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1.
Nature ; 508(7495): 207-14, 2014 Apr 10.
Artículo en Inglés | MEDLINE | ID: mdl-24695228

RESUMEN

Comprehensive knowledge of the brain's wiring diagram is fundamental for understanding how the nervous system processes information at both local and global scales. However, with the singular exception of the C. elegans microscale connectome, there are no complete connectivity data sets in other species. Here we report a brain-wide, cellular-level, mesoscale connectome for the mouse. The Allen Mouse Brain Connectivity Atlas uses enhanced green fluorescent protein (EGFP)-expressing adeno-associated viral vectors to trace axonal projections from defined regions and cell types, and high-throughput serial two-photon tomography to image the EGFP-labelled axons throughout the brain. This systematic and standardized approach allows spatial registration of individual experiments into a common three dimensional (3D) reference space, resulting in a whole-brain connectivity matrix. A computational model yields insights into connectional strength distribution, symmetry and other network properties. Virtual tractography illustrates 3D topography among interconnected regions. Cortico-thalamic pathway analysis demonstrates segregation and integration of parallel pathways. The Allen Mouse Brain Connectivity Atlas is a freely available, foundational resource for structural and functional investigations into the neural circuits that support behavioural and cognitive processes in health and disease.


Asunto(s)
Encéfalo/anatomía & histología , Encéfalo/citología , Conectoma , Animales , Atlas como Asunto , Axones/fisiología , Corteza Cerebral/citología , Cuerpo Estriado/citología , Masculino , Ratones , Ratones Endogámicos C57BL , Modelos Neurológicos , Técnicas de Trazados de Vías Neuroanatómicas , Tálamo/citología
2.
J Comp Neurol ; 522(9): 1989-2012, 2014 Jun 15.
Artículo en Inglés | MEDLINE | ID: mdl-24639291

RESUMEN

As an anterograde neuronal tracer, recombinant adeno-associated virus (AAV) has distinct advantages over the widely used biotinylated dextran amine (BDA). However, the sensitivity and selectivity of AAV remain uncharacterized for many brain regions and species. To validate this tracing method further, AAV (serotype 1) was systematically compared with BDA as an anterograde tracer by injecting both tracers into three cortical and 15 subcortical regions in C57BL/6J mice. Identical parameters were used for our sequential iontophoretic injections, producing injections of AAV that were more robust in size and in density of neurons infected compared with those of BDA. However, these differences did not preclude further comparison between the tracers, because the pairs of injections were suitably colocalized and contained some percentage of double-labeled neurons. A qualitative analysis of projection patterns showed that the two tracers behave very similarly when injection sites are well matched. Additionally, a quantitative analysis of relative projection intensity for cases targeting primary motor cortex (MOp), primary somatosensory cortex (SSp), and caudoputamen (CP) showed strong agreement in the ranked order of projection intensities between the two tracers. A detailed analysis of the projections of two brain regions (SSp and MOp) revealed many targets that have not previously been described in the mouse or rat. Minor retrograde labeling of neurons was observed in all cases examined, for both AAV and BDA. Our results show that AAV has actions equivalent to those of BDA as an anterograde tracer and is suitable for analysis of neural circuitry throughout the mouse brain.


Asunto(s)
Biotina/análogos & derivados , Encéfalo/anatomía & histología , Dependovirus , Dextranos , Colorantes Fluorescentes , Técnicas de Trazados de Vías Neuroanatómicas , Trazadores del Tracto Neuronal , Animales , Recuento de Células , Inmunohistoquímica , Ratones Endogámicos C57BL , Microscopía Confocal , Microscopía Fluorescente , Vías Nerviosas/anatomía & histología , Neuronas/citología , Fotomicrografía , Sensibilidad y Especificidad
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