Tissue-specific expression of a type I adenylyl cyclase rescues the rutabaga mutant memory defect: in search of the engram

Tissue-specific expression of a type I adenylyl cyclase rescues the rutabaga mutant memory defect: in search of the engram

Most attempts to localize physical correlates of memory in the central nervous system (CNS) rely on ablation techniques. This approach has the limitation of defining just one of an unknown number of structures necessary for memory formation. We have used the Drosophila rutabaga type I Ca(2+)/CaM-dep...

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Veröffentlicht in:Learning & memory (Cold Spring Harbor, N.Y.) N.Y.), 2000-01, Vol.7 (1), p.18-31
Hauptverfasser: Zars, T, Wolf, R, Davis, R, Heisenberg, M
Format: Artikel
Sprache:eng
Schlagworte:
Adenylyl Cyclases - biosynthesis
Adenylyl Cyclases - genetics
Analysis of Variance
Animals
Avoidance Learning - physiology
Behavior, Animal - physiology
Central Nervous System - enzymology
Central Nervous System - physiology
Conditioning, Operant - physiology
Crosses, Genetic
DNA, Complementary - analysis
DNA-Binding Proteins
Drosophila
Drosophila - enzymology
Drosophila - genetics
Drosophila - physiology
Enhancer Elements, Genetic
Female
Fungal Proteins - biosynthesis
Fungal Proteins - genetics
Ganglia, Invertebrate - metabolism
Gene Expression
Immunohistochemistry
Male
Memory - physiology
Mutagenesis
Organ Specificity - genetics
Organ Specificity - physiology
Phenotype
Research Paper
Saccharomyces cerevisiae Proteins
Spatial Behavior - physiology
Temperature
Transcription Factors - biosynthesis
Transcription Factors - genetics
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Zusammenfassung:Most attempts to localize physical correlates of memory in the central nervous system (CNS) rely on ablation techniques. This approach has the limitation of defining just one of an unknown number of structures necessary for memory formation. We have used the Drosophila rutabaga type I Ca(2+)/CaM-dependent adenylyl cyclase (AC) gene to determine in which CNS region AC expression is sufficient for memory formation. Using pan-neural and restricted CNS expression with the GAL4 binary transcription activation system, we have rescued the memory defect of the rutabaga mutant in a fast robust spatial learning paradigm. The ventral ganglion, antennal lobes, and median bundle are likely the CNS structures sufficient for rutabaga AC- dependent spatial learning.
ISSN:1072-0502
1549-5485
DOI:10.1101/lm.7.1.18