Projections from the superior colliculus motor map to omnipause neurons in monkey. - Wikidata - wikimedia - TriplyDB

Projections from the superior colliculus motor map to omnipause neurons in monkey.

Projections from the superior colliculus motor map to omnipause neurons in monkey.

http://www.wikidata.org/entity/Q48126097

about

Goal representations dominate superior colliculus activity during extrafoveal tracking.Motor functions of the superior colliculus.Saccades during attempted fixation in parkinsonian disorders and recessive ataxia: from microsaccades to square-wave jerks Effects of cerebellar disease on sequences of rapid eye movements.Effect of pharmacological inactivation of nucleus reticularis tegmenti pontis on saccadic eye movements in the monkey.Critical role of cerebellar fastigial nucleus in programming sequences of saccades.Microsaccade production during saccade cancelation in a stop-signal task.Visual fixation as equilibrium: evidence from superior colliculus inactivation Temporal interactions of air-puff-evoked blinks and saccadic eye movements: insights into motor preparation Superior colliculus inactivation causes stable offsets in eye position during tracking.Anatomical evidence that the superior colliculus controls saccades through central mesencephalic reticular formation gating of omnipause neuron activity.Orexin-A inputs onto visuomotor cell groups in the monkey brainstem.Neuronal control of fixation and fixational eye movements.Mechanisms for generating and compensating for the smallest possible saccades.Triggering mechanisms in microsaccade and saccade generation: a novel proposal.What stops a saccade?Modeling eye-head gaze shifts in multiple contexts without motor planning.Target selection by the frontal cortex during coordinated saccadic and smooth pursuit eye movements.Shared brainstem pathways for saccades and smooth-pursuit eye movements.Density gradients of trans-synaptically labeled collicular neurons after injections of rabies virus in the lateral rectus muscle of the rhesus monkey.Common inhibitory mechanism for saccades and smooth-pursuit eye movements.Saccadic omnipause and burst neurons in monkey and human are ensheathed by perineuronal nets but differ in their expression of calcium-binding proteins.Alteration of the microsaccadic velocity-amplitude main sequence relationship after visual transients: implications for models of saccade control.Role of the rostral superior colliculus in gaze anchoring during reach movements.Visual-vestibular interaction hypothesis for the control of orienting gaze shifts by brain stem omnipause neurons.In multiple-step gaze shifts: omnipause (OPNs) and collicular fixation neurons encode gaze position error; OPNs gate saccades.Response properties of fixation neurons and their location in the frontal eye field in the monkey.Organization of trigeminocollicular connections and their relations to the sensory innervation of the eyelids in the rat.Discharge properties of monkey tectoreticular neurons.Influence of task predictability on the activity of neurons in the rostral superior colliculus during double-step saccades.Neural substrate for suppression of omnipause neurons at the onset of saccades.Synaptic inputs and their pathways from fixation and saccade zones of the superior colliculus to inhibitory burst neurons and pause neurons.Suppression of smooth pursuit eye movements induced by electrical stimulation of the monkey frontal eye field.Spatial relationships of visuomotor transformations in the superior colliculus map.Influence of stimulus eccentricity and direction on characteristics of pro- and antisaccades in non-human primates.Modeling the Triggering of Saccades, Microsaccades, and Saccadic Intrusions.Fixation neurons in the superior colliculus encode distance between current and desired gaze positions

P2860

Q30488283-7940B60C-2D8B-4BA8-BE30-D856139A3BE0 Q34174995-C50B40E1-C2CD-46DB-995F-0FDF9043F7AC Q34629738-501981F4-ADB1-4108-B6B9-BCFE026F9A6C Q34884259-F46DDB34-C1EE-4D88-84A5-680C37C33080 Q35251331-E34BC937-10F4-4D15-997E-B3E838AF54FA Q35275648-679348B2-684F-49EA-9D44-BB3883BF3AB2 Q35577917-5051C18C-47C6-4EAB-916E-5F8DEE815F90 Q36322705-EBC4A3FE-C759-4EA6-880F-0F39A8676F7B Q36810231-CD10DD36-6194-43B4-872B-C27BCEB8C3DF Q36908707-28CCE42B-42B3-4872-82B0-D8FFC9F3B509 Q37220100-C3BB620C-D3AD-4B53-9282-0AF7F38F9FE1 Q37387709-85D9A4A6-6DD1-4308-A90B-EBC0DBCAED03 Q37675868-AFF43E0F-CB3E-4D37-856F-29F3CBD9559C Q37885422-4920D133-9684-4372-BA3F-788D66A5E2DA Q37939293-93EE9F70-4F3C-4BAB-B266-243527C0E5AA Q39153453-3A43453B-B52D-40E7-B13E-B9BF565232C0 Q41592931-361C64AD-55F9-4E1B-8C7C-929DEF57E57A Q42598796-8D2FECBD-446B-4BE3-8643-69EDC4482EB3 Q42614993-210BE2F5-D861-4472-B578-8103AA9DC6B8 Q43548572-B18E7417-B923-4791-B075-33A4870057D0 Q44168249-0C163532-8007-41C0-B7AC-921DEC0A4568 Q44250349-F2B825A9-49C9-40E9-8C3E-CBC1BC17902D Q48232856-98D86334-CA78-4B9C-ADBC-00B2230291BB Q48252675-1569B12F-238E-4906-BF93-7DCE9A0EB898 Q48369018-E4264D76-1B3C-40BB-A0ED-B6665A4F7235 Q48475384-D5548CB3-35F1-4727-B3B3-D1C24A023D1F Q48486795-EE232821-7F87-4346-8085-DB20A377D5B1 Q48550203-35F3E6D0-F94E-4CD4-B53A-3D05CB759682 Q48565987-87D5E9C7-09A4-4E73-83BC-FE95ACB8E102 Q48678352-0AE270A9-5116-4E7E-AED8-D40CCD709C5D Q48876660-A9E7BBA4-300C-4DC4-B5E9-C013C8863B38 Q48931165-A69ABA9A-B3CD-4093-8147-7F3B0254D670 Q48945356-A63488D5-13CA-49C9-B885-15D142002681 Q48949313-5228E59D-F00B-4058-A65F-08A7732F31CC Q52163209-75A42E98-B213-4D79-8111-22931A560CD9 Q55304072-5C451857-6E6D-4FC5-88A8-39A78817A364 Q57042348-E7E7AC4F-FC72-4C12-8243-7B80E1A69063

P2860

Projections from the superior colliculus motor map to omnipause neurons in monkey.

http://www.wikidata.org/entity/Q48126097

description

1999 nî lūn-bûn

@nan

1999年の論文

@ja

1999年学术文章

@wuu

1999年学术文章

@zh

1999年学术文章

@zh-cn

1999年学术文章

@zh-hans

1999年学术文章

@zh-my

1999年学术文章

@zh-sg

1999年學術文章

@yue

1999年學術文章

@zh-hant

name

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@en

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@nl

type

label

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@en

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@nl

prefLabel

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@en

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@nl

P1433

Q48126097-9448FC5D-8CF1-48E8-A988-52DFC5425760

P1476

Q48126097-9AF586A3-CAB7-4251-ADF2-C77287484EDE

P2093

Q48126097-01CB7BD2-8A28-4576-8061-14919D511A4B

Q48126097-1782203B-3445-478E-B15F-AD8297FEE299

Q48126097-5A6D2885-C88C-4ED8-B1BD-0A85C48EEE83

Q48126097-928265D1-90E6-4DA7-84A1-77CF313DE0D6

P2860

Q48126097-03763F85-5491-462F-9EF8-9BBABC0E8182

Q48126097-0A53B77C-CA2F-42F8-9591-AC087F167F83

Q48126097-0E94A558-8C2D-4131-A3F6-57FF1C1D2B27

Q48126097-1F313ED6-0CE9-469F-8E33-7E209E6074A1

Q48126097-2497E2E7-AE76-408A-9688-2496E01E1CBA

Q48126097-510FFC99-20B9-4A4E-A80B-E51422C1637D

Q48126097-629D510F-643A-4FEC-A23E-829EC27B4CE6

Q48126097-71CFBCE9-7552-417D-9104-82014976DFC8

Q48126097-73407756-F730-49DA-92C1-5634DC0A3E24

Q48126097-8189BA3A-C5C2-4245-A291-D6D5598F0ADC

P304

Q48126097-7903194A-82C4-4992-9E94-C3069F158925

P31

Q48126097-8C09CC7E-1E87-42B2-AB2F-4A9C8216F9F4

P356

Q48126097-5EB1B014-4AE7-487E-A855-B5C71D8B441A

P407

Q48126097-07C5CD24-E3BB-4D13-B2D8-20F44C3D3777

P433

Q48126097-53261981-2E4B-46EC-9F72-05C67A4901A6

P478

Q48126097-59E247F4-D5B9-4662-8636-E87FE144494D

P577

Q48126097-9C6E8508-40F9-4C7E-B79A-0D29E20A20EC

P698

Q48126097-87FD1914-B152-451C-B572-BD0D83F3BF00

P356

(SICI)1096-9861(19991011)413:1%3C55::AID-CNE3%3E3.0.CO;2-K

P1433

The Journal of Comparative Neurology

P1476

Projections from the superior colliculus motor map to omnipause neurons in monkey.

@en

P2093

Büttner-Ennever JA

http://www.w3.org/2001/XMLSchema#string

Cohen B

http://www.w3.org/2001/XMLSchema#string

Henn V

http://www.w3.org/2001/XMLSchema#string

Horn AK

http://www.w3.org/2001/XMLSchema#string

P2860

Anatomy of physiologically identified eye-movement-related pause neurons in the cat: pontomedullary region.

Signal transformations required for the generation of saccadic eye movements.

Brainstem control of saccadic eye movements.

Tracing premotor brain stem networks of orienting movements.

The anatomy and physiology of primate neurons that control rapid eye movements.

Descending pathways from the superior collicullus: an autoradiographic analysis in the rhesus monkey (Macaca mulatta).

The microscopic anatomy and physiology of the mammalian saccadic system.

The superior colliculus and eye movement control.

Dorsal mesencephalic projections to pons, medulla, and spinal cord in the cat: limbic and non-limbic components.

Visual responses of neurones in cat superior colliculus in relation to fixation of targets.

P304

55-67

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/(SICI)1096-9861(19991011)413:1<55::AID-CNE3>3.0.CO;2-K

http://www.w3.org/2001/XMLSchema#string

P407

P433

1

http://www.w3.org/2001/XMLSchema#string

P478

413

http://www.w3.org/2001/XMLSchema#string

P577

1999-10-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

10464369

http://www.w3.org/2001/XMLSchema#string