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RESEARCH PRODUCT

Differential contributions of the two human cerebral hemispheres to action timing

Sergiu GroppaChristian A. KellMuthuraman MuthuramanAnja PflugFlorian Gompf

subject

0301 basic medicineAdultMaleQH301-705.5ScienceSensory systemBiologyAuditory cortexGeneral Biochemistry Genetics and Molecular BiologyLateralization of brain functionTimeFingers03 medical and health sciencesMotionYoung Adult0302 clinical medicineRhythmddc:150Humanslateralizationauditory cortexBiology (General)theta oscillationsCerebrumhand motor controlbeta partial directed coherenceGeneral Immunology and MicrobiologyGeneral NeuroscienceQMotor CortexRMagnetoencephalographyGeneral MedicineMagnetic Resonance Imagingfinger tapping030104 developmental biologyAction (philosophy)Acoustic StimulationFinger tappingTappingMedicineFemaleNeuroscienceBeat (music)030217 neurology & neurosurgeryPsychomotor PerformanceResearch ArticleNeuroscienceHuman

description

Rhythmic actions benefit from synchronization with external events. Auditory-paced finger tapping studies indicate the two cerebral hemispheres preferentially control different rhythms. It is unclear whether left-lateralized processing of faster rhythms and right-lateralized processing of slower rhythms bases upon hemispheric timing differences that arise in the motor or sensory system or whether asymmetry results from lateralized sensorimotor interactions. We measured fMRI and MEG during symmetric finger tapping, in which fast tapping was defined as auditory-motor synchronization at 2.5 Hz. Slow tapping corresponded to tapping to every fourth auditory beat (0.625 Hz). We demonstrate that the left auditory cortex preferentially represents the relative fast rhythm in an amplitude modulation of low beta oscillations while the right auditory cortex additionally represents the internally generated slower rhythm. We show coupling of auditory-motor beta oscillations supports building a metric structure. Our findings reveal a strong contribution of sensory cortices to hemispheric specialization in action control.

yearjournalcountryeditionlanguage
2019-11-07eLife
10.7554/elife.48404https://elifesciences.org/articles/48404