Circadian clock genes period and cycle regulate photoperiodic diapause in the bean bug Riptortus pedestris males

The photoperiodic response is crucial for many insects to adapt to seasonal changes in temperate regions. It was recently shown that the circadian clock genes period (per) and cycle (cyc) are involved in the photoperiodic regulation of reproductive diapause in the bean bug Riptortus pedestris females. Here, we investigated the involvement of per and cyc both in the circadian rhythm of cuticle deposition and in the photoperiodic diapause of R. pedestris males using RNA interference (RNAi). RNAi of per and cyc disrupted the cuticle deposition rhythm and resulted in distinct cuticle layers. RNAi of per induced development of the male reproductive organs even under diapause-inducing short-day conditions, whereas RNAi of cyc suppressed development of the reproductive organs even under diapause-averting long-day conditions. Thus, the present study suggests that the circadian clock operated by per and cyc governs photoperiodism of males as that of females.     

In Vivo Growth of Romanomermis culicivorax: Biochemical Changes During Parasitism

Biochemical analyses of total protein, lipid, carbohydrate, DNA, amino acid, and length, width, and dry weight measurements are reported for different stages of Romanomermis culicivorax cultured in the mosquito, Culex pipiens. The Bradford technique for assaying total protein was the most sensitive and reliable biochemical technique tested for assaying in vivo growth of R. culicivorax. Increases in total protein, lipid, carbohydrate, and dry weight during growth from preparasite to postparasite were greater than 6,900-fold for females and 2,300-fold for males. DNA increased 650-fold and 233-fold during development to female and male postparasites, respectively. The proportions of amino acids for preparasites were significantly different (P ≤ 0.01) from female and male postparasites for all amino acids tested, except methionine and tyrosine. Female and male postparasites were similar in protein, lipid, carbohydrate, DNA, and most amino acid proportions, but were significantly different in relative concentrations of serine, glycine, and alanine (P ≤ 0.01). Preliminary results suggest that the use of amino acid ratios from female postparasites improves the in vitro culture performance of R. culicivorax.     

Schistosoma japonicum: Tsunagi/Y14 protein plays a critical role in the development of the reproductive organs and eggs

Tsunagi/Y14 is an evolutionarily conserved RNA-binding protein that is required for the maintenance of oogenesis and the masculinization of the germ-line in many animal models. We speculated that Tsunagi/Y14 might also regulate reproductive organ development in Schistosoma japonicum (S. japonicum, Sj). Sj Tsunagi/Y14 and control double-stranded RNAs were introduced into schistosomula by electroporation respectively. These transfected schistosomula were cultured in vitro for 1, 3 or 5 days. The mRNA and protein levels of the target gene in the cultured schistosomula were significantly suppressed compared with those of the control group. Furthermore, BALB/c mice were infected with the transfected schistosomula for 6 weeks and were sacrificed to harvest the adult worms. We found that the silencing of Sj Tsunagi/Y14 led to defects in reproductive organs development in both male and female worms. Moreover, it also affected the size, quantity and activity of the eggs in the mice liver. Our findings indicated that Tsunagi/Y14 plays a critical role in the development of reproductive organs and eggs in S. japonicum.     

The CER3 wax biosynthetic gene from Arabidopsis thaliana is allelic to WAX2/YRE/FLP1

The cuticle coats the aerial organs of land plants and is composed of a cutin matrix embedded and overlayed with waxes. The Arabidopsis CER3 gene is important for cuticular wax biosynthesis and was reported to correspond to At5g02310 encoding an E3 ubiquitin ligase. Here, we demonstrate that CER3 is not At5g02310 and instead corresponds to WAX2/YRE/FLP1 (At5g57800), a gene of unknown function required for wax biosynthesis. CER3 protein has also been implicated in cutin production because strong cer3 alleles display organ fusions. Leaf cutin analysis of two cer3 alleles did not reveal significant differences in cutin load or composition, indicating that CER3 has no major role in leaf cutin formation.     

Sperm storage by spermatodoses in the spermatheca of Trioza alacris (Flor, 1861) hemiptera,psylloidea, triozidae: A structural and ultrastructural study

Female insects generally store sperm received during mating in specific organs of their reproductive tract, i.e., the spermathecae, which keep the sperm alive for a long time until fertilization occurs. We investigated spermatheca morphology and ultrastructure in the psylloidean insect Trioza alacris (Flor, 1861 ) in which spheroidal sperm packets that we refer to as ‘spermatodoses’ are found after mating. The ectoderm‐derived epithelium of the sac‐shaped spermatheca that has a proximal neck, consists of large secretory and flat cuticle‐forming cells. Secretory cells are characterized by a wide extracellular cavity, bordered by microvilli, in which electron‐dense secretion accumulates before discharge into the spermathecal lumen. The cuticle‐forming cells produce the cuticular intima of the organ and a peculiar specialized apical structure, through which secretion flows into the lumen. At mating, the male transfers bundles of sperm cells embedded in seminal fluid into the spermathecal neck. Sperm cells proceed towards the spermathecal sac lumen, where they are progressively compacted and surrounded with an envelope that also encloses secretions of both male and female origin. We describe the formation of these sperm containing structures and document the contribution of the female secretion to spermatodose or female‐determined spermatophore construction. We also discuss the choice of the term ‘spermatodose’ for T. alacris and suggest it be used to refer to sperm masses constructed in the female reproductive organs, at least when they involve the contribution of female secretion. © 2011 Wiley Periodicals, Inc.     

Laccase2 is required for cuticular pigmentation in stinkbugs

During the maturation of insect cuticle, protein-protein and protein-chitin crosslinkages are formed by the action of diphenoloxidases. Two types of diphenoloxidases, laccases and tyrosinases, are present in the insect cuticle. In coleopteran and hymenopteran insects, laccase2 gene has been identified as encoding an enzyme principally responsible for cuticular pigmentation and hardening, whereas biological roles of laccase genes in hemimetabolous insects remain to be established. Here we identified laccase2 genes from three hemipteran stinkbugs, Riptortus pedestris (Alydidae), Nysius plebeius (Lygaeidae) and Megacopta punctatissima (Plataspidae). In R. pedestris, laccase2 gene was highly expressed in epidermal tissues prior to molting. When the gene expression was suppressed by an RNA interference technique, cuticular pigmentation after molting were blocked depending on the dose of injected double-stranded RNA targeting the laccase2 gene. Similar results were obtained for N. plebeius and M. punctatissima. In all the stinkbug species, injecting 20 ng of double-stranded RNA was sufficient to prevent the cuticular maturation. These results indicate that laccase2 gene is generally required for cuticular pigmentation in different stinkbug families, highlighting its conserved biological function across diverse insect taxa.     

Spirocamallanus cricotus (Nematoda): isoelectric focusing and spectrophotometric characterization of its hemoglobin and that of its piscine host, Micropogonias undulatus

The hemoglobins of Spirocamallanus cricotus, a reddish-colored, camallanid nematode, and its Atlantic croacker fish host, Micropogonias undulatus, were characterized with spectrophotometry and isoelectric focusing. Hemoglobin from female parasites' perienteric fluid and homogenized male parasites gave Spectrophotometric peaks at 412, 539, and 575 nm, whereas female worms drained of perienteric fluid and homogenized differed by having a Soret peak of 408 nm. Changing the ionic strength of the buffer from 0.1 to 0.01 M shifted the Soret peak to 406 nm for the female parasites' perienteric fluid and ground male parasites and 404 nm for homogenized female parasites. In all cases, the β band had a higher absorption than the α band suggesting a high O₂ affinity for the parasite hemoglobin. Host hemoglobin had peaks of 406, 437, and 577 nm. Isoelectric focusing not only confirmed the Spectrophotometric evidence that host and parasite hemoglobins differed, but also showed that the parasite's analyzed hemoglobin fractions differed from one another by having different isoelectric points.     

Teratological Development in the Cephalic Anatomy of the Nematode Romanomermis culicivorax

Adults of Romanomermis culicivorax obtained from mass cultures were examined by scanning and transmission electron microscopy to determine the organization of their anterior sense organs. The normal pattern apparently consists of two lateral amphids plus six cephalic papillae. Lateral cephalic papillae contain two sense organs, each with a cuticular pore, while subdorsal and subventral papillae have three sense organs, each with a cuticular pore. About 30% of females and 80% of males examined showed aberrant developments in these sense organs. Both cuticle and underlying cells (hypodermis and neurons) are affected; some sense organs are absent while others are incompletely formed. Few aberrant worms were found in a smaller collection of worms reared in lower population densities. Perhaps aberrant forms are examples of teratological development resulting from, or promoted by, conditions used for mass rearing of biological control agents.     

The MIXTA-like Transcription factor MYB16 is a major regulator of cuticle formation in vegetative organs

Cuticle secreted on the surface of the epidermis of aerial organs protects plants from the external environment. We recently found that Arabidopsis MIXTA-like R2R3-MYB family members MYB16 and MYB106 regulate cuticle formation in reproductive organs and trichomes. However, the artificial miRNA (amiRNA)-mediated knockdown plants showed no clear phenotypic abnormality in vegetative tissues. In this study, we used RNA interference (RNAi) targeting MYB16 to produce plants with reduced expression of both MYB16 and MYB106. The rosette leaves of RNAi plants showed more severe permeable cuticle phenotypes than the myb106 mutants expressing the MYB16 amiRNA in the previous study. The RNAi plants also showed reduced expression of cuticle biosynthesis genes LACERATA and ECERIFERUM1. By contrast, expression of a gain-of-function MYB16 construct induced over-accumulation of waxy substances on leaves. These results suggest that MYB16 functions as a major regulator of cuticle formation in vegetative organs, in addition to its effect in reproductive organs and trichomes.     

Ascaris suum: electrophoretic characterization of reproductive tract and perienteric fluid polypeptides, and effects of seminal and uterine fluids on spermiogenesis.

Fluids isolated from the testis, seminal vesicle, uterus, and pseudocoelomic cavity of Ascaris suum were characterized using sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and measured for protein concentration, pH, and osmolarity. The testis and seminal fluids display much homology and share major polypeptide components having molecular weights of 15,000 and 35,000. A cytoplasmic extract of spermatids from the seminal vesicle exhibited a banding pattern nearly identical to that of testis fluid. The seminal fluid has unique major components of 57,000 and 150,000, and seminal fluid from individual worms showed differences in major band concentration and distribution of minor components. The uterine fluid has major polypeptides of 14,000, 16,000, 66,000, 74,000, 120,000, and 140,000, and exhibits more similarity to the perienteric fluid then either the seminal or testis fluids. Electrophoretic comparisons of four uterine regions revealed nearly identical banding patterns although somewhat higher concentrations of four major components occurred in certain segments. The male and female perienteric fluids have major bands at 40,000, 120,000, and 140,000, and the female fluid has more intense minor components of 90,000 and 115,000. Perienteric fluid from individual worms differed only in minor band distribution. The reproductive fluids have numerous minor components mostly from 20,000 to 70,000, while the perienteric fluid minor bands are mainly located in the 80,000 to 120,000 range. The pH of the seminal fluid (6.5) differs from that of the uterine fluid (7.7), and both seminal and uterine fluids are of lower osmolarity than the perienteric fluid. In vitro studies demonstrate that uterine fluid does not induce spermatid transformation into bipolar, ameboid spermatozoa, while the seminal fluid induces only lipid granule coalescence in either seminal vesicle or terminal testis spermatids.     

Ascaris suum cytochrome b5, an adult-specific secretory protein reducing oxygen-avid ferric hemoglobin

The anaerobic parasitic nematode Ascaris suum has an oxygen-avid hemoglobin in the perienteric fluid, the biological function of which remains elusive. Here, we report that Ascaris cytochrome b₅ is expressed specifically in the intestinal parasitic stage and is secreted into the perienteric fluid, thus co-localizing with Ascaris hemoglobin. We also found that cytochrome b₅ reduces Ascaris non-functioning ferric methemoglobin more efficiently than mammalian methemoglobin. Furthermore, a computer graphics model of the electron transfer complex between Ascaris cytochrome b₅ and Ascaris hemoglobin strongly suggested that these two proteins are physiological redox partners. Nitric oxide has been reported to react easily with oxygen captured in hemoglobin to form nitrate, but not toxic free radicals, which may result in production of methemoglobin for the cytochrome b₅ to regenerate functional ferrous hemoglobin. Therefore, our findings suggest that Ascaris cytochrome b₅ is a key redox partner of Ascaris hemoglobin, which acts as an antioxidant.     

Variation in cuticular hydrocarbon signatures, hormonal correlates and establishment of reproductive dominance in a polistine wasp

In many social insects the relationship between reproductive dominance and physiological correlates is poorly understood. Recent evidence now strongly suggests that cuticular hydrocarbons are important in reproductive differentiation in these societies where they are used as signals of ovarian activity in reproductive females. In this study we investigated the relationship between reproductive dominance, size of the corpora allata (CA, producer of Juvenile Hormone, JH) and the proportions of cuticular hydrocarbons present on the cuticle in overwintering foundresses and both associative (polygynous) and solitary (monogynous) pre-emergence colonies of the social wasp Polistes dominulus. Size of the CA was positively correlated with ovarian development in polygynous colonies. In contrast, solitary foundresses possessed significantly smaller CAs than dominant foundresses from polygynous nests, yet ovarian activity was similar for both female types. CA size variation was associated with variation in cuticular hydrocarbon proportions. Overwintering, solitary, dominant and subordinate (from associative nests) females all possessed distinctive cuticular chemical profiles revealed by multivariate discriminant analyses. Our data indicate that the social environment strongly affects reproductive physiology in this wasp, and we discuss the role of cuticular hydrocarbons in reproductive signaling in P. dominulus and other social insects.     

Mermis nigrescens: physiological relationship with its host, the adult desert locust Schistocerca gregaria

Adult desert locusts were experimentally infected per os with 30, 50, or 60 Mermis nigrescens eggs, and changes in the host physiology were recorded. Larval nematodes were recovered from the hemocoel and counted at appropriate times after infection. The food consumption and blood volume of the host were unaffected by the parasitism, but the nematode significantly impaired the ability of male locusts to excrete the injected dye, amaranth, from their hemolymph. The total carbohydrate in the hemolymph of infected male and female locusts was severely depleted during the active growth period of the nematode and the possible utilization of these carbohydrates by the nematode are discussed. The total amino acid and protein levels in the blood of the host were unaffected by the nematode development, although concomittant changes in the levels of both these blood metabolites occurred in all locusts throughout the experimental period. However, although changes of this nature reflected the normal pattern of protein synthesis during oocyte development and oviposition in control locusts, the nematode suppressed oocyte development and caused oocyte resorption in the female host. The nematode did not significantly affect the level of total protein and amino acids in the flight muscles of male and female locusts, but a significant decrease in the level of fat body proteins and amino acids was recorded in infected hosts 16 and 21 days after infection. The possible effect of the nematode on protein metabolism by the host fat body is discussed in relation to the nutritional requirements of the nematode and involvement of the host endocrine system.     

A hundred-year-old question: is the moss calyptra covered by a cuticle? A case study of Funaria hygrometrica

Background and Aims

The maternal gametophytic calyptra is critical for moss sporophyte development and ultimately sporogenesis. The calyptra has been predicted to protect the sporophyte apex, including the undifferentiated sporogenous region and seta meristem, from desiccation. We investigate the hypothesis that this waterproofing ability is due to a waxy cuticle. The idea that moss calyptrae are covered by a cuticle has been present in the literature for over a century, but, until now, neither the presence nor the absence of a cuticle has been documented for any calyptra.

Methods

The epidermis of the calyptra, leafy gametophyte and sporophyte sporangia of the moss Funaria hygrometrica were examined using scanning and transmission electron microscopy. Thicknesses of individual cuticle layers were quantified and compared statistically. The immunochemistry antibody (LM19) specific for pectins was used to locate cell wall material within the cuticle.

Key Results

A multi-layered cuticle is present on the calyptra of F. hygrometrica, including layers analogous to the cuticular layer, cell wall projections, electron-lucent and electron-dense cuticle proper observed in vascular plants. The calyptra rostrum has a cuticle that is significantly thicker than the other tissues examined and differs by specialized thickenings of the cuticular layer (cuticular pegs) at the regions of the anticlinal cell walls. This is the first documentation of cuticular pegs in a moss.

Conclusions

The calyptra and its associated cuticle represent a unique form of maternal care in embryophytes. This organ has the potential to play a critical role in preventing desiccation of immature sporophytes and thereby may have been essential for the evolution of the moss sporophyte.     

Lactation during hibernation in wild black bears: effects on plasma amino acids and nitrogen metabolites.

This study examined the seasonal and reproductive influences on individual plasma amino acid concentrations and nitrogen metabolites in a black bear population (Ontario, Canada). During hibernation, 11 of 23 plasma amino acids were significantly higher (13%-108%) in lactating than in nonlactating females, without an alteration in plasma total protein or total essential or nonessential amino acid levels. The greatest changes were observed in glutamine, arginine, and glycine levels. Plasma urea, urea/creatinine, and ammonia levels were significantly lower in hibernating compared with active female bears, but lactation had no effect on these parameters. Taken together these results show that lactation during hibernation is an additional metabolic challenge that results in increased mobilization of individual plasma amino acids and no accumulation of nitrogen end products, underlining the remarkable efficiency of amino acid and urea recycling in denning female black bears.     

A matrix metalloproteinase mediates airway remodeling in Drosophila

Organ size typically increases dramatically during juvenile growth. This growth presents a fundamental tension, as organs need resiliency to resist stresses while still maintaining plasticity to accommodate growth. The extracellular matrix (ECM) is central to providing resiliency, but how ECM is remodeled to accommodate growth is poorly understood. We investigated remodeling of Drosophila respiratory tubes (tracheae) that elongate continually during larval growth, despite being lined with a rigid cuticular ECM. Cuticle is initially deposited with a characteristic pattern of repeating ridges and valleys known as taenidia. We find that for tubes to elongate, the extracellular protease Mmp1 is required for expansion of ECM between the taenidial ridges during each intermolt period. Mmp1 protein localizes in periodically spaced puncta that are in register with the taenidial spacing. Mmp1 also degrades old cuticle at molts, promotes apical membrane expansion in larval tracheae, and promotes tube elongation in embryonic tracheae. Whereas work in other developmental systems has demonstrated that MMPs are required for axial elongation occurring in localized growth zones, this study demonstrates that MMPs can also mediate interstitial matrix remodeling during growth of an organ system.     

Developmental analyses reveal early arrests of the spore-bearing parts of reproductive organs in unisexual flowers of cucumber (<Emphasis Type="Italic">Cucumis sativus</Emphasis> L.)

To understand the regulatory mechanisms governing unisexual flower development in cucumber, we conducted a systematic morphogenetic analysis of male and female flower development, examined the dynamic changes in expression of the C-class floral organ identity gene CUM1, and assessed the extent of DNA damage in inappropriate carpels of male flowers. Accordingly, based on the occurrence of distinct morphological events, we divided the floral development into 12 stages ranging from floral meristem initiation to anthesis. As a result of our investigation we found that the arrest of stamen development in female flowers, which occurs just after the differentiation between the anther and filament, is mainly restricted to the primordial anther, and that it is coincident with down-regulation of CUM1 gene expression. In contrast, the arrest of carpel development in the male flowers occurs prior to the differentiation between the stigma and ovary, given that no indication of ovary differentiation was observed even though CUM1 gene expression remained detectable throughout the development of the stigma-like structures. Although the male and female reproductive organs have distinctive characteristics in terms of organ differentiation, there are two common features regarding organ arrest. The first is that the arrest of the inappropriate organ does not affect the entirety of the organ uniformly but occurs only in portions of the organs. The second feature is that all the arrested portions in both reproductive organs are spore-bearing parts.Abbreviations SEM Scanning electron microscopy - TEM Transmission electron microscopy - TUNEL TdT-mediated dUTP nick-end labeling     

Male Seminal Fluid Substances Affect Sperm Competition Success and Female Reproductive Behavior in a Seed Beetle

Male seminal fluid proteins are known to affect female reproductive behavior and physiology by reducing mating receptivity and by increasing egg production rates. Such substances are also though to increase the competitive fertilization success of males, but the empirical foundation for this tenet is restricted. Here, we examined the effects of injections of size-fractioned protein extracts from male reproductive organs on both male competitive fertilization success (i.e., P2 in double mating experiments) and female reproduction in the seed beetle Callosobruchus maculatus. We found that extracts of male seminal vesicles and ejaculatory ducts increased competitive fertilization success when males mated with females 1 day after the females’ initial mating, while extracts from accessory glands and testes increased competitive fertilization success when males mated with females 2 days after the females’ initial mating. Moreover, different size fractions of seminal fluid proteins had distinct and partly antagonistic effects on male competitive fertilization success. Collectively, our experiments show that several different seminal fluid proteins, deriving from different parts in the male reproductive tract and of different molecular weight, affect male competitive fertilization success in C. maculatus. Our results highlight the diverse effects of seminal fluid proteins and show that the function of such proteins can be contingent upon female mating status. We also document effects of different size fractions on female mating receptivity and egg laying rates, which can serve as a basis for future efforts to identify the molecular identity of seminal fluid proteins and their function in this model species.     

The cuticular proteins from free-living and parasitic stages of Haemonchus contortus--I. Isolation and partial characterization

1. Cuticles were isolated from the adult males, adult females, the second molt (2M) sheath from the infective larvae (L3(2M)), and the parasitic third stage (L3) of the sheep parasite Haemonchus contortus by a combination of mechanical disruption and detergent treatment. 2. The 2ME soluble cuticular proteins from adult males contained 4 or 5 major protein bands with molecular weights ranging from 100 to 56 kD with the most prominent band at 56 kD. The cuticular proteins from adult females were similar to the male. 3. Cuticular proteins from the larval stages, 2M cuticle, and L3 cuticle, differed from the adults and from each other. The most prominent protein bands were observed with molecular weights on 78 and 39 kD for the L3 cuticle and 100, 91 and 46 kD for the 2M cuticle. The 2ME soluble cuticular proteins from all developmental stages were at least partially digested by bacterial collagenase. 4. The amino acid composition of cuticular proteins was similar for the L3 and 2M, but adults had lesser amounts of glycine and greater amounts of basic amino acids than the larval stages. The amount of the isolated cuticle solubilized by the 2ME treatment was greatest in adults (80%) compared to the L3 (64%) and the 2M (22%). 5. These results support a hypothesis that there are quantitative and qualitative stage specific differences in the cuticular proteins of H. contortus.