Do birds possess homologues of mammalian primary visual, somatosensory and motor cortices?
about
Migratory sleeplessness in the white-crowned sparrow (Zonotrichia leucophrys gambelii)Patterns of neurogenesis and amplitude of Reelin expression are essential for making a mammalian-type cortexMolecular mapping of movement-associated areas in the avian brain: a motor theory for vocal learning originToxoplasma gondii infection, from predation to schizophrenia: can animal behaviour help us understand human behaviour?Cognitive ornithology: the evolution of avian intelligenceThoughts on the development, structure and evolution of the mammalian and avian telencephalic pallium.Avian brains and a new understanding of vertebrate brain evolutionRevised nomenclature for avian telencephalon and some related brainstem nucleiNight-vision brain area in migratory songbirds.Integrating brain, behavior, and phylogeny to understand the evolution of sensory systems in birdsFrom sauropsids to mammals and back: New approaches to comparative cortical developmentContribution of genoarchitecture to understanding forebrain evolution and development, with particular emphasis on the amygdalaSongbirds and the revised avian brain nomenclatureNeocortex expansion is linked to size variations in gene families with chemotaxis, cell-cell signalling and immune response functions in mammalsGenetic manipulation of reptilian embryos: toward an understanding of cortical development and evolutionGlobal view of the functional molecular organization of the avian cerebrum: mirror images and functional columnsPlumes of neuronal activity propagate in three dimensions through the nuclear avian brain.Enriched expression and developmental regulation of the middle-weight neurofilament (NF-M) gene in song control nuclei of the zebra finch.Molecular profiling of the developing avian telencephalon: regional timing and brain subdivision continuitiesEvolutionary conservation of neocortical neurogenetic program in the mammals and birdsLocal sleep homeostasis in the avian brain: convergence of sleep function in mammals and birds?Hippocampal memory consolidation during sleep: a comparison of mammals and birdsA comparative view of face perception.The ecological relevance of sleep: the trade-off between sleep, memory and energy conservationThe dusp1 immediate early gene is regulated by natural stimuli predominantly in sensory input neuronsComparative aspects of cortical neurogenesis in vertebratesAvian evolution: from Darwin's finches to a new way of thinking about avian forebrain organization and behavioural capabilitiesLaminar and columnar auditory cortex in avian brain.Optical imaging of retinotopic maps in a small songbird, the zebra finch.A chicken model for studying the emergence of invariant object recognition.Modularity in vertebrate brain development and evolution.Responses of tectal neurons to contrasting stimuli: an electrophysiological study in the barn owl.Reptiles: a new model for brain evo-devo research.Multiple maps and activity-dependent representational plasticity in the anterior Wulst of the adult barn owl (Tyto alba).Mapping of the receptive fields in the optic tectum of chicken (Gallus gallus) using sparse noise.The corticostriatal junction: a crucial region for forebrain development and evolution.Changes in cortical interneuron migration contribute to the evolution of the neocortex.Critical steps in the early evolution of the isocortex: insights from developmental biology.Features of the retinotopic representation in the visual wulst of a laterally eyed bird, the zebra finch (Taeniopygia guttata).Multiple Visual Field Representations in the Visual Wulst of a Laterally Eyed Bird, the Zebra Finch (Taeniopygia guttata)
P2860
Q21092826-712D5036-15F8-4E00-994F-68039D13D1BEQ21144356-AE6CCEBF-FD5D-4F24-8759-B0DB1C491E7AQ21562293-9C7CAA2E-E88F-4FF5-B261-15120E2B710AQ22306157-78F4EBAB-2887-4347-A291-29B18003DD35Q22337100-325CCE01-1ABD-4C58-A4C9-728F29B5B2F6Q22337104-30BFC0D6-8DED-48F4-8C0B-59279ADD1F85Q22337223-9BEE8819-EFD0-4C88-9D72-A61D4BC0B75DQ22337412-5C39CBBE-998C-433D-88F1-F062F7FA94D4Q24529524-3DBCE777-0704-4371-974D-43C7494B73BBQ26796246-FB0703AA-2012-464A-80FD-AA1D801DEEC8Q26800191-EB9CD9D8-76C6-4523-B857-46EB4ACBC408Q26992009-5F79AF6D-5A64-45CF-A1F4-4093308F4E41Q28277305-DAA0EFBD-F87E-4175-99DD-6CB3F54D438AQ28596699-94955FBA-A829-415E-B155-7C06B861BA92Q28649502-AF074AF8-8F41-473E-9771-C3EC24DCD383Q28654216-283DB3C8-EDC1-4D8D-A683-1A1F020C75A2Q28657723-C409FA15-8D15-44A5-AFF0-479BFE528EF0Q28659345-CABB9007-1E45-48BB-8103-319EA0D379AAQ28661106-FF7D8CCE-514B-4370-B9D4-DC8AC2B791FFQ28681807-0940CAB0-34C4-4A57-B3BC-015B9BE6CDCDQ28743133-1C024287-5E09-4D35-BD10-BA7D779CC9E4Q28743544-05753B61-16F7-41CC-8CA5-4709DA9DC778Q28744402-A2E42CB7-39A4-43F5-82B0-61652FD77530Q28748689-6BFFC33F-C0F3-4976-9B97-2076992E8269Q28750331-4DEBB4E4-FF58-4127-BDB6-649408BE2331Q28754638-EDF2B85C-6427-45B6-AD16-783C63A9FA99Q28755055-3A1D0F3E-0D2D-4ED4-90B2-FA9033F1BD02Q30477593-D9688510-B159-435E-84D8-1C862F726DCBQ30480090-540D810D-717A-4CD1-B1B8-1AA9CC270BC2Q30621731-D52C168D-2909-4B85-9806-DBA53758A38EQ33956452-BC6A8AF6-4CBE-44D9-AEE0-B806043A7500Q34321545-EAD6AC58-0CC3-4826-A34D-F4D5C30B37C3Q34322580-697C9565-4A71-40A2-AB25-9D7260B8C64EQ34527430-0D127E31-582F-44BA-BE57-5F8322332F91Q34674146-3DF29C95-CAE5-4A0B-B8E4-BC2118A18D6DQ34732956-0941F7D4-4124-45E8-B006-6D8997C82E8BQ34977890-D847AF2F-66CA-47CA-AF09-A051B94CB890Q35000189-227142EB-AC6C-4269-BCD0-0A65BE825EBCQ35597300-CBCC5AAF-BE57-4B1C-9E29-139D724BDE2DQ36007014-996423FB-9BEE-4650-A860-12D01BEB7E14
P2860
Do birds possess homologues of mammalian primary visual, somatosensory and motor cortices?
description
2000 nî lūn-bûn
@nan
2000 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Do birds possess homologues of ...... atosensory and motor cortices?
@ast
Do birds possess homologues of ...... atosensory and motor cortices?
@en
type
label
Do birds possess homologues of ...... atosensory and motor cortices?
@ast
Do birds possess homologues of ...... atosensory and motor cortices?
@en
prefLabel
Do birds possess homologues of ...... atosensory and motor cortices?
@ast
Do birds possess homologues of ...... atosensory and motor cortices?
@en
P1476
Do birds possess homologues of ...... atosensory and motor cortices?
@en
P2093
P356
10.1016/S0166-2236(99)01486-1
P577
2000-01-01T00:00:00Z