scholarly article | Q13442814 |
P2093 | author name string | Li Guo | |
Julie H Simpson | |||
Neil Zhang | |||
P2860 | cites work | Nociceptive neurons protect Drosophila larvae from parasitoid wasps | Q24656240 |
Multimodal Chemosensory Circuits Controlling Male Courtship in Drosophila | Q27305243 | ||
Support for a synaptic chain model of neuronal sequence generation | Q28744394 | ||
Distinct sensory representations of wind and near-field sound in the Drosophila brain. | Q28751072 | ||
A Defensive Kicking Behavior in Response to Mechanical Stimuli Mediated by Drosophila Wing Margin Bristles. | Q30357439 | ||
Insects groom their antennae to enhance olfactory acuity. | Q30421965 | ||
Independent optical excitation of distinct neural populations | Q30573493 | ||
TRPA1 mediates sensation of the rate of temperature change in Drosophila larvae. | Q30833282 | ||
Altered electrical properties in Drosophila neurons developing without synaptic transmission. | Q32061987 | ||
EM connectomics reveals axonal target variation in a sequence-generating network | Q33591173 | ||
A Drosophila mechanosensory transduction channel | Q33896377 | ||
Hygienic grooming is induced by contact chemicals in Drosophila melanogaster | Q33938506 | ||
Engrailed alters the specificity of synaptic connections of Drosophila auditory neurons with the giant fiber | Q34091169 | ||
Refinement of tools for targeted gene expression in Drosophila. | Q34142404 | ||
The neural basis of Drosophila gravity-sensing and hearing | Q34961249 | ||
Computations underlying Drosophila photo-taxis, odor-taxis, and multi-sensory integration | Q35739375 | ||
Drosophila visual transduction | Q36007831 | ||
A neural command circuit for grooming movement control | Q36139999 | ||
A GAL4-driver line resource for Drosophila neurobiology | Q36447352 | ||
Asymmetric neurotransmitter release enables rapid odour lateralization in Drosophila | Q36664467 | ||
Parallel Transformation of Tactile Signals in Central Circuits of Drosophila | Q36932871 | ||
Ion channels to inactivate neurons in Drosophila | Q37340682 | ||
A taste of the Drosophila gustatory receptors | Q37355210 | ||
Real neuroscience in virtual worlds | Q37964423 | ||
Mechanosensation and Adaptive Motor Control in Insects. | Q38805930 | ||
Multiple Representations of the Body Within the Primary Somatosensory Cortex of Primates | Q39657418 | ||
Simultaneous activation of parallel sensory pathways promotes a grooming sequence in Drosophila | Q41671833 | ||
A suppression hierarchy among competing motor programs drives sequential grooming in Drosophila | Q41858938 | ||
Development of adult sensilla on the wing and notum of Drosophila melanogaster | Q44155066 | ||
A spike-timing mechanism for action selection | Q44999096 | ||
Wingless blocks bristle formation and morphogenetic furrow progression in the eye through repression of Daughterless. | Q46068767 | ||
wingless signaling in the Drosophila eye and embryonic epidermis | Q46611347 | ||
The stum gene is essential for mechanical sensing in proprioceptive neurons. | Q47071444 | ||
Topological and modality-specific representation of somatosensory information in the fly brain | Q47989635 | ||
A conserved dedicated olfactory circuit for detecting harmful microbes in Drosophila. | Q48264405 | ||
Differential potencies of effector genes in adult Drosophila. | Q51980848 | ||
Targeted expression of tetanus toxin light chain in Drosophila specifically eliminates synaptic transmission and causes behavioral defects. | Q52210225 | ||
Habituation and dishabituation of a cleaning reflex in normal and mutant Drosophila. | Q52247880 | ||
Physiological properties, time of development, and central projection are correlated in the wing mechanoreceptors of Drosophila. | Q52464269 | ||
Automated analysis of long-term grooming behavior in Drosophila using a k-nearest neighbors classifier. | Q52683435 | ||
Functional Imaging and Optogenetics in Drosophila. | Q53417963 | ||
Temporal processing and context dependency in response to mechanosensation | Q56887283 | ||
Neural Coding of Leg Proprioception in Drosophila | Q57190465 | ||
Genetic control of sensory connections in Drosophila | Q71248334 | ||
The fundamental role of pirouettes in Caenorhabditis elegans chemotaxis | Q73107324 | ||
Optogenetic Editing Reveals the Hierarchical Organization of Learned Action Sequences | Q89349684 | ||
Regulation and metamorphosis of the abdominal histoblasts ofDrosophila melanogaster | Q89558187 | ||
Threshold-Based Ordering of Sequential Actions during Drosophila Courtship | Q91129487 | ||
An automatic behavior recognition system classifies animal behaviors using movements and their temporal context | Q92639975 | ||
Encoding of Wind Direction by Central Neurons in Drosophila | Q92857872 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 6 | |
P304 | page(s) | 988-1001.e4 | |
P577 | publication date | 2020-03-05 | |
P1433 | published in | Current Biology | Q1144851 |
P1476 | title | Spatial Comparisons of Mechanosensory Information Govern the Grooming Sequence in Drosophila | |
P478 | volume | 30 |
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