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Female Heads (female + head)

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Life Sciences50%

Selected Abstracts

New results concerning the morphology of the most ancient dragonflies (Insecta: Odonatoptera) from the Namurian of Hagen-Vorhalle (Germany)

JOURNAL OF ZOOLOGICAL SYSTEMATICS AND EVOLUTIONARY RESEARCH, Issue 4 2001
G. Bechly
The holotype specimen of the ,protodonate'Erasipteroides valentini (Brauckmann in Brauckmann et al., 1985) and the paratype specimen K-13 of the giant ,protodonate'Namurotypus sippeliBrauckmann and Zessin, 1989 from the Upper Carboniferous (Namurian B) of Hagen-Vorhalle (Germany) are redescribed, and a new specimen of Erasipteroides cf. valentini is described. The new evidence is used to refine the groundplan reconstruction of Odonatoptera and the reconstruction of odonatoid phylogeny. Prothoracic winglets for Erasipteroides and the absence of an archaedictyon are documented. Furthermore, a very long and sclerotized ovipositor with gonangulum is described from the female holotype specimen of Erasipteroides valentini, and it is proposed that it was not used for endophytic but for endosubstratic oviposition. The record of prothoracic winglets in early odonatoids, and their presence in fossil Palaeodictyoptera and ,protorthopteres', indicates that the groundplan of Pterygota indeed included three pairs of wings. A phylogenetic analysis suggests that the Palaeozoic giant Meganisoptera and "higher" odonatoids (incl. crowngroup Odonata) together form a monophyletic group which is here named Euodonatoptera. Erasipteroides and the other ,Erasipteridae' are shown to be more closely related to Euodonatoptera than to Eugeropteridae. The description of the male primary genital structures of Namurotypus sippeli is emended and a new interpretation is proposed, including new hypotheses concerning their function. The males of Namurotypus had a paired penis with a pair of lateral parameres, and a pair of leaf-like, but still segmented, gonopods. Segmented leg-like male gonopods are considered as a groundplan character of insects, while a paired penis is regarded as a putative synapomorphy of the palaeopterous insect orders Palaeodictyopteroida, Ephemeroptera, and Odonatoptera. It is proposed that Namurotypus did not mate by direct copulation but retained the archaic deposition of external spermatophores, just like the primarily wingless insects. The sigmoidal male cerci may have been placed behind the female head and used to drag the female over the spermatophore, which is remotely similar to the mating behaviour of some extant arachnids (e.g. Amblypygi). Three hypothetical scenarios regarding the evolution of secondary copulation in modern Odonata are proposed. Neue Erkenntnisse zur Morphologie der ältesten Libellen (Insecta: Odonatoptera) aus dem Namurium von Hagen-Vorhalle (Deutschland) Das Holotypusexemplar der ,Protodonate'Erasipteroides valentini (Brauckmann in Brauckmann et al., Geol. Paläont. Westfalen 3, 1,131, 1985) und das Paratypusexemplar K-13 der riesenwüchsigen ,Protodonate'Namurotypus sippeliBrauckmann and Zessin, 1989 aus dem Oberkarbon (Namurium B) von Hagen-Vorhalle (Deutschland) werden wiederbeschrieben. Die neuen Erkenntnisse werden zu einer Präzisierung der Grundplanrekonstruktion der Odonatoptera und für die Rekonstruktion der Libellenstammesgeschichte verwendet. Für Erasipteroides werden prothorakale Flügelchen beschrieben und das Fehlen eines Archaedictyons wird belegt. Des weiteren wird ein sehr langer und sklerotisierter Ovipositor mit Gonangulum für das weibliche Holotypusexemplar von Erasipteroides valentini beschrieben, und es wird vorgeschlagen, dass dieser nicht zur endophytischen Eiablage, sondern zur endosubstratischen Eiablage diente. Der Nachweis prothorakaler Flügelchen bei frühen Libellen sowie deren Vorkommen bei fossilen Palaeodictyoptera und ,Protorthopteren', deutet darauf hin, dass zum Grundplan der Pterygota drei Flügelpaare gehörten. Eine phylogenetische Analyse legt nahe, dass die riesenwüchsigen Meganisoptera des Paläozoikums und die ,höheren' Odonaten (inkl. Kronengruppe Odonata) gemeinsam eine monophyletische Gruppe bilden, die hier als Euodonatoptera benannt wird. Es wird gezeigt, dass Erasipteroides und die übrigen ,Erasipteridae' näher mit den Euodonatoptera verwandt sind als die Eugeropteridae. Die Beschreibung der primären männlichen Geschlechtsorgane von Namurotypus sippeli wird ergänzt, und eine neue Interpretation sowie neue Hypothesen zu deren Funktion werden vorgestellt. Die Männchen von Namurotypus besaßen einen paarigen Penis mit einem Paar lateraler Parameren und einem Paar blattartiger, aber noch segmentierter Gonopoden. Segmentierte, beinartige, männliche Gonopoden werden als Grundplanmerkmale der Insekten angesehen, während ein paariger Penis als potentielle Synapomorphie der paläopteren Insektenordnungen Palaeodictyopteroida, Ephemeroptera und Odonatoptera betrachtet wird. Es wird vorgeschlagen, dass die Paarung bei Namurotypus nicht durch eine direkte Kopulation ablief, sondern durch das Absetzen freier Spermatophoren, so wie bei den primär flügellosen Insekten. Die sigmoidalen männlichen Cerci könnten hinter dem weiblichen Kopf platziert worden sein, um das Weibchen über die Spermatophore zu dirigieren, ähnlich dem Paarungsverhalten mancher rezenter Spinnentiere (z.B. Amblypygi). Drei hypothetische Szenarien zur Evolution der sekundären Kopulation bei modernen Libellen werden vorgestellt. [source]

Cross-state variation in Medicaid programs and female labor supply

ECONOMIC INQUIRY, Issue 3 2000
E Montgomery
Using a pooled cross-section data set from the 1980 through 1993 Current Population Survey March Supplements, we test if different Medicaid benefit levels across states impact the labor supply behavior of female heads of households. The ordinary least square (OLS) results support the prediction that Medicaid expenditures reduce labor supply. Controlling for state fixed or random effects alters the effect of both AFDC and Medicaid on the decision to participate as well as the number of hours worked. We also find that while the effects of program generosity are sensitive to the inclusion of state effects those of variation in eligibility thresholds are not. [source]

Molecular characterization of a prophenoloxidase cDNA from the malaria mosquito Anopheles stephensi

INSECT MOLECULAR BIOLOGY, Issue 2 2000
L. Cui
Abstract Some refractory anopheline mosquitoes are capable of killing Plasmodium, the causative agent of malaria, by melanotic encapsulation of invading ookinetes. Phenoloxidase (PO) appears to be involved in the formation of melanin and toxic metabolites in the surrounding capsule. A cDNA encoding Anopheles stephensi prophenoloxidase (Ans-proPO) was isolated from a cDNA library screened with an amplimer produced by reverse transcriptase polymerase chain reaction (RT-PCR) with degenerate primers designed against conserved proPO sequences. The 2.4-kb-long cDNA has a 2058 bp open reading frame encoding Ans-proPO of 686 amino acids. The deduced amino acid sequence shows significant homology to other insect proPO sequences especially at the two putative copper-binding domains. In A. stephensi, Ans-proPO expression was detected in larval, pupal and adult stages. The Ans-proPO mRNA was detected by RT-PCR and in situ hybridization in haemocytes, fat body and epidermis of adult female mosquitoes. A low level of expression was detected in the ovaries, whereas no expression was detected in the midguts. Semi-quantitative RT-PCR analysis of Ans-proPO mRNA showed that its expression was similar in adult female heads, thoraxes and abdomens. No change in the level of Ans-proPO expression was found in adult females after blood feeding, bacterial challenge or Plasmodium berghei infection. However, elevated PO activity was detected in P. berghei -infected mosquitoes, suggesting that in non-selected permissive mosquitoes PO may be involved in limiting parasite infection. Genomic Southern blot and immunoblots suggest the presence of more than one proPO gene in the A. stephensi genome, which is consistent with the findings in other Diptera and Lepidoptera species. The greatest similarity in sequence and expression profile between Ans-proPO and A. gambiae proPO6 suggests that they might be homologues. Our results demonstrate that Ans-proPO is constitutively expressed through different developmental stages and under different physiological conditions, implying that other factors in the proPO activation cascade regulate melanotic encapsulation. [source]

Identification and expression of odorant-binding proteins of the malaria-carrying mosquitoes Anopheles gambiae and Anopheles arabiensis

ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 3 2005
Zheng-Xi Li
Abstract Host preference and blood feeding are restricted to female mosquitoes. Olfaction plays a major role in host-seeking behaviour, which is likely to be associated with a subset of mosquito olfactory genes. Proteins involved in olfaction include the odorant receptors (ORs) and the odorant-binding proteins (OBPs). OBPs are thought to function as a carrier within insect antennae for transporting odours to the olfactory receptors. Here we report the annotation of 32 genes encoding putative OBPs in the malaria mosquito Anopheles gambiae and their tissue-specific expression in two mosquito species of the Anopheles complex; a highly anthropophilic species An. gambiae sensu stricto and an opportunistic, but more zoophilic species, An. arabiensis. RT-PCR shows that some of the genes are expressed mainly in head tissue and a subset of these show highest expression in female heads. One of the genes (agCP1588) which has not been identified as an OBP, has a high similarity (40%) to the Drosophila pheromone-binding protein 4 (PBPRP4) and is only expressed in heads of both An. gambiae and An. arabiensis, and at higher levels in female heads. Two genes (agCP3071 and agCP15554) are expressed only in female heads and agC15554 also shows higher expression levels in An. gambiae. The expression profiles of the genes in the two members of the Anopheles complex provides the first step towards further molecular analysis of the mosquito olfactory apparatus. Arch. Insect Biochem. Physiol. 58:175,189, 2005. © 2005 Wiley-Liss, Inc. [source]