Thus, turbot production significantly increased in Northern China during the last decade. However, fish disease outbreaks collapsed its production in 2006, with economic losses estimated to amount several hundred million Euros. It seems clear that one of the major concerns for turbot aquaculture is disease control.Intensive Lapatinib chemical structure culture condi tions in fish farms favors the proliferation of pathogens and the consequent economic losses associated with dis ease outbreaks. Hence, a comprehensive knowledge of the immune system of commercially important fish spe cies is required. The immune prophylactic control of fish diseases through vaccination, probiotics and im munostimulation has been undertaken since long ago, whereas genetic programs on disease resistance, specifically in turbot, clearly require further investigation.
Obtaining resistant broodstock is an appealing solution to control diseases in Inhibitors,Modulators,Libraries front of the economic cost of vaccines, treatments and the possible generation of resistances against antibiotics. Another major concern for the aquaculture Inhibitors,Modulators,Libraries industry is fish reproduction. Like in other vertebrates, reproduction in turbot is controlled by the brain pituitary gonad axis, which integrates environmental signals and controls the production and secretion Inhibitors,Modulators,Libraries of the major hormones in volved in controlling the reproductive cycle, including the onset of puberty. Furthermore, turbot exhibits one of the largest cases of sexual dimorphism for growth rate in favor of females among aquacultured species. Therefore, there is an interest in the turbot aquaculture industry to produce stocks with as many females as possible in order to increase biomass.
Gonad development is a complex biological Inhibitors,Modulators,Libraries process in which an undifferentiated bipotential gonad is transformed into either a testis or an ovary according to sex determination and differentiation. External factors such as temperature, pH or social behavior can directly influence gonadal development in some fish and, consequently, affect sex ratio. Understanding the process of gonadal Inhibitors,Modulators,Libraries development can greatly aid in the control of sex ratios in finfish aquaculture. However, in turbot there is a lack of information of genes involved in reproduction and their interactions. The induction of gynogenesis suggested a XX XY system of sex determination, but later studies involving the analysis of progenies from sex reversed parents revealed a ZW ZZ system.
Linkage maps were developed and led to the identification of the major sex determining region and facilitated the characterization and mapping of sex associated Imatinib Mesylate msds markers, although the sex determining gene is still unknown. Despite recent increases in the number of Expressed Sequence Tags for flatfish, their resources are still limited when compared to those available for sal monids.