虫盘缺损的研究用了12个小时为一个脉冲或24个小时为一个脉冲的热处理,用扫描电镜技术辅助对成虫形态缺损的研究。对于成虫盘缺失和重复的关系主要在48小时为一个脉冲的热处理盘中进行,对dlts基因的表达采用了遗传嵌合性的研究,其结果如下：1两个不连续的温度敏感时态对致死的影响是在第1龄幼虫、第2龄幼虫、第3龄幼虫和进入蛹期后的10个小时。温度敏感时态和致死时态并不一致,而是先于致死时态几个小时。2温度敏感时态对成虫形态的影响是：触角的重复和复眼的缺失发生在第2龄和第3龄幼虫期。足关节融合及跗节和腿节的缩短发生在第3龄幼虫期,翅脉硬化主要发生在第3龄幼虫期即将结束进入前蛹期的这段时间。第3龄幼虫期是成虫盘发生缺陷比较集中的时期,可以明显见到足、复眼、翅和刚毛的缺陷,同源异型突变体也在这个时期发生。同源突变体的变化主要是足、触角片段及刚毛和触角片段的相互转移。3每一个成虫盘缺陷部有自己明显的特征,根据它们成虫盘的形态缺陷和热处理的时间性,所有的成虫盘缺陷变化都可以分为这样三类：缺失,重复,缺失和重复并存。4遗传镶嵌测试表明：dl^ts基因是自主表达的,且具有一定的时间、环境和组织的特殊性。     

Precocious reprogramming of eupyrene-apyrene spermatogenesis commitment induced by allatectomy of the penultimate larval instar of the moth Actias selene

A possible causal relationship between the switch-over from eupyrene to apyrene spermatogenesis and pupation in Lepidoptera was examined in Actias selene. Precocious pupation, 11 days earlier than in the controls, was induced by allatectomy on the first day of the penultimate larval instar. The course of the eupyrene spermatogenesis, until nuclear elongation in the spermatid, is not related to pupation. In both allatectomized and control individuals, eupyrene metaphases appear 8 days after ecdysis of the fourth larval instar. Nuclear elongation, however, is triggered in the allatectomized individuals earlier than in the controls, probably by the premature decline of the juvenile hormone titre following allatectomy. Apyrene commitment, on the other hand, is directly related to pupation, as apyrene spermatogenesis begins 2 days after pupation in both control and allatectomized individuals.     

Temperature-dependent regulatory mechanism of larval development of the wax moth (Galleria mellonella)

The mechanisms underlying larval diapause in the wax moth (Galleria mellonella) is one of the most throughly studied aspects. At the low temperature of 18 degrees C, the last instar larvae did not pupate but transferred to 30 degrees C they initiated development and pupation in a circadian manner. Different types of surgical manipulations including head-ligation, nerve cord-severance, implantation of the brain, prothoracic glands, accompanied with ecdysteroid titre measurements indicated that diapausing arrest of larval development at 18 degrees C might be due to the nervous inhibition of their prothoracic glands.     

Pupal diapause of Helicoverpa armigera (Lepidoptera: Noctuidae): sensitive stage for thermal induction in the Okayama (western Japan) population

Helicoverpa armigera (Hübner) exhibits a facultative pupal diapause, which depends on temperature and photoperiod. Pupal diapause is induced at 20 degrees C by short photoperiods and inhibited by long photoperiods during the larval stage. However, in some pupae (35% of males and 57% of females) of a non-selected field population from Okayama Prefecture (34.6 degrees N), diapause is not induced by short photoperiods. In the present experiment, the importance of temperature for diapause induction was studied in the non-diapausing strain, which was selected from such individuals reared at 20 degrees C under a short photoperiod of 10L:14D. Furthermore, the sensitive stage for thermal determination of pupal diapause was determined by transferring larvae of various instars and pupae between 20 degrees C and 15 degrees C. Diapause was induced by 15 degrees C without respect to photoperiod. When larvae or pupae reared from eggs at 20 degrees C under a short or a long photoperiod were transferred to 15 degrees C in the periods of the middle fifth instar to the first three days after pupation, the diapause induction rate was significantly reduced in both males and females, especially in females. In contrast, when larvae or pupae reared at 15 degrees C were transferred to 20 degrees C in the same periods, diapause was induced in males, but not in females. However, the diapause induction rate of pupae transferred to 20 degrees C on the fourth day after pupation was significantly increased in females. The results show that temperature is the major diapause cue in the photoperiod-insensitive strain and the periods of middle fifth larval instar to early pupal stage are the thermal sensitive stages for pupal diapause induction with some different responses to temperatures between males and females in H. armigera.     

The Developmental Genetics of the Temperature-Sensitive Lethal Allele of the Suppressor of Forked, l(1)su(f)ts67g, in DROSOPHILA MELANOGASTER

A temperature-sensitive lethal allele of suppressor of forked, l(1)su(f)(ts67g) (ts67), has been discovered and characterized as follows: Flies which are hemizygous for ts67 live at 18 degrees and 25 degrees but die at 30 degrees primarily as larvae. The temperature-sensitive period for ts67 homozygotes or hemizygotes begins in second instar and ends at pupation. ts67 is lethal at 30 degrees when heterozygous with suppressor of forked (su(f)), a deficiency for suppressor of forked (su(f)(-)), and a non-conditional lethal allele of suppressor of forked (3DES). It is viable at 30 degrees when heterozygous with the wild-type allele of suppressor of forked. At 25 degrees but not at 18 degrees forked bristles are suppressed in flies of the following genotypes: f(s)ts67/Y, f(s)ts67/f(s)ts67, f(s)ts67/f(s)su(f), f(u)ts67/f(s)3DES, f(u)ts67/f(s)su(f)(-), f(u)ts67/f(s)su(f). There is some suppression of forked bristles at 25 degrees in the heterozygote, f(s)ts67/f(s)+(su(f)). The forked bristle phenotype is not suppressed at either temperature in flies of the genotypes f(u)ts67/Y, f(u)ts67/f(u)ts67/ (f(s) and f(u) indicating suppressible and unsuppressible alleles of forked). The temperature-sensitive period for suppression of forked bristles begins at pupation and extends through the period of bristle synthesis. The deficiency phenotype (bristles reduced in size or absent, wing wrinkled or blistered, eyes rough) typical of flies of the genotype f(s)su(f)/f(s)su(f)(-) at 18 degrees and 25 degrees , is exhibited by flies of the genotypes f(s)ts67/f(s)su(f)(-) at 25 degrees and f(u)ts67/f(s)su(f) at 29 degrees . An allele of lozenge (lz(1)) which can be suppressed by su(f) is suppressed at 25 degrees but not at 18 degrees in lz(1)ts67/Y males. ts67 homozygous females are fertile at 25 degrees but sterile at 30 degrees . The hypothesis is discussed that the su(f) locus codes for a ribosomal protein and that suppression and enhancement are affected by mutations at the locus by mutant ribosome-induced misreading. The possibility is presented that ts67 may be used to determine the translation time in development of any gene.     

Genetic and Developmental Analysis of a Temperature-Sensitive Minute Mutation of DROSOPHILA MELANOGASTER

A temperature-sensitive (ts) third chromosome Minute (M) mutation, designated Q-III, has been recovered and characterized. Q-III heterozygotes raised at 29° exhibit all of the dominant traits of M mutants including small bristles, rough eyes, prolonged development, reduced viability and interactions with several unrelated mutations. Q-III homozygotes raised at 29° are lethal; death occurs primarily during the first larval instar. When raised at 22°, Q-III heterozygotes are phenotypically normal and Q-III homozygotes display moderate M traits. In addition, Q-III elicits ts sterility and maternal-effect lethality. As it true of M lesions, the dominant traits of Q-III are not expressed in triploid females raised at 29°. Complementation tests suggest that Q-III is a ts allele of M(3)LS4, which is located in 3L near the centromere.—Reciprocal temperature-shift experiments revealed that the temperature-sensitive period (TSP) of Q-III lethality is polyphasic, extending from the first instar to the latter half of pupation. Heat-pulse experiments further resolved this into two post-embryonic TSPs: one occurring during the latter half of the second larval instar, and the other extending from the larval/pupal boundary to the second half of pupation. In addition, heat pulses elicited a large number of striking adult phenotypes in Q-III individuals. These included pattern alterations such as deficiencies and duplications and other morphological defects in structures produced by the eye-antennal, leg, wing and genital imaginal discs and the abdominal histoblasts. Each defect or pattern alteration is associated with a specific TSP during development.—We favor the interpretation that most of the major Q-III defects, particularly the structural duplications and deficiencies, result from temperature-induced cell death in mitotically active imaginal anlagen, while the small macrochaete phene probably results from the direct effects of Q-III on bristle synthesis. The hypothesis that the Q-III locus specifices a component required for protein synthesis is discussed, and it is concluded that this hypothesis can account for the pleiotropy of Q-III, and that perhaps it can be extended to M loci in general.     

Brain-independent development in the moth Sesamia nonagrioides

The caterpillars of Sesamia nonagrioides developing under long-day (LD) photoperiod pupate in the 5th or 6th instar whereas under short day (SD) conditions they enter diapause and undergo several extra larval molts. The diapause is terminated within 1-3 instars upon transfer of SD larvae to the LD conditions. Brain removal from the 6th instar larvae promotes pupation followed by imaginal development; however, one third of the SD larvae and 12% of the LD larvae debrained at the start of the instar first undergo 1-2 larval molts. The incidence of larval molts is enhanced by the brain implants. Exclusively pupal molts occur in the LD larvae debrained late in the 6th instar. Decapitation elicits pupation in both LD and SD larvae, except for some of the 4th and 5th and rarely 6th instar that are induced to a fast larval molt. The pupation of decapitated larvae is reverted to a larval molt by application of a juvenile hormone (JH) agonist. No molts occur in abdomens isolated from the head and thorax prior to the wandering stage. Abdomens isolated later undergo a larval (SD insects) or a pupal (LD insects) molt. Taken together the data reveal that in S. nonagrioides (1) several larval molts followed by a pupal and imaginal molt can occur without brain; (2) an unknown head factor outside the brain is needed for the pupal-adult molt; (3) brain exerts both stimulatory and inhibitory effect on the corpora allata (CA); (4) larval molts induced in CA absence suggest considerable JH persistence.     

Target muscles and sensory afferents do not influence steroid-regulated,segment-specific death of identified motoneurons in Manduca sexta

Programmed cell death plays a critical role in sculpting the nervous system during embryonic development. In holometabolous insects, cell death also plays an important role in the reorganization of the nervous system during metamorphosis. In Manduca sexta, cell death and the factors that regulate it can be studied at the level of individually identified neurons. The accessory planta retractor (APR) motoneurons undergo segment-specific death during the larval-pupal transformation. APRs in abdominal segments 1, 5, and 6 die at pupation; those in abdominal segments 2, 3, and 4 survive until adulthood. Juvenile hormone and ecdysteroids regulate the metamorphic restructuring of the nervous system, but the factors that determine which APRs will live and which will die are not known. The present study assessed the possible importance of cell-cell interactions in determining APR survival at pupation by removing APR's target muscle or mechanosensory input early in the final larval instar, prior to the hormonal cues that trigger the larval-pupal transformation. The motoneurons showed their normal, segment-specific pattern of death in nearly all cases. These results suggest that target muscles and sensory input play little or no role in determining the segment-specific pattern of APR survival at pupation. © 1996 John Wiley & Sons, Inc.     

Effect of actinomycin D on transformation of the planulae of Obelia loveni (Allman)]

The incubation of planulae Obelia loveni in the actinomycin D solution (40 mug/ml) for 3 hrs at 17--20 degrees resulted in the marked inhibition of the process of attachment of planulae to the substrate and their transformation in polyps. A suggestion is put forward that at the final phase of larval development a special RNA is synthesized which participates in the genetically determined control of the complicated morphogenetic phenomenon of attachment and transformation of the planula in polyp.     

Temperature sensitivity of mutations in species of the virillis group of Drosophila. III. The maternal influence and dominance of lethals in D. virillis Sturt. X D. littoralis Sokolov hybrids]

Lethal mutations sensitive to the temperatures 17 and 31 degrees were found in D. virilis. The phenocritical stage for the heat-sensitive mutation begins from the 2nd half of the 3rd larval instar. The specific stage for the cold-sensitive mutation was not found. The mutations are recessive under intraspecific and interspecific (D. littoralis female XD. virilis hermaphrodite) crossing. They are inherited as dominant in the hybrids D. virilis female XD. littoralis hermaphrodite due to the maternal effect of the D. virillis egg cytoplasm.     

Regulation of R7 and R8 differentiation by the spalt genes

Photoreceptor development begins in the larval eye imaginal disc, where eight distinct photoreceptor cells (R1-R8) are sequentially recruited into each of the developing ommatidial clusters. Final photoreceptor differentiation, including rhabdomere formation and rhodopsin expression, is completed during pupal life. During pupation, spalt was previously proposed to promote R7 and R8 terminal differentiation. Here we show that spalt is required for proper R7 differentiation during the third instar larval stage since the expression of several R7 larval markers (prospero, enhancer of split mdelta0.5, and runt) is lost in spalt mutant clones. In R8, spalt is not required for cell specification or differentiation in the larval disc but promotes terminal differentiation during pupation. We show that spalt is necessary for senseless expression in R8 and sufficient to induce ectopic senseless in R1-R6 during pupation. Moreover, misexpression of spalt or senseless is sufficient to induce ectopic rhodopsin 6 expression and partial suppression of rhodopsin 1. We demonstrate that spalt and senseless are part of a genetic network, which regulates rhodopsin 6 and rhodopsin 1. Taken together, our results suggest that while spalt is required for R7 differentiation during larval stages, spalt and senseless promote terminal R8 differentiation during pupal stages, including the regulation of rhodopsin expression.     

Genetic,cytological, and ultrastructural characterization of a temperature-sensitive lethal in Drosophila melanogaster

Genetic analysis of a strain of Drosophila melanogaster revealed that a recessive mutation [l(1)ER^ts] causing temperature-sensitive embryonic lethality is located in the distal region of the X chromosome approximately at map position 18. At 22–25°C mutant embryos exhibit normal viability, and all eggs arrest prior to gastrulation if they are reared at 29°C. The mutant is biphasic, exhibiting a maternal effect which is expressed throughout the first 8 hr of development as well as a second temperature-sensitive period (TSP) during the first 3 days of larval life. Larvae exposed to the restrictive temperature (RT) during the second TSP must also spend the remainder of larval and pupal life and the time of normal eclosion at RT to die as fully developed pupae which fail to eclose. Light and electron microscopy of arrested embryos reveal disturbances in the distribution of nuclei, cytoplasm, and yolk and abnormal configurations of rough endoplasmic reticulum. The cause of pupal death during the second lethal period is unknown.     

Endogenous timing mechanism controlling the circannual pupation rhythm of the varied carpet beetle Anthrenus verbasci

This paper describes the detailed characteristics of the circannual pupation rhythm in Anthrenus verbasci determined by laboratory experiments under various photoperiods and temperatures. The frequency distribution of larval duration showed a periodic pattern over 2-3 years and the period was 37-40 weeks under a constant short-day photoperiod (light:dark 12:12) at 20 degrees C. This rhythm showed temperature compensation to some extent under a short-day photoperiod between 17.5 degrees C and 27.5 degrees C. Under alternations of a long-day (light:dark 16:8) and a short-day photoperiod, pupation occurred 21-24.5 weeks after transfer from a long-day to a short-day photoperiod. Therefore, we concluded that the timing of pupation in A. verbasci is controlled by a circannual rhythm and its zeitgeber is a change in photoperiod. Furthermore, when larvae were transferred from a long-day to a short-day photoperiod at various ages, the larval duration after the photoperiodic transfer depended on the time of the transfer. This difference can be explained by phase-dependent phase shifts in the circannual rhythm.     

Effects of temperature on Anoplophora glabripennis (Coleoptera: Cerambycidae) larvae and pupae

Developmental thresholds, degree-days for development, larval weights, and head capsule widths for each larval instar and the pupal stage of Anoplophora glabripennis (Motschulsky) (Coleoptera: Cerambycidae) were studied at eight constant temperatures (5, 10, 15, 20, 25, 30, 35, and 40°C) for two source populations (Ravenswood, Chicago, IL [IL], and Bayside, Queens, NY [NY]). The estimated lower threshold temperature for development of instars 1-5 and the pupal stage was near 10°C and was near 12°C for the higher instars. Developmental rate was less temperature sensitive for instars 5-9 compared with instars 1-4. Development for all but the first instar was inhibited at constant temperatures >30°C, and all instars failed to develop at 40°C. Although the two source populations had similar responses to temperature, IL larvae were heavier than those from NY. Temperature and its influence on larval weight had profound impacts on whether a larva proceeded to pupation. Based on the temperature effects detailed here, larval development and pupation should be possible in most of the continental United States where suitable hosts are available. These data can be used to develop a degree-day model to estimate beetle phenology; however, at least 2°C should be added to air temperatures to adjust for the mediation of temperature by the wood. These data provide a basis for predicting the potential geographical range of this species and for developing phenological models to predict the timing of immature stages, both of which are important for management programs.     

Juvenile hormone esterase activity in the pupating and diapausing larvae of Sesamia nonagrioides

The development of the Mediterranean corn borer, Sesamia nonagrioides, under long-day (LD) photoperiod is associated with juvenile hormone (JH) decline and pupation in the 5th or 6th larval instar. The larvae grown under short-day (SD) conditions maintain a moderate JH titer and enter diapause during which they undergo several extra larval molts. Both types of larvae exhibit similar levels of juvenile hormone esterase (JHE) activity that increases in each instar during the period of low ecdysteroid titer and drops when the titer rises to a molt-inducing peak. A suppression of JHE activity within 24h after application of an ecdysteroid agonist suggests that the drop of activity is a rapid and possibly direct response to ecdysteroids or their agonist. Esterase inhibitor 3-octylthio-1,1,1-trifluoro-2-propanone (OTFP) suppressed more than 98% of the JHE activity without affecting pupation timing and adult development. The data indicate that JHE is not crucial for the switch between larval development, diapause, and metamorphosis in S. nonagrioides.