A Korean couple who are both working as professors at prestigious U.S. universities proved the main cause of autism.

The couple found that certain bacteria in the mother’s digestive tract can lead to having an autistic child. Furthermore, they found the exact brain location linked to autistic behaviors, which can be used to find a cure for autism.

Science journal ‘Nature’ published the couple’s two research studies on the 14th. The couple are Harvard Medical School’s professor Huh Jun-ryeol, and MIT’s professor Gloria Choi.

The studies vividly explain the detailed process of a pregnant mouse, which is infected by a virus, having offspring that shows autistic behaviors.

The researchers found out that certain bacteria in the mother’s digestive tract can develop immune cells that directly influence the baby’s brain cells development. When the researchers removed the bacteria with antibiotics, the mouse had a normal baby mouse.

The researchers found that the patches are most common in a part of the brain known as S1DZ. Part of the somatosensory cortex, this region is believed to be responsible for proprioception, or sensing where the body is in space. In these patches, populations of cells called interneurons, which express a protein called parvalbumin, are reduced. Interneurons are responsible for controlling the balance of excitation and inhibition in the brain, and the researchers found that the changes they found in the cortical patches were associated with overexcitement in S1DZ.

When the researchers restored normal levels of brain activity in this area, they were able to reverse the behavioral abnormalities. They were also able to induce the behaviors in otherwise normal mice by overstimulating neurons in S1DZ.

The researchers also discovered that S1DZ sends messages to two other brain regions: the temporal association area of the cortex and the striatum. When the researchers inhibited the neurons connected to the temporal association area, they were able to reverse the sociability deficits. When they inhibited the neurons connected to the striatum, they were able to halt the repetitive behaviors..