Post-mating gene expression of Mexican fruit fly females: disentangling the effects of the male accessory glands.

Mating has profound physiological and behavioural consequences for female insects. During copulation, female insects typically receive not only sperm, but a complex ejaculate containing hundreds of proteins and other molecules from male reproductive tissues, primarily the reproductive accessory glands. The post-mating phenotypes affected by male accessory gland (MAG) proteins include egg development, attraction to oviposition hosts, mating, attractiveness, sperm storage, feeding and lifespan. In the Mexican fruit fly, Anastrepha ludens, mating increases egg production and the latency to remating. However, previous studies have not found a clear relationship between injection of MAG products and oviposition or remating inhibition in this species. We used RNA-seq to study gene expression in mated, unmated and MAG-injected females to understand the potential mating- and MAG-regulated genes and pathways in A. ludens. Both mating and MAG-injection regulated transcripts and pathways related to egg development. Other transcripts regulated by mating included those with orthologs predicted to be involved in immune response, musculature and chemosensory perception, whereas those regulated by MAG-injection were predicted to be involved in translational control, sugar regulation, diet detoxification and lifespan determination. These results suggest new phenotypes that may be influenced by seminal fluid molecules in A. ludens. Understanding these influences is critical for developing novel tools to manage A. ludens.

[Treatment of postpartum hemorrhage with intrauterine hydrostatic condom]. / Tratamiento de la hemorragia posparto con condón hidrostático intrauterine.

OBJECTIVE: To report of experience of intrauterine hydrostatic condom to control obstetric hemorrhage. MATERIAL AND METHOD: Descriptive, retro-prospective study. The method was use in patients who had obstetric hemorrhage and do not responded to medical management during the period from March 1st to August27, 2015 in a rural facility. RESULTS: 955 patients that had a vaginal delivery were identified, 40 (4.1%) of which needed the application of the method. The method was unsuccessful in 2 of 40 patients (5%), one requiring emergency obstetric hysterectomy and other exploratory laparotomy with conservative measures. 11 of 40 patients (2 7.5%) required at least 1-3 globular packs transfusion. None of the 38 patients (95%) who responded to the method presented endometritis in the postpartum follow up or complications associated with the use of hydrostatic condom. CONCLUSION: The use of intrauterine hydrostatic condom is an effective method to control postpartum obstetric hemorrhage secondary to uterine atony unresponsive to medical management.

Effects of amount and recurrence of leaf herbivory on the induction of direct and indirect defences in wild cotton.

The induction of defences in response to herbivory is a key mechanism of plant resistance. While a number of studies have investigated the time course and magnitude of plant induction in response to a single event of herbivory, few have looked at the effects of recurrent herbivory. Furthermore, studies measuring the effects of the total amount and recurrence of herbivory on both direct and indirect plant defences are lacking. To address this gap, here we asked whether insect leaf herbivory induced changes in the amount and concentration of extrafloral nectar (an indirect defence) and concentration of leaf phenolic compounds (a direct defence) in wild cotton (Gossypium hirsutum). We conducted a greenhouse experiment where we tested single event or recurrent herbivory effects on defence induction by applying mechanical leaf damage and caterpillar (Spodoptera frugiperda) regurgitant. Single events of 25% and 50% leaf damage did not significantly influence extrafloral nectar production or concentration. Extrafloral nectar traits did, however, increase significantly relative to controls when plants were exposed to recurrent herbivory (two episodes of 25% damage). In contrast, phenolic compounds increased significantly in response to single events of  leaf damage but not to recurrent damage. In addition, we found. that local induction of extrafloral nectar production was stronger than systemic induction, whereas the reverse pattern was observed for phenolics. Together, these results reveal seemingly inverse patterns of induction of direct and indirect defences in response to herbivory in wild cotton.