2021
Efferent feedback controls bilateral auditory spontaneous activity
Wang Y, Sanghvi M, Gribizis A, Zhang Y, Song L, Morley B, Barson DG, Santos-Sacchi J, Navaratnam D, Crair M. Efferent feedback controls bilateral auditory spontaneous activity. Nature Communications 2021, 12: 2449. PMID: 33907194, PMCID: PMC8079389, DOI: 10.1038/s41467-021-22796-8.Peer-Reviewed Original ResearchConceptsSpontaneous activityEfferent modulationEfferent pathwaysMedial olivocochlear systemCentral nervous systemCentral auditory systemInner hair cellsAuditory systemNicotinic acetylcholine receptorsSpontaneous activity patternsOlivocochlear systemHearing onsetEfferent systemChemogenetic experimentsBilateral couplingNervous systemAcetylcholine receptorsCircuit formationEfferent feedbackFiring patternsHair cellsΑ9/Auditory sensitivityBilateral correlationActivity patterns
2020
Transverse sinus injections drive robust whole-brain expression of transgenes
Hamodi AS, Sabino A, Fitzgerald ND, Moschou D, Crair M. Transverse sinus injections drive robust whole-brain expression of transgenes. ELife 2020, 9: e53639. PMID: 32420870, PMCID: PMC7266618, DOI: 10.7554/elife.53639.Peer-Reviewed Original Research
2017
Architecture, Function, and Assembly of the Mouse Visual System
Seabrook TA, Burbridge TJ, Crair MC, Huberman AD. Architecture, Function, and Assembly of the Mouse Visual System. Annual Review Of Neuroscience 2017, 40: 499-538. PMID: 28772103, DOI: 10.1146/annurev-neuro-071714-033842.Peer-Reviewed Original ResearchConceptsSpecific cell typesMammalian central nervous systemGenetic perturbationsModel speciesCell typesCausal testingSpeciesVivo labelingBroad scaleVisual system structuresManipulation of neuronsSensory systemsCentral nervous systemVisual circuitryPowerful toolNervous systemLarge cadreHumansMouse visual systemAdditional experimentationPathwayFunctionConvenient sizeAssemblyVisual system
2010
The Immune Protein CD3ζ Is Required for Normal Development of Neural Circuits in the Retina
Xu HP, Chen H, Ding Q, Xie ZH, Chen L, Diao L, Wang P, Gan L, Crair MC, Tian N. The Immune Protein CD3ζ Is Required for Normal Development of Neural Circuits in the Retina. Neuron 2010, 65: 503-515. PMID: 20188655, PMCID: PMC3037728, DOI: 10.1016/j.neuron.2010.01.035.Peer-Reviewed Original ResearchConceptsEye-specific segregationCentral nervous systemRetinal ganglion cellsDendritic motilitySynaptic activityActivity-dependent synapse formationPossible retinal originRGC axon projectionImmune proteinsImmune-deficient miceDendritic densityGanglion cellsClass I major histocompatibility complex genesRetinal originNervous systemSynapse formationAxon projectionsMHCI receptorNeural circuitsSynaptic wiringSelective defectMajor histocompatibility complex (MHC) genesMiceRetinaNormal development