Fernando García-Moreno

But it already had some specializations, like a different skin, specialized lungs, or brains, etc.

But it already had some specializations, like a different skin, specialized lungs, or brains, etc.

But it already had some specializations, like a different skin, specialized lungs, or brains, etc.

In every case, in all the species, the pallium is in charge of high task and high hierarchical tasks, such as cognitive processing, sensorial processing, motor control, also language, for instance, in the case of mammals and birds.

In every case, in all the species, the pallium is in charge of high task and high hierarchical tasks, such as cognitive processing, sensorial processing, motor control, also language, for instance, in the case of mammals and birds.

In every case, in all the species, the pallium is in charge of high task and high hierarchical tasks, such as cognitive processing, sensorial processing, motor control, also language, for instance, in the case of mammals and birds.

the hippocampus which is in charge of memory, for instance, memory processing, or the amygdala which is in charge of emotional processing.

the hippocampus which is in charge of memory, for instance, memory processing, or the amygdala which is in charge of emotional processing.

the hippocampus which is in charge of memory, for instance, memory processing, or the amygdala which is in charge of emotional processing.

So for some researchers, they thought that the same cell types appearing in the neocortex are located in a different manner, not in layers, but in nuclei, in birds, for instance. they tend to think this because all these neurons communicate each other in a quite similar fashion.

So for some researchers, they thought that the same cell types appearing in the neocortex are located in a different manner, not in layers, but in nuclei, in birds, for instance. they tend to think this because all these neurons communicate each other in a quite similar fashion.

So for some researchers, they thought that the same cell types appearing in the neocortex are located in a different manner, not in layers, but in nuclei, in birds, for instance. they tend to think this because all these neurons communicate each other in a quite similar fashion.

We found that the pallium of all the structures develops in the embryo following different rules. So the areas in the brain in which these neurons are generated for the pallium or the timing in which these neurons are generated, it is strictly different when we compare reptiles to mammals or to birds.

We found that the pallium of all the structures develops in the embryo following different rules. So the areas in the brain in which these neurons are generated for the pallium or the timing in which these neurons are generated, it is strictly different when we compare reptiles to mammals or to birds.

We found that the pallium of all the structures develops in the embryo following different rules. So the areas in the brain in which these neurons are generated for the pallium or the timing in which these neurons are generated, it is strictly different when we compare reptiles to mammals or to birds.

Yeah, we cannot research the brain of these animals who are extinct for 300 million years, but it allows us to hypothesize how the brain of these animals were. And we think that it shows us how the brain of the last common ancestor was organized in terms of palatal neurons and palatal circuitry. So we think that the same equivalent circuits that we see today

Yeah, we cannot research the brain of these animals who are extinct for 300 million years, but it allows us to hypothesize how the brain of these animals were. And we think that it shows us how the brain of the last common ancestor was organized in terms of palatal neurons and palatal circuitry. So we think that the same equivalent circuits that we see today

Yeah, we cannot research the brain of these animals who are extinct for 300 million years, but it allows us to hypothesize how the brain of these animals were. And we think that it shows us how the brain of the last common ancestor was organized in terms of palatal neurons and palatal circuitry. So we think that the same equivalent circuits that we see today

in different areas of the pallium were present in the last common ancestor, not present in, for instance, in the case of amphibians. But they must be present in the last common ancestor because all amniote species, mammals, reptiles and birds evolved circuits from them.

in different areas of the pallium were present in the last common ancestor, not present in, for instance, in the case of amphibians. But they must be present in the last common ancestor because all amniote species, mammals, reptiles and birds evolved circuits from them.