They also add support

They also add support 3 MA to the concept that neurons use their innate compartmentalization in their day-to-day processing and storage of information received via thousands of synaptic inputs from multiple presynaptic sources. The presence of spatial structure within the input could be used by neurons to selectively enhance the network response to particular patterns through well-understood dendritic boosting mechanisms ( Legenstein and

Maass, 2011 and Ujfalussy and Lengyel, 2011). The level of clustering required for this is quite relaxed: coactivation of <5% of synapses on a given branch can produce regenerative electrical events, and this process can occur within multiple branches ( Losonczy and Magee, 2006 and Branco and Häusser, 2010). In the end, observations that clustered forms of plasticity are engaged by normal neuronal activity and could

be used to produce spatially structured input patterns strengthens the concept that neurons use spatiotemporal input correlations to encode, process, and store particular stimulus features. “
“An incredible amount of computation goes on between light hitting the eye and our interpretation of what we see around us. This process starts at the photoreceptors, where photons are transduced into neural activity that travels through a series of brain regions, each extracting increasingly refined features, such as the selectivity of primary this website visual cortex (V1) for edges at specific orientations. These computations reach their culmination in the collection of visual cortical areas beyond V1, known collectively as “extrastriate” during cortex, where neurons encode high-order visual features such as objects, faces, motion, and foreground/background separation (Orban, 2008). In primates, the multiple extrastriate regions are often interpreted as creating a hierarchy with

two main pathways: the ventrally located “what is it?” stream and the dorsally located “where is it?” stream (Figure 1A). (Felleman and Van Essen, 1991 and Ungerleider and Mishkin, 1982). Neurons in ventral/“what” areas can have specific responses to particular objects, such as a face, in a manner that is invariant to position or viewing angle. In contrast, neurons in the dorsal/“where” areas process motion and represent location of objects or textures, irrespective of their identity. These pathways have also been defined in terms of a perception/action dichotomy—e.g., recognizing an object versus reaching toward it (Goodale and Milner, 1992).

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