Moreover, neurons in the habenula, pallium, and midbrain respond

Moreover, neurons in the habenula, pallium, and midbrain respond dynamically to the changing characteristics of an environment [2••]. learn more This approach can now be used to identify neural activation during learning tasks. Although several memory tasks have been developed for zebrafish, few of the genes that control this behaviour have been identified. A mutant line that fails to change place-preference following amphetamine administration (thus demonstrating

a learning deficit) has been described, but the mutated gene has not been cloned [35]. Further work is required to uncover the molecular players involved in learning as well as developing novel paradigms to fully probe the cognitive ability of this species. Zebrafish have an innate preference to associate with conspecifics. The absence of social interaction appears to be stressful; when tested individually fish show increased cortisol levels and behavioural variability compared to group-tested animals [9•]. Zebrafish begin to shoal between 7 and 87 days post-fertilisation and show correlated strain-dependent

changes in DA and 5-HT levels hinting at a neurochemical basis for this behaviour [36]. Kin recognition is an important step in the evolution of social behaviour. Zebrafish larvae exposed to kin at day 5 and 6 days post-fertilisation recognise each other throughout their life, due to a combination of visual and olfactory imprinting. This process involves the major histocompatibility complex (MHC) code, which influences HSP activation the chemical and visual features that zebrafish display [37]. Zebrafish appear to only imprint upon kin expressing similar MHC class II genes, and this process is likely olfactory based, because MHC peptides

can activate a subset of neurons in the olfactory bulb [38•]. Social behaviour can also be influenced by exposure to other chemicals during development. Fish treated with ethanol at early embryonic stages show decreased individual social behaviour and shoaling, increased anxiety and concomitant alterations in the expression level of the genes hrt1aa (5-HT receptor 1a), slc6a4 (serotonin transporter) and oxtr (oxytocin receptor) [39]. Adult zebrafish glucocorticoid receptor (GR) mutants have high cortisol levels and show Bay 11-7085 changes to social behaviour including reduced exploratory behaviour, immobility and lack of habituation to a novel tank. Fluoxetine treatment both restores normal behaviour and normalises cortisol levels, making it possible to study the link between the stress axis and emotional behaviour [40]. The abundance of tools available in zebrafish suggests that this model is ideal to investigate the genetic basis of social behaviour. Recent studies have identified novel genes and neurotransmitters that control zebrafish aggression. Animals use aggression to protect themselves and their offspring, fight for resources and establish dominance hierarchies. Zebrafish aggression has a heritability estimate of 0.

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