[S] cientists at the University of North Carolina at Chapel Hill School of Medicine have shown that a protein called neurexin is required for. .nerve cell connections to form and function correctly. ❋ Unknown (2009)
This was a speech on autism, and Palin's critics have pounced on the fact that a recent study of Drosophila fruit flies showed that a protein called neurexin is essential for proper neurological function -- a discovery with clear implications for autism research. ❋ Unknown (2008)
Now scientists at the University of North Carolina at Chapel Hill School of Medicine have shown that a protein called neurexin is required for these nerve cell connections to form and function correctly. ❋ William Harryman (2007)
Drosophila fruit flies showed that a protein called neurexin is essential for proper neurological function -- a discovery with clear implications for autism research. ❋ Unknown (2008)
The gene makes a type of protein called a neurexin, which sits in the membranes of neurons, controlling interactions between different cells during the development and wiring up of the nervous system. ❋ Unknown (2008)
This was a speech on autism, and Palin's critics have recent study of Drosophila fruit flies showed that a protein called neurexin is essential for proper neurological function -- a discovery with clear implications for autism research. ❋ Unknown (2008)
Her speech was on autism, and Palin’s critics have pounced on the fact that a recent study of Drosophila fruit flies showed that a protein called neurexin is essential for proper neurological function — a discovery with clear implications for autism research! ❋ Unknown (2008)
"[S] cientists at the University of North Carolina at Chapel Hill School of Medicine have shown that a protein called neurexin is required for. .nerve cell connections to form and function correctly. ❋ Unknown (2008)
This provides independent support for the role of synaptic function in ASD, and it also makes researchers fairly confident that understanding the complicated biological role of the neuroligin-neurexin signaling pathway will provide important insight into brain function in ASD. ❋ Unknown (2010)
Our finding that neurexin III is expressed in Bergmann glia is particularly interesting in light of the proposed role of neurexins in the development and maintenance of functional synapses. ❋ Samir Koirala Et Al. (2010)
The expression of neurexin III in Bergmann glia raises the question of whether this molecule plays a role in anchoring glial processes to pre - and post-synaptic elements. ❋ Samir Koirala Et Al. (2010)