Mario Rubio-Teves
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View article: Beyond Barrels: Diverse Thalamocortical Projection Motifs in the Mouse Ventral Posterior Complex
Beyond Barrels: Diverse Thalamocortical Projection Motifs in the Mouse Ventral Posterior Complex Open
Thalamocortical pathways from the rodent ventral posterior (VP) thalamic complex to the somatosensory cerebral cortex areas are a key model in modern neuroscience. However, beyond the intensively studied projection from medial VP (VPM) to …
View article: Translating single-neuron axonal reconstructions into meso-scale connectivity statistics in the mouse somatosensory thalamus
Translating single-neuron axonal reconstructions into meso-scale connectivity statistics in the mouse somatosensory thalamus Open
Characterizing the connectomic and morphological diversity of thalamic neurons is key for better understanding how the thalamus relays sensory inputs to the cortex. The recent public release of complete single-neuron morphological reconstr…
View article: Corrigendum: Cerebellar and basal ganglia inputs define three main nuclei in the mouse ventral motor thalamus
Corrigendum: Cerebellar and basal ganglia inputs define three main nuclei in the mouse ventral motor thalamus Open
[This corrects the article DOI: 10.3389/fnana.2023.1242839.].
View article: Analyzing Thalamocortical Tract-Tracing Experiments in a Common Reference Space
Analyzing Thalamocortical Tract-Tracing Experiments in a Common Reference Space Open
View article: NUCLEUS-SPECIFIC AXONAL ARCHITECTURES AND INNERVATION TERMINAL ARBORIZATION PATTERNS OF THE MOUSE PULVINAR (LP) COMPLEX THALAMOCORTICAL PROJECTION NEURONS
NUCLEUS-SPECIFIC AXONAL ARCHITECTURES AND INNERVATION TERMINAL ARBORIZATION PATTERNS OF THE MOUSE PULVINAR (LP) COMPLEX THALAMOCORTICAL PROJECTION NEURONS Open
View article: THALAMIC INPUTS DEFINE FUNCTIONAL DOMAINS OF THE MOUSE MOTOR CORTEX
THALAMIC INPUTS DEFINE FUNCTIONAL DOMAINS OF THE MOUSE MOTOR CORTEX Open
View article: Cerebellar and basal ganglia inputs define three main nuclei in the mouse ventral motor thalamus
Cerebellar and basal ganglia inputs define three main nuclei in the mouse ventral motor thalamus Open
The thalamus is a central link between cortical and subcortical brain motor systems. Axons from the deep nuclei of the cerebellum (DCN), or the output nuclei of the basal ganglia system (substantia nigra reticulata, SNr; and internal palli…
View article: Precise registration of axonal morphologies obtained from sections to a common reference space
Precise registration of axonal morphologies obtained from sections to a common reference space Open
We present a strategy to register manually traced neuronal morphologies to a reference atlas, with the final goal to publish the aligned neurons in the EBRAINS knowledge-graph, visualize them in the interactive atlas viewer and compare the…
View article: Reconstructing axons from sectioned brains through alignment and stitching
Reconstructing axons from sectioned brains through alignment and stitching Open
Since the turn of this century, new and powerful cell labeling techniques have allowed the consistent and complete labeling of axonal arborizations of individual long range projection neurons (LRPNs) in mouse (Furuta et al, 2001). The pros…
View article: A combinatorial input landscape in the "higher-order relay" posterior thalamic nucleus
A combinatorial input landscape in the "higher-order relay" posterior thalamic nucleus Open
<p>All pathways targeting the thalamus terminate directly onto the thalamic projection cells. As these cells lack local excitatory interconnections, their computations are fundamentally defined by the type and local convergence patte…
View article: A combinatorial input landscape in the “higher-order relay” posterior thalamic nucleus
A combinatorial input landscape in the “higher-order relay” posterior thalamic nucleus Open
All pathways targeting the thalamus terminate directly onto the thalamic projection cells. As these cells lack local excitatory interconnections, their computations are fundamentally defined by the type and local convergence patterns of th…
View article: A combinatorial input landscape in the "higher-order relay" posterior thalamic nucleus
A combinatorial input landscape in the "higher-order relay" posterior thalamic nucleus Open
Each one of the many pathways that target the thalamus terminates directly onto the thalamic projection cells. As these cells lack excitatory interconnections, their computations are fundamentally defined by the type and local convergence …
View article: A combinatorial mosaic of input-specific microdomains within the "higher-order relay" posterior thalamic nucleus of mice
A combinatorial mosaic of input-specific microdomains within the "higher-order relay" posterior thalamic nucleus of mice Open
<p>A large part of the thalamus is not directly involved in relaying ascending sensory inputs to the cerebral cortex. The functions and wiring of such “non-primary” nuclei remain unclear. The Posterior nucleus, a represen…
View article: Benchmarking of tools for axon length measurement in individually-labeled projection neurons
Benchmarking of tools for axon length measurement in individually-labeled projection neurons Open
Projection neurons are the commonest neuronal type in the mammalian forebrain and their individual characterization is a crucial step to understand how neural circuitry operates. These cells have an axon whose arborizations extend over lon…
View article: Anatomical study of the striatal and cortical projections arising from the posterior intralaminar thalamic nucleus neurons in the mouse.
Anatomical study of the striatal and cortical projections arising from the posterior intralaminar thalamic nucleus neurons in the mouse. Open
View article: Benchmarking of tools for axon length measurement in individually-labeled projection neurons
Benchmarking of tools for axon length measurement in individually-labeled projection neurons Open
Projection neurons are the commonest neuronal type in the mammalian forebrain and their individual characterization is a crucial step to understand how neural circuitry operates. These cells have an axon whose arborizations extend over lon…
View article: Area-Specific Synapse Structure in Branched Posterior Nucleus Axons Reveals a New Level of Complexity in Thalamocortical Networks
Area-Specific Synapse Structure in Branched Posterior Nucleus Axons Reveals a New Level of Complexity in Thalamocortical Networks Open
Thalamocortical posterior nucleus (Po) axons innervating the vibrissal somatosensory (S1) and motor (MC) cortices are key links in the brain neuronal network that allows rodents to explore the environment whisking with their motile snout v…
View article: Area-specific synapse structure in branched axons reveals a subcellular level of complexity in thalamocortical networks
Area-specific synapse structure in branched axons reveals a subcellular level of complexity in thalamocortical networks Open
Thalamocortical Posterior nucleus (Po) axons innervating the somatosensory (S1) and motor (MC) vibrissal cortices are key links in the brain neuronal network that allows rodents to explore the environment whisking with their motile vibriss…