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Sensorimotor Integration, Motor Planning and Learning In FLY

Project description

Sensorimotor integration explained by the fly

When we are on the move, the saccadic adaptation process maintains the correct mapping between our eye movements and their targets. It does this through the recalibration of rapid eye movements. This is how we learn endless motor tasks throughout our lives. Yet, we still lack knowledge about how visual signals interact with internal movement representations during our motor learning. The EU-funded SIMPLIFLY project will fill this gap using the simple and well-explained context of visual pathways in the goal-directed body of saccades in fruit flies. It will apply experimental research and analysis to explain neural mechanisms in sensorimotor integration and motor planning.

Objective

We are constantly learning new motor skills throughout our life. Whether riding a bicycle or playing an instrument, motor learning relies on a calibration between sensory signals and internal motor information. Saccadic adaptation, the recalibration of fast eye rotations induced by visual error signals, has helped develop key insights into the identity of circuits, and the theoretical models underlying motor learning. However, how visual signals interact with internal movement representations during motor learning remains at present underdetermined. Taking advantage of the compact brain of the fly with well characterized visual pathways, and a plethora of anatomical, physiological, and genetic tools, here we propose to study motor learning in the context of goal-directed body saccades in D. melanogaster. We will monitor changes in body saccades consistent with repetitive visual perturbations by quantitative analysis of head-fixed flight behavior in an adapted version of the classical eye saccadic adaptation paradigm. In simultaneous, we will first record and then manipulate the activity of population of neurons known to contribute to body saccades, including visual descending neurons (VDNs) and their upstream synaptic partners, which as a network integrate visual signals and self-motion information with motor commands. Together, these experiments will establish unprecedented causal relationships among neural activity, learning, and the formation of a flexible internal representation for locomotor control. The functional principles identified in this project will establish a framework that can be tested in other species and behavioral contexts, and ultimately improve our understanding of motor learning with important implications both in health and disease.

Fields of science

Coordinator

FUNDACAO D. ANNA DE SOMMER CHAMPALIMAUD E DR. CARLOS MONTEZ CHAMPALIMAUD
Net EU contribution
€ 172 618,56
Address
AVENIDA BRASILIA, CENTRO DE INVESTIGACAO DA FUNDACAO CHAMPALIMAUD
1400-038 Lisboa
Portugal

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Region
Continente Área Metropolitana de Lisboa Área Metropolitana de Lisboa
Activity type
Research Organisations
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Total cost
No data