Abstract is: Andrew John King FRS FMedSci (born 8 April 1959) is a Professor of Neurophysiology and Wellcome Trust Principal Research Fellow in the Department of Physiology, Anatomy and Genetics at the University of Oxford and a Fellow of Merton College, Oxford.
| human | Q5 |
| P2070 | Fellow of the Royal Society ID | 13823 |
| P227 | GND ID | 143287826 |
| P2671 | Google Knowledge Graph ID | /g/11g0gdl6_4 |
| P269 | IdRef ID | 157788563 |
| P213 | ISNI | 0000000114976192 |
| P244 | Library of Congress authority ID | n2010020880 |
| P8189 | National Library of Israel J9U ID | 987007457600205171 |
| P1006 | Nationale Thesaurus voor Auteursnamen ID | 332910725 |
| P496 | ORCID iD | 0000-0001-5180-7179 |
| P3368 | Prabook ID | 483785 |
| P3829 | Publons author ID | 2586933 |
| P1053 | ResearcherID | M-6708-2013 |
| P1153 | Scopus author ID | 26642878800 |
| P214 | VIAF ID | 120430391 |
| P4789 | Who's Who UK ID | U255766 |
| P10832 | WorldCat Entities ID | E39PBJpJcjdFCXmjgXtR9bwjYP |
| P166 | award received | Fellow of the Royal Society | Q15631401 |
| Fellow of the Academy of Medical Sciences | Q24081923 | ||
| Wellcome Trust Principal Research Fellowship | Q32625952 | ||
| P185 | doctoral student | Jan W. H. Schnupp | Q58231419 |
| P69 | educated at | King's College London | Q245247 |
| P108 | employer | University of Oxford | Q34433 |
| P734 | family name | King | Q535214 |
| King | Q535214 | ||
| King | Q535214 | ||
| P101 | field of work | neurophysiology | Q660910 |
| P735 | given name | John | Q4925477 |
| John | Q4925477 | ||
| Andrew | Q18042461 | ||
| Andrew | Q18042461 | ||
| P463 | member of | Royal Society | Q123885 |
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q33827564 | A Role for Auditory Corticothalamic Feedback in the Perception of Complex Sounds |
| Q64900411 | A dynamic network model of temporal receptive fields in primary auditory cortex. |
| Q46669763 | A monaural space map in the guinea-pig superior colliculus |
| Q33652591 | A multiple-plane approach to measure the structural properties of functionally active regions in the human cortex |
| Q48230091 | Acoustic factors govern developmental sharpening of spatial tuning in the auditory cortex |
| Q64086428 | Across-species differences in pitch perception are consistent with differences in cochlear filtering |
| Q30479161 | Adaptation to stimulus statistics in the perception and neural representation of auditory space |
| Q30426471 | Adaptive reweighting of auditory localization cues in response to chronic unilateral earplugging in humans |
| Q37789350 | Adaptive suppression of subordinate reproduction in cooperative mammals. |
| Q44925282 | An investigation of the role of auditory cortex in sound localization using muscimol-releasing Elvax |
| Q48384552 | Andrew J. King |
| Q30452846 | Auditory cortex represents both pitch judgments and the corresponding acoustic cues |
| Q30416807 | Auditory cortex: representation through sparsification? |
| Q30375436 | Auditory gap-in-noise detection behavior in ferrets and humans |
| Q48721058 | Auditory learning as a cause and treatment of central dysfunction. |
| Q30416937 | Auditory neuroscience: Balancing excitation and inhibition during development |
| Q35924898 | Auditory neuroscience: a time for coincidence? |
| Q48510037 | Auditory neuroscience: activating the cortex without sound. |
| Q53562139 | Auditory neuroscience: filling in the gaps. |
| Q47726342 | Auditory neuroscience: neuronal sensitivity in humans |
| Q30416803 | Auditory neuroscience: temporal anticipation enhances cortical processing. |
| Q33641939 | Auditory perception: The near and far of sound localization. |
| Q30416933 | Auditory perception: hearing the texture of sounds |
| Q36187547 | Auditory plasticity: vocal output shapes auditory cortex |
| Q41680321 | Auditory system: a neural substrate for frequency selectivity? |
| Q30452405 | Behavioral sensitivity to broadband binaural localization cues in the ferret |
| Q30385183 | Behavioral training promotes multiple adaptive processes following acute hearing loss. |
| Q30362844 | Behavioural benefits of multisensory processing in ferrets. |
| Q30436187 | Behavioural sensitivity to binaural spatial cues in ferrets: evidence for plasticity in the duplex theory of sound localization |
| Q30479160 | Bilateral cochlear implantation in the ferret: a novel animal model for behavioral studies. |
| Q30468228 | Binaural sensitivity changes between cortical on and off responses. |
| Q48631359 | Binaural-level functions in ferret auditory cortex: evidence for a continuous distribution of response properties. |
| Q30475678 | Brief sounds evoke prolonged responses in anesthetized ferret auditory cortex |
| Q48744600 | Cells responsive to free-field auditory stimuli in guinea-pig superior colliculus: distribution and response properties. |
| Q48372658 | Changes induced in the representation of auditory space in the superior colliculus by rearing ferrets with binocular eyelid suture |
| Q30480994 | Chronic detachable headphones for acoustic stimulation in freely moving animals |
| Q48724014 | Coding the temporal structure of sounds in auditory cortex. |
| Q30621063 | Complementary adaptive processes contribute to the developmental plasticity of spatial hearing |
| Q95272847 | Complexity of frequency receptive fields predicts tonotopic variability across species |
| Q30446974 | Constructing noise-invariant representations of sound in the auditory pathway. |
| Q30451802 | Context-specific reweighting of auditory spatial cues following altered experience during development |
| Q30474764 | Contrast gain control in auditory cortex |
| Q48387649 | Coordinating different sensory inputs during development. Focus on "Early experience determines how the senses will interact". |
| Q30448388 | Cortical cholinergic input is required for normal auditory perception and experience-dependent plasticity in adult ferrets |
| Q30474835 | Cortical encoding of pitch: recent results and open questions |
| Q41789116 | Cortical modulation of auditory processing in the midbrain |
| Q35718114 | Cortical processing of complex sound: a way forward? |
| Q30391263 | Cortico-Cortical Connectivity Within Ferret Auditory Cortex |
| Q38430147 | Crossmodal plasticity and hearing capabilities following blindness |
| Q48645336 | Development of contralateral and ipsilateral frequency representations in ferret primary auditory cortex. |
| Q48954052 | Development of the projection from the nucleus of the brachium of the inferior colliculus to the superior colliculus in the ferret. |
| Q60368699 | Development, organization and plasticity of auditory circuits: Lessons from a cherished colleague. |
| Q48100794 | Developmental plasticity in the visual and auditory representations in the mammalian superior colliculus |
| Q26824683 | Developmental plasticity of spatial hearing following asymmetric hearing loss: context-dependent cue integration and its clinical implications |
| Q60368921 | Effects of eye position on auditory localization and neural representation of space in superior colliculus of cats |
| Q34500865 | Elevated prolactin levels immediately precede decisions to babysit by male meerkat helpers |
| Q49134704 | Encoding of virtual acoustic space stimuli by neurons in ferret primary auditory cortex. |
| Q48794709 | Encoding stimulus information by spike numbers and mean response time in primary auditory cortex. |
| Q43180866 | Focusing attention on sound |
| Q60368942 | From outer ear to virtual space |
| Q30403421 | Functional Microarchitecture of the Mouse Dorsal Inferior Colliculus Revealed through In Vivo Two-Photon Calcium Imaging |
| Q49064927 | Functional organization of ferret auditory cortex. |
| Q47260111 | Functional topography of converging visual and auditory inputs to neurons in the rat superior colliculus |
| Q38218394 | Hearing in noisy environments: noise invariance and contrast gain control. |
| Q40939200 | Hearing. Asking the auditory cortex the right question |
| Q48721098 | How plastic is spatial hearing? |
| Q52172814 | Improved auditory spatial acuity in visually deprived ferrets. |
| Q30391555 | Incorporating Midbrain Adaptation to Mean Sound Level Improves Models of Auditory Cortical Processing |
| Q35204129 | Infanticide by subordinates influences reproductive sharing in cooperatively breeding meerkats |
| Q28649425 | Integrating information from different senses in the auditory cortex |
| Q48767908 | Interaural timing cues do not contribute to the map of space in the ferret superior colliculus: a virtual acoustic space study. |
| Q30486752 | Interdependent encoding of pitch, timbre, and spatial location in auditory cortex |
| Q47979543 | Large-scale organization of ferret auditory cortex revealed using continuous acquisition of intrinsic optical signals |
| Q36917320 | Learning to hear: plasticity of auditory cortical processing |
| Q30476737 | Lesions of the auditory cortex impair azimuthal sound localization and its recalibration in ferrets |
| Q48717757 | Linear processing of spatial cues in primary auditory cortex. |
| Q34493194 | Linking GABA and glutamate levels to cognitive skill acquisition during development |
| Q30390584 | Measuring the Performance of Neural Models |
| Q39638260 | Mistuning detection performance of ferrets in a go/no-go task |
| Q52106566 | Modeling individual differences in ferret external ear transfer functions. |
| Q30468581 | Multiplexed and robust representations of sound features in auditory cortex |
| Q60368947 | Multisensory Integration |
| Q28249714 | Multisensory integration: strategies for synchronization |
| Q30432420 | Multisensory training improves auditory spatial processing following bilateral cochlear implantation |
| Q30473349 | Neural circuits underlying adaptation and learning in the perception of auditory space |
| Q92711474 | Neural circuits underlying auditory contrast gain control and their perceptual implications |
| Q30479216 | Neural ensemble codes for stimulus periodicity in auditory cortex. |
| Q34682500 | Neural plasticity: how the eye tells the brain about sound location |
| Q43721989 | Neural processing: the logic of multiplication in single neurons. |
| Q48352497 | Physiological and anatomical evidence for multisensory interactions in auditory cortex |
| Q36741700 | Physiological and behavioral studies of spatial coding in the auditory cortex |
| Q30485062 | Pitch discrimination by ferrets for simple and complex sounds. |
| Q60368697 | Pitch perception is adapted to species-specific cochlear filtering |
| Q30530790 | Plasticity in the neural coding of auditory space in the mammalian brain. |
| Q36649280 | Plasticity of auditory maps in the brain |
| Q30462687 | Plasticity of spatial hearing: behavioural effects of cortical inactivation |
| Q57821273 | Recent advances in understanding the auditory cortex |
| Q45187040 | Responses of auditory cortex to complex stimuli: functional organization revealed using intrinsic optical signals |
| Q49164266 | Responses of neurons in the ferret superior colliculus to the spatial location of tonal stimuli. |
| Q48124241 | Role of auditory cortex in sound localization in the midsagittal plane |
| Q60368701 | Sensory cortex is optimised for prediction of future input |
| Q56889766 | Sensory cortex is optimized for prediction of future input |
| Q48352740 | Sensory neuroscience: visualizing the auditory cortex. |
| Q60368808 | Sensory systems |
| Q41397157 | Signal selection by cortical feedback |
| Q91841320 | Silencing cortical activity during sound-localization training impairs auditory perceptual learning |
| Q100958318 | Simple transformations capture auditory input to cortex |
| Q53549170 | Sound localization behavior in ferrets: comparison of acoustic orientation and approach-to-target responses. |
| Q38540757 | Sound localization in a changing world |
| Q48708640 | Sources of subcortical projections to the superior colliculus in the ferret. |
| Q44905517 | Spatial distribution of functional superficial-deep connections in the adult ferret superior colliculus. |
| Q30464450 | Specificity of binaural perceptual learning for amplitude modulated tones: a comparison of two training methods |
| Q30448921 | Spectral timbre perception in ferrets: discrimination of artificial vowels under different listening conditions |
| Q30458214 | Spectrotemporal contrast kernels for neurons in primary auditory cortex. |
| Q30490384 | Stimulus-timing-dependent plasticity of cortical frequency representation |
| Q29029180 | Stress and the suppression of subordinate reproduction in cooperatively breeding meerkats |
| Q41671825 | Thalamic input to auditory cortex is locally heterogeneous but globally tonotopic |
| Q60368741 | The Representation of the Pitch of Vowel Sounds in Ferret Auditory Cortex |
| Q40780296 | The Wellcome Prize Lecture. A map of auditory space in the mammalian brain: neural computation and development |
| Q48218154 | The auditory cortex |
| Q30425802 | The cholinergic basal forebrain in the ferret and its inputs to the auditory cortex |
| Q30455304 | The descending corticocollicular pathway mediates learning-induced auditory plasticity |
| Q48596257 | The ferret auditory cortex: descending projections to the inferior colliculus. |
| Q30480470 | The non-lemniscal auditory cortex in ferrets: convergence of corticotectal inputs in the superior colliculus |
| Q30431475 | The precedence effect and its buildup and breakdown in ferrets and humans |
| Q48896570 | The representation of auditory space in the mammalian superior colliculus. |
| Q48857709 | The shape of ears to come: dynamic coding of auditory space. |
| Q35761449 | The superior colliculus |
| Q48828870 | Topographic organization of projection from the parabigeminal nucleus to the superior colliculus in the ferret revealed with fluorescent latex microspheres. |
| Q49144781 | Topographical projection from the superior colliculus to the nucleus of the brachium of the inferior colliculus in the ferret: convergence of visual and auditory information. |
| Q25257304 | Training-induced plasticity of auditory localization in adult mammals |
| Q30454513 | Unraveling the principles of auditory cortical processing: can we learn from the visual system? |
| Q30486507 | Virtual adult ears reveal the roles of acoustical factors and experience in auditory space map development |
| Q30489262 | Visual influences on auditory spatial learning |
| Q30484555 | Visual influences on ferret auditory cortex |
| Q30436100 | Visual sensitivity is a stronger determinant of illusory processes than auditory cue parameters in the sound-induced flash illusion |
| Q30417987 | Visual-auditory spatial processing in auditory cortical neurons |
| Q37477358 | What happens to your hearing if you are born blind? |
| Q58231419 | Jan W. H. Schnupp | doctoral advisor | P184 |
| Andrew King (neurophysiologist) | wikipedia |
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