Our understanding of the neurobiological underpinnings of learning and behavior relies on the use of invasive techniques, which necessitate the use of animal models. However, when different species learn the same task, to what degree are they actually producing the same behavior and engaging homologous neural circuitry? This question has received virtually no recent attention, even as the most powerful new methodologies for measuring and perturbing the nervous system have become increasingly dependent on the use of murine species. Here, we test humans, rats, monkeys, and an evolutionarily intermediate species, tree shrews, on a three alternative, forced choice, visual contrast discrimination task. As anticipated, learning rate, pea...
In the past mostly primate models have been used to study high-level visual processing combined with...
SummaryRats can discriminate simple shapes visually, even if they are moved around, made smaller, or...
The ability to recognize objects despite substantial variation in their appearance (e.g., because of...
Although rodents are the first-choice animal model in the life sciences, they are rarely used to stu...
SummaryAlthough rodents are the first-choice animal model in the life sciences, they are rarely used...
The human visual system is able to recognize objects despite tremendous variation in their appearanc...
Vision is the process of extracting behaviorally-relevant information from patterns of light that fa...
The rodent has been used to model various aspects of the human visual system, but it is unclear to w...
The visual system of humans and other primates has the remarkable ability to recognize objects despi...
AbstractIn this issue of Neuron, Uka and DeAngelis report a neural signature of the strategy that mo...
Most neuroscience techniques target rodents as the primary animal model to study neural circuits. By...
By learning to discriminate among visual stimuli, human observers can become experts at specific vis...
Although the hierarchical pathways underlying visual decision making in primates have been studied e...
Rodents are the most commonly used animal model in neuroscience. Remarkably, most methods for studyi...
A prominent theory of category learning, COVIS, posits that new categories are learned with either a...
In the past mostly primate models have been used to study high-level visual processing combined with...
SummaryRats can discriminate simple shapes visually, even if they are moved around, made smaller, or...
The ability to recognize objects despite substantial variation in their appearance (e.g., because of...
Although rodents are the first-choice animal model in the life sciences, they are rarely used to stu...
SummaryAlthough rodents are the first-choice animal model in the life sciences, they are rarely used...
The human visual system is able to recognize objects despite tremendous variation in their appearanc...
Vision is the process of extracting behaviorally-relevant information from patterns of light that fa...
The rodent has been used to model various aspects of the human visual system, but it is unclear to w...
The visual system of humans and other primates has the remarkable ability to recognize objects despi...
AbstractIn this issue of Neuron, Uka and DeAngelis report a neural signature of the strategy that mo...
Most neuroscience techniques target rodents as the primary animal model to study neural circuits. By...
By learning to discriminate among visual stimuli, human observers can become experts at specific vis...
Although the hierarchical pathways underlying visual decision making in primates have been studied e...
Rodents are the most commonly used animal model in neuroscience. Remarkably, most methods for studyi...
A prominent theory of category learning, COVIS, posits that new categories are learned with either a...
In the past mostly primate models have been used to study high-level visual processing combined with...
SummaryRats can discriminate simple shapes visually, even if they are moved around, made smaller, or...
The ability to recognize objects despite substantial variation in their appearance (e.g., because of...