Tuesday, March 28, 2017

Listening with eyes! Interview with John Magnotti on deciphering McGurk effect!!

We all have tried to lip-read when we can't hear properly. We try to use visual cues to listen when the audio cue is missing or of bad quality. But did you know that our brain tries to use visual cues even when we can hear nicely. And if the two cues are not in sync, we can get confused. In-fact, we might 'hear' a different sound than what is falling on our ears! Our eyes change our audio perceptions! 

Have a look here:


John and colleagues wanted to understand why the effect occurs. And to do so, they generated a computational model which used an audio and visual cue to predict its perception. They found that an important step in correct perception is deciding if the cue arrives from one or two sources. Knowing the number of origins improves understanding. To know more, please listen to John.


To know more, please refer to:
A Causal Inference Model Explains Perception of the McGurk Effect and Other Incongruent Audiovisual Speech
Magnotti and Beauchamp.  PLoS Comput Biol 2017

Sunday, March 26, 2017

Illuminating movements! Interview on motion control by optogenetics by PatrĂ­cia Correia.

Our brain controls our every behavior. This includes our simple everyday movements and our deepest thoughts and feelings. But are the mundane and complex processes connected in some way. Or are they processed in entirely different ways. Could there be a unified framework underneath the spectrum of behaviors.

Patricia and colleagues started by investigating the role of serotonin on mouse brain. Serotonin, a neuro-hormone, has been associated with mood and motivation within our brains. They wanted to understand the effect of providing increased amount of serotonin to mouse brain. They did this by using a technique called optogenetics, which is capable of using light to control cellular behavior. In their case, they used optogentics to increase serotonin levels in the brain. Upon doing this, they found a fascinating effect on the animal's locomotive behavior. This suggested that serotonin can controls our movements, possibly by affecting our motivations to carry them out! To know more, please listen to the interview with Patricia.


To know more, please refer to:

Transient inhibition and long-term facilitation of locomotion by phasic optogenetic activation of serotonin neurons.
Correia et al., eLife 2017;6:e20975

In addition, please have a look at wonderful fusion between art and science by Patricia, Roots of Curiosity, and her podcast, Creative Disturbance.