scholarly article | Q13442814 |
P356 | DOI | 10.1002/CNE.901670407 |
P698 | PubMed publication ID | 1270632 |
P50 | author | Larry Benowitz | Q88241548 |
P2093 | author name string | Karten HJ | |
P2860 | cites work | Early Lesions of Superior Colliculus: Factors Affecting the Formation of Abnormal Retinal Projections; pp. 73–90 | Q48692456 |
Parallels in the visual afferent projections of the thalamus in the hedgehog (Paraechinus hypomelas) and the turtle (Pseudemys scripta). | Q48942565 | ||
The representation of the retina on the optic tectum of the pigeon. | Q51344555 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 503-520 | |
P577 | publication date | 1976-06-01 | |
1976-06-15 | |||
P1433 | published in | The Journal of Comparative Neurology | Q3186907 |
P1476 | title | Organization of the tectofugal visual pathway in the pigeon: a retrograde transport study | |
P478 | volume | 167 |
Q34087267 | A Phaseolus lectin anterograde tracing study of the tectorotundal projections in the domestic chick |
Q89534644 | A comparative analysis of the dopaminergic innervation of the executive caudal nidopallium in pigeon, chicken, zebra finch, and carrion crow |
Q41729043 | A critical period in the development of tectal neurons in the chick, as revealed by early enucleation |
Q80134063 | A dissociation of motion and spatial-pattern vision in the avian telencephalon: implications for the evolution of "visual streams" |
Q43590283 | A simple method to microinject solid neural tracers into deep structures of the brain |
Q67657115 | Acetylcholinesterase-histochemical differential staining of subdivisions within the nucleus rotundus in the chick |
Q51972736 | Activation of cholecystokinin neurons in the dorsal pallium of the telencephalon is indispensable for the acquisition of chick imprinting behavior. |
Q42470966 | Afferent and efferent connections of the caudolateral neostriatum in the pigeon (Columba livia): a retro- and anterograde pathway tracing study |
Q48172510 | Anatomical organization of the visual dorsal ventricular ridge in the chick (Gallus gallus): Layers and columns in the avian pallium |
Q43565346 | Anatomical pathways from the optic tectum to the spinal cord subserving orienting movements in the barn owl. |
Q47961702 | Anatomy and physiology of horizontal cells in layer 5b of the chicken optic tectum. |
Q48701189 | Attentional capture? Synchronized feedback signals from the isthmi boost retinal signals to higher visual areas |
Q48499898 | Auditory and multisensory responses in the tectofugal pathway of the barn owl. |
Q30474623 | Avian Visual Behavior and the Organization of the Telencephalon |
Q53401834 | Axon terminals from the nucleus isthmi pars parvocellularis control the ascending retinotectofugal output through direct synaptic contact with tectal ganglion cell dendrites. |
Q37673955 | Bilateral and ipsilateral ascending tectopulvinar pathways in mammals: a study in the squirrel (Spermophilus beecheyi). |
Q48452109 | Bilaterally projecting neurons in the two visual pathways of chicks |
Q44498773 | Changes in pattern discrimination learning induced by visual deprivation in normal and commissurotomized pigeons |
Q43697295 | Chattering and differential signal processing in identified motion-sensitive neurons of parallel visual pathways in the chick tectum. |
Q48048126 | Cloning and expression analysis of cadherin-10 in the CNS of the chicken embryo |
Q48499686 | Color reversal-learning deficits after tectofugal pathway lesions in the pigeon telencephalon |
Q43528502 | Columnar projections from the cholinergic nucleus isthmi to the optic tectum in chicks (Gallus gallus): a possible substrate for synchronizing tectal channels. |
Q48226542 | Combinatorial expression of cadherins in the tectum and the sorting of neurites in the tectofugal pathways of the chicken embryo |
Q28740659 | Comparative gene expression analysis among vocal learners (bengalese finch and budgerigar) and non-learners (quail and ring dove) reveals variable cadherin expressions in the vocal system |
Q70583320 | Composition of the supraoptic decussation of the chick (Gallus gallus). A possible factor limiting interhemispheric transfer of visual information |
Q70937348 | Contrast sensitivity of neurons in pigeon optic tectum |
Q43165438 | Crocodilian Forebrain: Evolution and Development |
Q35203635 | Cytoarchitecture of the avian optic tectum: neuronal substrate for cellular computation |
Q48112880 | Definition and connections of the entopallium in the zebra finch (Taeniopygia guttata). |
Q46616915 | Definition and novel connections of the entopallium in the pigeon (Columba livia). |
Q41773843 | Development of flash-evoked responses in the ectostriatum of the zebra finch: an evoked potential and current-source-density analysis |
Q43645193 | Development of retino-recipient projection neurons in the optic tectum of the chicken |
Q48131942 | Development of the supraoptic decussation in the chick (Gallus gallus). |
Q48249173 | Differential expression of N‐ and R‐cadherin in functional neuronal systems and other structures of the developing chicken brain |
Q48119018 | Differential sensitivities of the two visual pathways of the chick to labelling by fluorescent retrograde tracers |
Q52295551 | Discrepant effects of unilateral and bilateral forebrain lesions on the visual performance of pigeons |
Q42477225 | Distribution of the limbic system-associated membrane protein (LAMP) in pigeon forebrain and midbrain |
Q48106408 | Distributions of GABAA, GABAB, and benzodiazepine receptors in the forebrain and midbrain of pigeons |
Q55401346 | Effects of Adaptation on Discrimination of Whisker Deflection Velocity and Angular Direction in a Model of the Barrel Cortex. |
Q42661579 | Effects of monocular deprivation in the nucleus rotundus of zebra finches: a Nissl and deoxyglucose study |
Q45983235 | Effects of serial lesions of telencephalic components of the visual system in pigeons. |
Q48738761 | Effects of unilateral thalamic lesion upon interocular transfer of visual discrimination in pigeons. II: lesion in the untrained hemisphere (sensory deficits) |
Q49080587 | Efferent connections of the ectostriatal core. An anterograde tracer study |
Q52590954 | Embryonic Exposure to Valproic Acid Impairs Social Predispositions of Newly-Hatched Chicks. |
Q39309891 | Encoding of global visual motion in the nidopallium caudolaterale of behaving crows |
Q46928696 | Encoding whisker deflection velocity within the rodent barrel cortex using phase-delayed inhibition |
Q42462699 | Enkephalin-mediated basal ganglia influences over the optic tectum: immunohistochemistry of the tectum and the lateral spiriform nucleus in pigeon |
Q48127085 | Enucleation enhances ipsilateral flash evoked responses in the ectostriatum of the zebra finch (Taeniopygia guttata castanotis Gould) |
Q38483483 | Evidence for a critical period of neuronal trophism late in the development of the chick visual system |
Q57591781 | Evolution of the Avian Brain and Senses |
Q37870952 | Evolution of the amniote pallium and the origins of mammalian neocortex |
Q71789837 | Excitatory and inhibitory neurotransmitters in the nucleus rotundus of pigeons |
Q73104150 | Expression of calcium-binding proteins in the diencephalon of the lizard Psammodromus algirus |
Q36303013 | Figure-ground discrimination in the avian brain: the nucleus rotundus and its inhibitory complex. |
Q46812524 | Fine structure of the visual dorsolateral anterior thalamic nucleus of the pigeon (Columba livia): a hodological and GABA-immunocytochemical study |
Q44296259 | Flash evoked potentials in the ectostriatum of the zebra finch: a current source-density analysis |
Q48891204 | GABAergic inputs to the nucleus rotundus (pulvinar inferior) of the pigeon (columba livia). |
Q48402216 | Glutamate-like immunoreactivity in chick cerebellum and optic tectum |
Q52191154 | Hyperstriatum ventrale in pigeons: effects of lesions on color-discrimination and color-reversal learning. |
Q21262052 | Imprinting modulates processing of visual information in the visual wulst of chicks |
Q26796246 | Integrating brain, behavior, and phylogeny to understand the evolution of sensory systems in birds |
Q48689449 | Integration of information from both eyes by single neurons of nucleus rotundus, ectostriatum and lateral neostriatum in the zebra finch (Taeniopygia guttata castanotis Gould). |
Q46484327 | Intensity, color, and pattern discrimination deficits after lesions of the core and belt regions of the ectostriatum |
Q40268815 | Interactions between Tectal Radial Cells in the Red-Eared Turtle,Pseudemys scripta elegans: An Analysis of Tectal Modules |
Q48192502 | Interactions between stimulus-specific adaptation and visual auditory integration in the forebrain of the barn owl. |
Q48141917 | Internal structure of the nucleus rotundus revealed by mapping cadherin expression in the embryonic chicken visual system |
Q92585370 | Intratelencephalic projections of the avian visual dorsal ventricular ridge: Laminarly segregated, reciprocally and topographically organized |
Q49018804 | Laminar distribution of the cells of origin of the descending tectofugal pathways in the pigeon (Columba livia). |
Q73466088 | Light experience and lateralization of the two visual pathways in the chick |
Q48827166 | Local cholinergic interneurons modulate GABAergic inhibition in the chicken optic tectum |
Q36082871 | Localization of cerebellin-2 in late embryonic chicken brain: implications for a role in synapse formation and for brain evolution |
Q48694228 | Mapping of functional activity in the falcon visual system with [14C] 2-Deoxyglucose |
Q44095447 | Mesencephalic and diencephalic afferent connections to the thalamic nucleus rotundus in the lizard, Psammodromus algirus. |
Q52167816 | Morphologic fate of diencephalic prosomeres and their subdivisions revealed by mapping cadherin expression. |
Q48283731 | Morphology, axonal projection pattern, and response types of tectal neurons in plethodontid salamanders. II: intracellular recording and labeling experiments |
Q33572033 | Morphology, projection pattern, and neurochemical identity of Cajal's "centrifugal neurons": the cells of origin of the tectoventrogeniculate pathway in pigeon (Columba livia) and chicken (Gallus gallus). |
Q42258385 | Motion processing with wide-field neurons in the retino-tecto-rotundal pathway |
Q44499606 | Multiple manifestations of microstimulation in the optic tectum: eye movements, pupil dilations, and sensory priming |
Q48090817 | Neurogenesis, gliogenesis and the developing chicken optic tectum: an immunohistochemical and ultrastructural analysis. |
Q41552716 | Neurotransmitter Receptor Ligand Binding and Enzyme Regional Distribution in the Pigeon Visual System |
Q73259967 | New model for the avian magnetic compass |
Q58091431 | Nocturnal giants: evolution of the sensory ecology in elephant birds and other palaeognaths inferred from digital brain reconstructions |
Q42506791 | Nucleus isthmi, pars semilunaris as a key component of the tectofugal visual system in pigeons |
Q39408296 | Observations on the projections and intrinsic organization of the pigeon optic tectum: An autoradiographic study based on anterograde and retrograde, axonal and dendritic flow |
Q48826288 | Ongoing activity in the optic tectum is correlated on a trial-by-trial basis with the pupil dilation response |
Q48199318 | Organization of anterior dorsla ventricular ridge in snakes |
Q67810873 | Organization of ascending projections from the optic tectum and mesencephalic pretectal gray in Rana pipiens |
Q41971032 | Organization of ascending tectal projections in the lizardGekko gecko: a new pattern of tectorotundal inputs |
Q41692315 | Organization of nucleus rotundus, a tectofugal thalamic nucleus in turtles. I. Nissl and Golgi analyses |
Q48919453 | Organization of nucleus rotundus, a tectofugal thalamic nucleus in turtles. III. The tectorotundal projection |
Q71893242 | Organization of the avian "corticostriatal" projection system: a retrograde and anterograde pathway tracing study in pigeons |
Q44298249 | Organization of the ectostriatum based on afferent connections in the zebra finch (Taeniopygia guttata). |
Q90156512 | Parallel organization of the avian sensorimotor arcopallium: Tectofugal visual pathway in the pigeon (Columba livia) |
Q34521267 | Participation of the homing pigeon thalamofugal visual pathway in sun-compass associative learning |
Q48089414 | Perception of the Ebbinghaus illusion in four-day-old domestic chicks (Gallus gallus). |
Q40413110 | Pigeons and humans use action and pose information to categorize complex human behaviors |
Q49131222 | Plasticity in the chick ventral lateral geniculate nucleus |
Q48952961 | Projections of the dorsolateral anterior complex and adjacent thalamic nuclei upon the visual Wulst in the pigeon |
Q42518409 | Projections of the retinorecipient pretectal nuclei in the pigeon (columba livia) |
Q42441806 | Prosencephalic pathways related to the paleostriatum of the pigeon (Columba livia) |
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Q38619768 | Regulation of the development of tectal neurons and their projections by transcription factors Brn3a and Pax7. |
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Q48914755 | Restricted expression of R-cadherin by brain nuclei and neural circuits of the developing chicken brain |
Q44317487 | Retinal afferents to the tectum opticum and the nucleus opticus principalis thalami in the pigeon |
Q43990616 | Retinal projections in quail (Coturnix coturnix). |
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Q48808832 | Role of the nucleus geniculatus lateralis ventralis (GLv) in the optokinetic reflex: a lesion study in the pigeon |
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Q48117722 | Single-neuron responses to moving sine-wave gratings in the pigeon optic tectum |
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Q48456146 | The differential distribution of AMPA-receptor subunits in the tectofugal system of the pigeon |
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