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Insect Reproduction (insect + reproduction)
Selected AbstractsNeuroendocrinological and Molecular Aspects of Insect ReproductionJOURNAL OF NEUROENDOCRINOLOGY, Issue 8 2004G. Simonet Abstract This review summarizes recent advances and novel concepts in the area of insect reproductive neuroendocrinology. The role of ,classic' hormones, such as ecdysteroids and juvenoids, to control reproduction is well documented in a large variety of insect species. In adult gonads, ecdysteroids appear to induce a cascade of transcription factors, many of which also occur during the larval molting response. Recent molecular and functional data have created opportunities to study an additional level of regulation, that of neuropeptides, growth factors and their respective receptors. As a result, many homologs of factors playing a role in vertebrate reproductive physiology have been discovered in insects. This review highlights several neuropeptides controlling the biosynthesis and release of the ,classic' insect hormones, as well as various peptides and biogenic amines that regulate behavioural aspects of the reproduction process. In addition, hormone metabolizing enzymes and second messenger pathways are discussed with respect to their role in reproductive tissues. Finally, we speculate on future prospects for insect neuroendocrinological research as a consequence of the recent ,Genomics Revolution'. [source] Insect gonadotropic peptide hormones: some recent developmentsJOURNAL OF PEPTIDE SCIENCE, Issue 1 2007Mariola Kuczer Abstract Gonadotropic peptides are a new generation of peptide hormone regulators of insect reproduction. They have been isolated from ovaries, oviducts, or brains of insects. The subject of this paper is insect peptides that exert stimulatory or inhibitory effects on ovarian development and oocyte maturation. On the basis of the literature data and the results of our investigations, the structure and biological properties of different groups of peptides are presented. Copyright © 2006 European Peptide Society and John Wiley & Sons, Ltd. [source] Putative-farnesoic acid O -methyltransferase (FAMeT) in medfly reproductionARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 2 2010Laura Vannini Abstract A gene potentially involved in juvenile hormone (JH) biosynthesis was previously identified in Ceratitis capitata as the putative- farnesoic acid O-methyltransferase (FAMeT). Since JH is involved in insect reproduction, we silenced the putative-FAMeT expression by RNA interference in Ceratitis capitata to evaluate its implication in egg production. FAMeT gene expression was knocked down in females and males after eclosion and in 1- and 2-day-old females. Treated specimens were left to mate with each other or with untreated partners to evaluate the extent of each sex influencing egg production. Gene silencing was investigated by Real-Time PCR. Results unambiguously showed that FAMeT has a measurable role on the fertility of both medfly sexes. © 2010 Wiley Periodicals, Inc. [source] Juvenile hormone,stimulated synthesis of acyl-glycerols and vitamin E in female accessory sexual glands of the fire bug, Pyrrhocoris apterus L.ARCHIVES OF INSECT BIOCHEMISTRY AND PHYSIOLOGY (ELECTRONIC), Issue 1 2009Pavel Jedli Abstract Secretory cells of the female accessory sexual glands (AG) of P. apterus grow and produce yellow oily exocrine secretion in response to stimulation by endogenous juvenile hormone (JH) or exogenous treatments by JH analogues. The secretion determines the property of future egg shells by coating the chorion surface of the oocytes that are passing individually through the common uterus during oviposition. Diapausing females with a physiologically inhibited endocrine system or females with artificially removed hormonal sources show inactive ovaries and empty AG without the secretory products. Ovary-ectomised females with the intact neuroendocrine system develop hypertrophic AG loaded with the oily secretion. This shows that there is no direct dependence between formation of the oily secretion in AG and ovarian growth. Chemical analysis of the secretory products revealed the presence of acetylated glycerols, with the most abundant stearoyl-diacetyl-glycerol, stearoyl-acetyl-propionyl-glycerol, and the corresponding derivatives of arachidonic acid. In addition to this, the JH-activated secretory cells of AG also produced , - and , -tocopherols. The possible antioxidant or antimutagenic action of these vitamin E compounds in insect reproduction has been emphasized. © 2009 Wiley Periodicals, Inc. [source] Mapping members of the Anopheles gambiae complex using climate dataPHYSIOLOGICAL ENTOMOLOGY, Issue 3 2004S. W. Lindsay Abstract., Climate is the most important factor governing the distribution of insects over large areas. Warmth and moisture are essential for most insects' reproduction, development and survival. Here, it is shown that the principal vectors of malaria in Africa, members of the Anopheles gambiae complex, flourish within specific climate envelopes. By identifying these climatic conditions empirically, using climate or environmental databases, it is possible to map the distribution and relative abundance of mosquito species, and their chromosomal forms, at continental scales. Alternatively, mathematical models based on a fundamental understanding of how mosquitoes are affected by different climate factors, such as temperature and humidity, can also be employed to map distributions. Empirical or process-driven models based on climate, or other environmental variables, provide simple tools for mapping the distribution and relative abundance of vectors at a coarse scale over large areas. [source] |