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Mushroom bodies
Localized Olfactory Representation in Mushroom Bodies of Drosophila Larvae
VIEW Open Access Structural Aspects of Plasticity in the Nervous System of Drosophila Atsushi Sugie1,2†, Giovanni Marchetti3† and Gaia Tavosanis3*
A Review of Effects of Environment on Brain Size in Insects
Sprouting Interneurons in Mushroom Bodies of Adult Cricket Brains
Genealogical Correspondence of Mushroom Bodies Across Invertebrate Phyla
Olfactory Coding in the Insect Brain: Molecular Receptive Ranges, Spatial and Temporal Coding
Clonal Analysis of the Mushroom Bodies 4067 Are Derived from the Same Nb Remains to Be Elucidated (Fig
Dop1r1, a Type 1 Dopaminergic Receptor Expressed in Mushroom Bodies, Modulates Drosophila Larval Locomotion
Sparse Odor Representation and Olfactory Learning
Odor Processing in the Bee: a Preliminary Study of the Role of Central Input to the Antennal Lobe
A Kinase-Dependent Feedforward Loop Affects CREBB Stability and Long
Memory-Relevant Mushroom Body Output Synapses Are Cholinergic
Transformation of Odor Selectivity from Projection Neurons to Single Mushroom Body Neurons Mapped with Dual-Color Calcium Imaging
Detection of Calcium Transients Indrosophilamushroom Body
Dopamine and Mushroom Bodies in Drosophila: Experience-Dependent and -Independent Aspects of Sexual Behavior Wendi S
The Wiring Diagram of a Glomerular Olfactory System
Context-Dependent Memory Traces in the Crab's Mushroom Bodies
Origin of Drosophila Mushroom Body Neuroblasts and Generation of Divergent Embryonic Lineages Thomas Kunz, Karoline F
Top View
Evolution of Mushroom Body Inversion and Associated Gyriform Neuropils Parallel the Evolved Transposition of the Mammalian Hippocampus
A Neural Circuit Mechanism for Food Odor Perception And
Protein Kinase a Inhibits a Consolidated Form of Memory in Drosophila
Subdivision of the Drosophila Mushroom Bodies by Enhancer-Trap Expression Patterns
Defective Learning in Mutants of the Drosophila Gene for a Regulatory Subunit of Camp-Dependent Protein Kinase
Odorant-Induced Oscillations in the Mushroom Bodies of the Locust
Normalization for Sparse Encoding of Odors by a Wide-Field Interneuron
Learning and Memory: Dopamine Drives the Circuit
Learning Pattern Recognition and Decision Making in the Insect Brain R
The Mushroom Body Is an Important in Identifying Genes Whose Adaptive the Mushroom Center for Learning and Memory
Eight Different Types of Dopaminergic Neurons Innervate the Drosophila Mushroom Body Neuropil: Anatomical and Physiological Heterogeneity
The Neuronal Architecture of the Mushroom Body Provides a Logic for Associative Learning
Age-Dependent and Task-Related Morphological Changes in the Brain and the Mushroom Bodies of the Ant Camponotus Floridanus
Gap Junction Networks in Mushroom Bodies Participate in Visual Learning
Morphological Analysis of Kenyon Cells of the Drosophila Mushroom Bodies
Adult Neurogenesis in the Mushroom Bodies of Red Flour Beetles
Dop1r1, a Type 1 Dopaminergic Receptor Expressed in Mushroom Bodies, Modulates Drosophila Larval Locomotion
Cholinergic Synaptic Transmission in Adultdrosophila Kenyon Cellsin Situ
Sparse, Decorrelated Odor Coding in the Mushroom Body Enhances Learned Odor Discrimination
Ionic Currents of Kenyon Cells from the Mushroom Body of the Honeybee