Tuesday, July 25, 2017

Is believing seeing? Interview with Benedikt Ehinger on how humans percieve unreliable information!

We use the information from our senses to make sense of the world. But sometimes, the information can be unreliable. What does our mind do in face of corrupted information?

Benedikt and colleagues wanted to understand how our mind makes sense of the world when faced with unreliable information. They used the model of blind spot, a part of our visual field that does not detect light. Our mind fills-in the blind spot such that we are not aware of its presence. The experiment was set up to find out if we are aware of 'information filling-in', which makes the blind spot a source of unreliable information. Unexpectedly, not only are we not aware of the unreliability of the information, we in-fact prefer the filled-in information from the blind spot over reality. In the words of AndrĂ© Breton, “The imaginary is what tends to become real.” To know more, please listen to Benedikt.


To know more, please refer to:
Humans treat unreliable filled-in percepts as more real than veridical ones.
Benedikt Ehinger, et al., eLife, May, 2017


Monday, July 24, 2017

Don't judge a book by its cover. Different neural circuitry underlying similar behavior by Akira Sakurai!

It is assumed that similar behaviors are generated by similar neuronal mechanisms. If nature has found one way of doing things, it will reuse it again and again for the same purpose. Akira and colleagues wanted to investigate this phenomena in the swimming behavior of two closely related molluscs. The swimming behavior of the two species is generated by very similar neurons, yet when they looked closely, the connections between neurons differed drastically. This suggested that the swimming behavior used the same same blueprint, but different architecture. To know more, please listen to Akira.  


For more information, please refer to:
Artificial Synaptic Rewiring Demonstrates that Distinct Neural Circuit Configurations Underlie Homologous Behaviors
Akira Sakurai and Paul S. Katz, Current Biology, June 2017