首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
Characterization of tyrosine hydroxylase from Manduca sexta   总被引:1,自引:0,他引:1  
In insects, 3,4-dihydroxyphenylalanine (DOPA) is required for tanning of newly formed cuticle and the production of melanin during some types of immune responses. DOPA is produced by the hydroxylation of tyrosine, and this reaction can be catalyzed by two types of enzymes: tyrosine hydroxylase (TH) and phenoloxidase (PO). TH is required for cuticle tanning in Drosophila melanogaster and for cuticle pigmentation in other insect species, but additional functions of TH have been uncertain. In contrast, an immune function for PO has been well documented. The goal of this study was to characterize TH from Manduca sexta with a focus on its possible contribution to cuticle tanning and immune-associated melanization. We cloned a full-length TH cDNA, purified recombinant TH, and confirmed that MsTH and MsPO have tyrosine hydroxylating activity. To determine possible functions, we analyzed TH expression profiles. TH mRNA and protein were present in eggs at the stage when the pharate larval cuticle begins to tan and also in the integument of molting larvae. The amount of TH in the integument was correlated with the degree of cuticle tanning. Unlike PO, which was found to be constitutively expressed by hemocytes and was present in plasma, TH was upregulated in hemocytes and the fat body in response to an immune challenge and remained intracellular. These data suggest that TH is required for cuticle tanning and immunity in M. sexta. Based on the collective information from many studies, we propose a model in which TH is a major producer of the DOPA required for both cuticle tanning and immune-associated melanization.  相似文献   

2.
Bursicon activity first appears in the haemolymph of the cockroach, Leucophaea maderae, early in ecdysis as the old cuticle splits and separates over the thorax. Hormonal activity reaches high levels in the haemolymph before ecdysis is complete and remains so for about 1·5 hr, with a gradual decline and disappearance by 3 hr. The sensory mechanism controlling bursicon release is located in the thorax and appears to be stimulated as the ecdysial split widens for emergence of the thorax. If the abdomen is isolated before this time no tanning of abdominal cuticle occurs, while the isolated thorax proceeds to tan. Therefore the thoracic ganglia seem to be a site of release for bursicon. Release of the hormone from abdominal and head ganglia may also occur after neural stimulation from the thoracic system. Bursicon activity was found in all ganglia of the central nervous system and the corpora cardiaca-allata complex. Removal of the old cuticle prior to the start of ecdysial behaviour does not result in tanning of the new cuticle. However, if the old cuticle is removed after the insect begins to swallow air in preparation for ecdysis, then the new cuticle tans. Mechanical prevention of ecdysis and later removal of the old cuticle also does not result in tanning of the new cuticle. Therefore, shedding of the old cuticle only activates the release of bursicon in conjunction with other normal ecdysial events.  相似文献   

3.
The water content of larval and puparial cuticle of Calliphora vomitoria has been measured under differing conditions using nuclear magnetic resonance, differential scanning calorimetry and simple gravimetry. On average, 2.5 molecules of water are associated with each amino acid side chain. This water is not displaced by tanning, even though tanning reduces the overall content of freezable water, suggesting that tanning agents do not interact with polar groups on the protein but increase overall hydrophobicity. This refutes normally accepted concepts of tanning by covalent cross linking. Additionally, covalent cross linking cannot account for the reduction in swellability of the cuticle on tanning.  相似文献   

4.
Insects have become one of the most successful animal groups in diversity and numbers through the development of a multifunctional exoskeleton and skin, which must be shed periodically in order for them to grow and develop into adults. The evolutionary choice of certain structural materials for the assembly and stabilization of a cuticle with remarkable mechanical and chemical properties has allowed insects to invade terrestrial environments and to evolve flight mechanics for dispersion relatively early in geological history. Diphenolic compounds derived from tyrosine play a central role in sclerotization or tanning of the new cuticle. The phenolic amino acid is stored during larval feeding, and it is mobilized for the production of both structural proteins and diphenolic tanning precursors that are transported into the cuticle. The latter compounds permeate the cuticle and serve as precursors for quinonoid derivatives that both sclerotize and pigment the exoskeleton. This report focuses on how tyrosine and derived diphenolic structures are stored as inactive molecules in preecdysial stages, and how they are released and metabolized to tanning chemicals that stabilize the new cuticle.  相似文献   

5.
Bursicon is an insect neuropeptide hormone that is secreted from the central nervous system into the hemolymph and initiates cuticle tanning. The receptor for bursicon is encoded by the rickets (rk) gene and belongs to the G protein-coupled receptor (GPCR) superfamily. The bursicon and its receptor regulate cuticle tanning as well as wing expansion after adult eclosion. However, the molecular action of bursicon signaling remains unclear. We utilized RNA interference (RNAi) and microarray to study the function of the bursicon receptor (Tcrk) in the model insect, Tribolium castaneum. The data included here showed that in addition to cuticle tanning and wing expansion reported previously, Tcrk is also required for development and expansion of integumentary structures and adult eclosion. Using custom microarrays, we identified 24 genes that are differentially expressed between Tcrk RNAi and control insects. Knockdown in the expression of one of these genes, TC004091, resulted in the arrest of adult eclosion. Identification of genes that are involved in bursicon receptor mediated biological processes will provide tools for future studies on mechanisms of bursicon action.  相似文献   

6.
The levels of ecdysteroids in Sarcophaga bullata were determined by radioimmunoassay (RIA) from the time of larviposition (0 hr) to after the 2nd ecdysis and from late larval to pupal development. Two distinct peaks of ecdysteroid activity were recorded mid-way through the first and second stadia (14 and 34 hr) and two smaller peaks occurred a few hours prior to each ecdysis. A large release of ecdysteroids occurred from 8 hr before and up to 18 hr after formation of the white prepupa. This peak initiated the formation of the prepupa, the tanning of the puparium, larval/pupal apolysis and secretion of the pupal cuticle.Assays for the cuticle tanning hormone, bursicon, in pre-ecdysial larvae were not positive and a possible role for ecdysone in pre-ecdysial tanning of larval cuticular structures is proposed.  相似文献   

7.
《Bioorganic chemistry》1987,15(2):194-211
Molecular mechanisms responsible for the stiffening and tanning of insect cuticle are reviewed. Two mechanisms, viz., quinone tanning and β-sclerotization, both involving catecholamine derivatives as sclerotizing precursors, are known to strengthen the cuticle. Quinone tanning mechanism invokes the generation and reactions of o-benzoquinones as the sclerotizing agents, whereas β-sclerotization dictates the activation of catecholamine side chains prior to their incorporation into cuticle. The reactive intermediate for the latter process was proposed by other workers to be 1,2-dehydro-N-acetyldopamine and its quinone. The role of these two compounds in β-sclerotization is critically evaluated. Based on our observation that incubation of cuticular enzyme from Sarcophaga bullata with 4-alkylcatechols results in the production of soluble side chain oxygenated compounds and the formation of catechol-cuticle adducts, an alternate mechanism for β-sclerotization is proposed. This mechanism calls for the generation of quinone methides, tautomers of 4-alkyl-quinones, as the initial products of oxidation of catecholamine derivatives in cuticle. Quinone methides formed spontaneously react with available nucleophiles in cuticle, resulting in the generation of catechol-cuticle adducts and side chain hydroxylated products. Further oxidation of adducts and coupling to other structural units ensure crosslinking of cuticular components. The proposed quinone methide sclerotization accounts for all the chemical observations made on the β-sclerotized cuticle.  相似文献   

8.
Two mechanisms to account for the stiffening of cuticle at tanning were proposed in 1940. The quinone tanning theory has been almost universally accepted; that of dehydration almost universally neglected. Calculations and tests on the mechanical properties of cuticle under differing conditions suggest that covalent cross-linking, even if it exists, is insufficient to account for the degree of stiffening of cuticle at sclerotisation. Dehydration will induce sufficient secondary bonds to account for the stiffness and insolubility of ‘tanned’ cuticle in the complete absence of covalent cross-links. It is suggested that the mechanism of sclerotisation is driven by quinones and other chemicals which are secreted into the cuticle at sclerotisation and cause highly controlled dehydration. Covalent cross-linking may still occur, but must be considered to be of secondary importance and unproven in all cuticles other than resilin.  相似文献   

9.
The structure, histochemistry, and possible functional properties of the cuticle in two parasitic copepods Pennella elegans Gnanamuthu and Caligus savala Gnanamuthu have been studied: the former is partially embedded in the host while the latter is an ectoparasite capable of free swimming.In Pennella elegans the cuticle of the embedded anterior region of the body is soft, colourless, and lacks an outer epicuticle while that of the posterior exposed part is pigmented and hard. Conspicuous in the cuticle of the ventral region of the head are pore canals which, though not chitinized, are functional even in the intermoult stage: these canals may be involved in the transport of nutrient materials from the host. The horns, which serve to fix the parasite firmly in the host tissues, are covered by cuticle in which the epicuticle and outer layers of the procuticle are hardened by formation of disulphide linkages. The cuticle of the neck region is not hardened and the procuticle in this region shows transverse regions of dense and light zones probably related to the coiling of the neck during penetration. The epicuticle is two layered in the cuticle of the exposed posterior region, the inner epicuticle and outer region of the procuticle being partially hardened by phenolic tanning so confer rigidity and resistance. The cuticle of the plumes is soft and devoid of an outer lipid epicuticle and so possibly adapted for a respiratory function.In Caligus savala, the epicuticle is two layered, and the procuticle has pigmented, calcified, and uncalcified layers. The cuticle is hardened by phenolic tanning as well as by calcification thus recalling the cuticular organization of decapod crustaceans.  相似文献   

10.
During the larval-pupal transformation, various regions of the epidermis of Manduca sexta larvae have previously been found to require different lengths of exposure to the prothoracic glands in order to form pupal cuticle. To distinguish between requirements for differing threshold concentrations of ecdysone and those for differing durations of exposure to ecdysone, wandering stage larval epidermis was cultured in Grace's medium. When most of the thick larval cuticle was removed, the epidermis responded to concentrations of β-ecdysone of 1.0 μ/ml or greater for 4 days by forming cysts which later formed tanned pupal cuticle. No fat body or protein supplement was required. When the larval integument was explanted intact, similar requirements for cuticle formation and for tanning were found. All regions of the fifth abdominal segment required similar concentrations of β-ecdysone (0.4–0.6 μg/ml) for 4 days for 50% to form pupal cuticle, but gin trap epidermis required the least exposure to a threshold concentration of ecdysone (1.5 days in 0.9 μg/ml). The anterior dorsal intersegmental region required about 0.5 day longer, followed by the posterior intersegmental and the dorsal intrasegmental regions. Thus, the duration of exposure seemed more important. About 1 day longer of exposure to ecdysone was required for subsequent tanning of the new cuticle than for cuticle formation, yet tanning of the cuticle did not occur with prolonged exposure to ecdysone.  相似文献   

11.
SYNOPSIS. The end of the molting process in the tobacco hornwormincludes the rapid digestion of the old cuticle, molting fluidresorption, ecdysis of the old cuticle, and expansion and hardeningof the new cuticle. The coordination of these processes is accomplishedby three hormones. Each ecdysis during the life of Manduca appearsto be triggered by eclosion hormone. Depending on developmentalstage, the hormone comes either from the brain-corpora cardiacacomplex or from the chain of ventral ganglia. The neural programstriggered by eclosion hormone include a neuroendocrine event,the release of the tanning hormone, bursicon, thereby ensuringthat tanning of the new cuticle must follow ecdysis. Ecdysis,itself, appears to be controlled by the ecdysteroid levels sinceecdysteroid injections delay ecdysis at physiological concentrationsand in a dose dependent fashion. This delay is due to inhibitionof eclosion hormone secretion and to the retardation of theterminal phases of the molt including the digestion of the oldcuticle and the onset of sensitivity to eclosion hormone. Thus,eclosion hormone secretion and the ecdysis it triggers are coordinatedwith the end of development because both are influenced by thesame endocrine signal—the decline in the ecdysteroid titer.  相似文献   

12.
Wild type (Oregon R) and non-pupariating as well as late-pupariating mutant larval tissues were cultured in vitro up to 5 weeks with and without 20-hydroxy ecdysone (1 μg/ml). The following responses were elicited by the hormone: in the case of wild type tissues detachment of the larval epidermis and muscles from the cuticle; puparial tanning and sclerotization of the larval cuticle; dissociation of the fat body into single cells; inhibition of the movement of the hind intestine. Most of these responses developed within 1 week of culturing. Of the 4 mutants tested, 3 behaved like the wild type. In cultures of ?(1)npr-1, however, puparial tanning, disc evagination, and inhibition of the movement of the hind intestine was abnormally weak and the dissociation of fat body was not observed at all. Detachment of the epidermis and muscles as well as formation of the pupal cuticle by disc tissue occurred normally. The results are discussed with respect to the ecdysteroid-induced metamorphosis of the tissues and the autonomy of mutant gene action.  相似文献   

13.
The sclerotization of cuticle in two species of beetles, Pachynoda epphipiata and Tenebrio molitor, has been investigated and compared with the sclerotization in the locust, Schistocerca gregaria. Two types of sclerotization, β-sclerotization and quinone tanning, occur in all three species. The main type is β-sclerotization, i.e. cross-linking of proteins by means of N-acetyldopamine which is connected to the proteins through the β-position of its side chain. β-Sclerotization is completed in P. epphipiata when it leaves its cocoon, whereas in adult locusts and in adult Tenebrio β-sclerotization continues for several weeks. The cuticle of all three species contains an insoluble enzyme which activates the β-position of N-acetyldopamine and is presumably responsible for the formation of the cross-links. Locust cuticle contains also small amounts of another enzyme which activates the aromatic ring of N-acetyldopamine, resulting in the formation of an o-quinone, which may be involved in quinone tanning of the cuticle. At emergence adult Tenebrio cuticle is rich in both enzymes, but the quinone-forming enzyme is inactivated after a few days, whereas the β-enzyme first decreases and later increases in activity, so that the β-enzyme is the dominating activity in the cuticle of mature adult Tenebrio. The quinone-forming enzyme is presumably responsible for the formation of the brown colour of Tenebrio exocuticle.The exocuticle of adult beetles contains 3,4-dihydroxyphenylacetic acid, which, although it is not easily extracted from the cuticle, is not covalently bound to cuticular components. In Tenebrio it appears in the cuticle a few days after the final ecdysis.The amino acid compositions of both larval, pupal, and adult cuticle from P. epphipiata have been determined, and they are compared with the composition of the cuticle of the corresponding stages of Tenebrio.  相似文献   

14.
The ecdysis and emergence of fifth instar larvae of Rhodnius prolixus have been closely observed. At the time of ecdysis the cuticle of the head, legs, and wingpads is soft and readily deformed. it does not become sufficiently rigid for normal use until about 90 min later. The cuticle of the abdomen is however hard and inextensible at the time of ecdysis. From about 60 min onward this cuticle undergoes a plasticization; it is maximally extensible at about 180 min, thereafter becoming inextensible again. Unlike the plasticization of the abdominal cuticle which occurs after feeding, this post-ecdysial plasticization is not under direct nervous control. Although it seems that there is some temporal link with the darkening of the cuticle, it is considered unlikely that plasticization is a direct consequence of the tanning process. The significance of this post-ecdysial plasticization is not obvious.  相似文献   

15.
When epidermis from wandering stage tobacco hornworm (Manduca sexta) larvae was exposed to 5 μg/ml 20-hydroxyecdysone for 3 days, then exposed to hormone-free Grace's medium, the newly formed pupal cuticle tanned slowly up to 35% of its area by day 12. The addition of 1.3 mM dopamine on either day 4 or 5 slightly increased the area tanned and addition of β-alanine (to 11.2 mM) on days 3–5 enhanced tanning 2–2.5-fold by day 8. Later addition had no effect. When pharate pupal cuticle about 24 h before ecdysis was explanted to Grace's medium, little tanning occurred in 24 h unless dopa or dopamine or their derivatives were added; β-alanine up to 4.4 mM had no effect. Partial tanning occurred in 10 mM dopa or dopamine. More effective were N-β-alanylnorepinephrine and N-β-alanyldopamine which produced nearly maximal tanning at 1 and 5 mM respectively. Up to 10 mM N-β-acetylnorepinephrine had little effect. Thus, dopamine and β-alanine are important to cuticular tanning in vitro and apparently need to be incorporated into the exocuticle during its synthesis. Maximal tanning of this exocuticle then requires further incorporation of β-alanyl conjugates.  相似文献   

16.
17.
Abstract .Following parturition, the third instar larva of Glossina morsitans morsitans West begins a wandering period in which it crawls to the site of pupariation. The duration of wandering can be drastically shortened by pinching or by denying the larva physical contact with the substrate. Contact with water increases the wandering period. Duration of subsequent activities appears to be rigidly fixed. At the end of the wandering period, the larva quickly progresses through a stereotypic sequence of behaviours that include immobilization and excretion of a liquid from the anus, retraction of the anterior segments, cuticular shrinkage, and tanning. Muscular activity and mechanical changes in the cuticle are reflected in changes of haemocoelic pressure. Muscular contractions produce pressure pulses that gradually increase in frequency and intensity, reaching a peak during retraction of the anterior segments. Changes in the mechanical properties of the cuticle cause a more gradual elevation of baseline pressure as the cuticle shrinks and loses its plasticity. As tanning begins, muscular activity ceases and haemocoelic pressure gradually decreases. In spite of its unusual early development within the confines of the female's uterus, the free-living larva shows the full behavioural repertoire observed in other cyclor-rhaphous Diptera at pupariation.  相似文献   

18.
Tensile studies on cuticle of different chitin fibre architecture indicate that the intimate relationship between physical stiffness and the extent of chemical tanning holds for those cuticles which are mechanically isotropic in their surface planes, but not for those which are mechanically anisotropic.  相似文献   

19.
20.
Termite soldiers are morphologically specialized for colony defense. Analysis of the mechanisms of soldier differentiation is important for understanding the establishment of termite societies. Soldiers differentiate from workers through a presoldier stage and have well-sclerotized and pigmented cuticles. These characteristics are important for nest defense and are likely to be caused by soldier-specific mechanisms of cuticular tanning. The molecular mechanisms leading to cuticular tanning have not been elucidated. Laccase2 (Lac2) plays important roles in this process in insects, and we hypothesized that Lac2 expression may be involved in soldier-specific cuticular tanning. We observed inner and outer head cuticle changes and compared the Lac2 expression patterns among three molts (worker–worker, worker–presoldier and presoldier–soldier) in the termite Reticulitermes speratus. Quantitative analyses of head cuticle colors showed that the color properties changed more conspicuously in presoldier–soldier molts than in the other two molts. Histological observations showed that the exocuticles of soldier heads were substantially thicker than those of worker and presoldier heads, underwent tanning before or just after ecdysis, and were pigmented at earlier time points than other molts. Finally, markedly higher Lac2 expression levels were observed just before and after ecdysis only in the presoldier–soldier molt. These results suggest that specific cuticular formation occurs in the exocuticles during soldier differentiation, and that the high level of Lac2 expression during the presoldier–soldier molt is related to soldier-specific cuticular tanning. We speculate that evolution of the regulatory mechanisms of Lac2 expression were important for the acquisition of soldier-specific cuticles.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号