Add to ORKGNeuronal circuits formed in the brain are complex with intricate connection patterns. Such complexity is also observed in the retina with a relatively simple neuronal circuit. A retinal ganglion cell (GC) receives excitatory inputs from neurons in previous layers as driving forces to fire spikes. Analytical methods are required to decipher these components in a systematic manner. Recently a method called spike-triggered non-negative matrix factorization (STNMF) has been proposed for this purpose. In this study, we extend the scope of the STNMF method. By using retinal GCs as a model system, we show that STNMF can detect various computational properties of upstream bipolar cells (BCs), including spatial receptive field, temporal filter, and ...
Retina represents a highly complex, interconnected neural circuit that performs a variety of computa...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Right from the first synapse in the retina, visual information gets distributed across several paral...
Neuronal circuits formed in the brain are complex with intricate connection patterns. Such complexit...
Neurons in sensory systems often pool inputs over arrays of presynaptic cells, giving rise to functi...
A central challenge in sensory neuroscience involves understanding how neural circuits shape computa...
A central challenge in sensory neuroscience involves understanding how neural circuits shape computa...
Finding the complete functional circuits of neurons is a challenging problem in brain research. Here...
Finding out the physical structure of neuronal circuits that governs neuronal responses is an import...
Advances in neuronal recording techniques are leading to ever larger numbers of simultaneously monit...
Advances in neuronal recording techniques are leading to ever larger numbers of simultaneously monit...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Determining the receptive field of a retinal ganglion cell is critically important when formulating ...
The function of a neural circuit is shaped by the computations performed by its interneurons, which ...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Retina represents a highly complex, interconnected neural circuit that performs a variety of computa...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Right from the first synapse in the retina, visual information gets distributed across several paral...
Neuronal circuits formed in the brain are complex with intricate connection patterns. Such complexit...
Neurons in sensory systems often pool inputs over arrays of presynaptic cells, giving rise to functi...
A central challenge in sensory neuroscience involves understanding how neural circuits shape computa...
A central challenge in sensory neuroscience involves understanding how neural circuits shape computa...
Finding the complete functional circuits of neurons is a challenging problem in brain research. Here...
Finding out the physical structure of neuronal circuits that governs neuronal responses is an import...
Advances in neuronal recording techniques are leading to ever larger numbers of simultaneously monit...
Advances in neuronal recording techniques are leading to ever larger numbers of simultaneously monit...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Determining the receptive field of a retinal ganglion cell is critically important when formulating ...
The function of a neural circuit is shaped by the computations performed by its interneurons, which ...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Retina represents a highly complex, interconnected neural circuit that performs a variety of computa...
Stimulus selectivity of sensory neurons is often characterized by estimating their receptive field p...
Right from the first synapse in the retina, visual information gets distributed across several paral...