Discrimination reversal and attentional sets in zebrafish (Danio rerio)

Behavioural Brain Research

Volumn 232, Issue 1, 2012, Pages 264-268

  Parker, Matthew O ^a   Gaviria, Jessica ^a   Haigh, Alastair ^a   Millington, Mollie E ^a   Brown, Verity J ^b   Combe, Fraser J ^a   Brennan, Caroline H ^a  

^a QUEEN MARY UNIVERSITY OF LONDON   (United Kingdom)

^b UNIVERSITY OF ST ANDREWS   (United Kingdom)

Author keywords

Attention; Attentional set; Intra dimensional shift; Reversal learning; Zebrafish

Indexed keywords

ANIMAL EXPERIMENT; ARTICLE; ASSOCIATION; ATTENTION; BEHAVIORAL SCIENCE; COLOR DISCRIMINATION; CONTROLLED STUDY; DECISION MAKING; DISCRIMINATION LEARNING; EXPERIMENTAL MODEL; LEARNING; NEUROSCIENCE; NONHUMAN; PRIORITY JOURNAL; REINFORCEMENT; ZEBRA FISH;

ANIMALS; ARTEMIA; ATTENTION; CHOICE BEHAVIOR; COLOR PERCEPTION; CUES; DISCRIMINATION (PSYCHOLOGY); DISCRIMINATION LEARNING; REVERSAL LEARNING; ZEBRAFISH;

EID: 84860662874     PISSN: 01664328     EISSN: 18727549     Source Type: Journal    
DOI: 10.1016/j.bbr.2012.04.035     Document Type: Article

References (34)

1. Guo S. Linking genes to brain, behavior and neurological diseases: what can we learn from zebrafish?. Genes, Brain, and Behavior 2004, 3:63-74.
2. Best J., Zebrafish A.W.K. An in vivo model for the study of neurological diseases. Neuropsychiatric Disease and Treatment 2008, 4:567.
3. Gerlai R. Using zebrafish to unravel the genetics of complex brain disorders. Current Topics in Behavioral Neurosciences 2012.
4. Levin E.D. Zebrafish assessment of cognitive improvement and anxiolysis: filling the gap between in vitro and rodent models for drug development. Reviews in the Neurosciences 2011, 22:75-84.
5. Levin E.D., Cerutti DT Behavioral neuroscience of zebrafish. Methods of behavior analysis in neuroscience 2009, CRC Press, Boca Raton (FL). J.J. Buccafusco (Ed.).
6. Norton W., Bally-Cuif L. Adult zebrafish as a model organism for behavioural genetics. BMC Neuroscience 2010, 11:90.
7. Maximino C., Herculano A.M. A review of monoaminergic neuropsychopharmacology in zebrafish. Zebrafish 2010, 7:359-378.
8. Brennan C.H. Zebrafish behavioural assays of translational relevance for the study of psychiatric disease. Reviews in the Neurosciences 2011, 22:37-48.
9. Parker M.O., Millington M.E., Combe F.J., Brennan C.H. Development and implementation of a three-choice serial reaction time task for zebrafish (Danio rerio). Behavioural Brain Research 2012, 227:73-80.
10. Bitterman M. Phyletic differences in learning. American Psychologist 1965, 20:396.
11. Bitterman M., Mackintosh N. Habit reversal and probability learning: rats, birds and fish. Animal Discrimination Learning 1969, 163-185.
12. Gonzalez R.C., Behrend E.R., Bitterman M.E. Reversal learning and forgetting in bird and fish. Science 1967, 158:519-521.
13. Wodinsky J., Bitterman M.E. Discrimination-reversal in the fish. The American Journal of Psychology 1957, 70:569-576.
14. Brown V.J., Bowman E.M. Rodent models of prefrontal cortical function. Trends in Neurosciences 2002, 25:340-343.
15. Crutch S.J., Warrington E.K. Contrasting patterns of comprehension for superordinate, basic-level, and subordinate names in semantic dementia and aphasic stroke patients. Cognitive Neuropsychology 2008, 25:582-600.
16. Rajalakshmi R., Jeeves M.A. The relative difficulty of reversal learning (reversal index) as a basis of behavioural comparisons. Animal Behaviour 1965, 13:203-211.
17. Clark L., Cools R., Robbins T. The neuropsychology of ventral prefrontal cortex: decision-making and reversal learning. Brain and Cognition 2004, 55:41-53.
18. Levin L.E., Vergara E. Reversal learning in groups of the schooling fish Aphyocharax erithrurus on an avoidance paddle. Journal of Comparative Psychology 1987, 101:317.
19. Engelhardt F., Woodard W.T., Bitterman M. Discrimination reversal in the goldfish as a function of training conditions. Journal of Comparative and Physiological Psychology 1973, 85:144.
20. Mackintosh N.J., Mackintosh J., Safriel-Jorne O., Sutherland N.S. Overtraining, reversal and extinction in the goldfish. Animal Behaviour 1966, 14:314-318.
21. Colwill R.M., Raymond M.P., Ferreira L., Escudero H. Visual discrimination learning in zebrafish (Danio rerio). Behavioural Processes 2005, 70:19-31.
22. Verbeke G., Molenberghs G. Linear mixed models for longitudinal data 2009, Springer Verlag.
23. McAlonan K., Brown V.J. Orbital prefrontal cortex mediates reversal learning and not attentional set shifting in the rat. Behavioural Brain Research 2003, 146:97-103.
24. Birrell J.M., Brown V.J. Medial frontal cortex mediates perceptual attentional set shifting in the rat. The Journal of Neuroscience 2000, 20:4320-4324.
25. Lapiz M., Morilak D. Noradrenergic modulation of cognitive function in rat medial prefrontal cortex as measured by attentional set shifting capability. Neuroscience 2006, 137:1039-1049.
26. Dias R., Robbins T., Roberts A. Primate analogue of the Wisconsin card sorting test: effects of excitotoxic lesions of the prefrontal cortex in the marmoset. Behavioral Neuroscience 1996, 110:872.
27. Robbins T. From arousal to cognition: the integrative position of the prefrontal cortex. Progress in Brain Research 2000, 126:469-483.
28. Clarke H., Walker S., Crofts H., Dalley J., Robbins T., Roberts A.C. Prefrontal serotonin depletion affects reversal learning but not attentional set shifting. The Journal of Neuroscience 2005, 25:532-538.
29. Rink E., Wullimann M.F. The teleostean (zebrafish) dopaminergic system ascending to the subpallium (striatum) is located in the basal diencephalon (posterior tuberculum). Brain Research 2001, 889:316-330.
30. Panula P., Sallinen V., Sundvik M., Kolehmainen J., Torkko V., Tiittula A., et al. Modulatory neurotransmitter systems and behavior: towards zebrafish models of neurodegenerative diseases. Zebrafish 2006, 3:235-247.
31. Warren J. The effect of telencephalic injuries on learning by paradise fish, Macropodus opercularis. Journal of Comparative and Physiological psychology 1961, 54:130.
32. Farr E.J., Savage G.E. First-and second-order conditioning in goldfish and their relation to the telencephalon1. Behavioral Biology 1978, 22:50-59.
33. Overmier J., Hollis K. Fish in the think tank: learning, memory, and integrated behavior. Neurobiology of Comparative Cognition 1990, 205-236.
34. Winstanley C.A., Dalley J.W., Theobald D.E.H., Robbins T.W. Fractionating impulsivity: contrasting effects of central 5-HT depletion on different measures of impulsive behavior. Neuropsychopharmacology 2004, 29:1331-1343.