Author(s): de Zavalia N; Schoettner K; Goldsmith JA; Solis P; Ferraro S; Parent G; Amir S;
Alcohol consumption has been strongly associated with circadian clock gene expression in mammals. Analysis of clock genes revealed a potential role of Bmal1 in the control of alcohol drinking behavior. However, a causal role of Bmal1 and neural pathways through which it may influence alcohol intake have not yet been established. Here we show that selectiv ...
Article GUID: 34702951
Author(s): Ferraro S; de Zavalia N; Belforte N; Amir S;
Autism Spectrum Disorder (ASD) is a pervasive neurodevelopmental disorder characterised by restrictive patterns of behaviour and alterations in social interaction and communication. Up to 80% of children with ASD exhibit sleep-wake cycle disturbances, emphasising the pressing need for novel approaches in the treatment of ASD-associated comorbidities. Whil ...
Article GUID: 34650409
Author(s): Pathak SS, Liu D, Li T, de Zavalia N, Zhu L, Li J, Karthikeyan R, Alain T, Liu AC, Storch KF, Kaufman RJ, Jin VX, Amir S, Sonenberg N, Cao R
Neuron. 2019 Aug 26;: Authors: Pathak SS, Liu D, Li T, de Zavalia N, Zhu L, Li J, Karthikeyan R, Alain T, Liu AC, Storch KF, Kaufman RJ, Jin VX, Amir S, Sonenberg N, Cao R
Article GUID: 31522764
Author(s): Frederick A, Goldsmith J, de Zavalia N, Amir S
PLoS One. 2017;12(4):e0176279 Authors: Frederick A, Goldsmith J, de Zavalia N, Amir S
Article GUID: 28423013
Author(s): Cao R, Gkogkas CG, de Zavalia N, Blum ID, Yanagiya A, Tsukumo Y, Xu H, Lee C, Storch KF, Liu AC, Amir S, Sonenberg N
Nat Neurosci. 2015 Jun;18(6):855-62 Authors: Cao R, Gkogkas CG, de Zavalia N, Blum ID, Yanagiya A, Tsukumo Y, Xu H, Lee C, Storch KF, Liu AC, Amir S, Sonenberg N
Article GUID: 25915475
Author(s): Opiol H, de Zavalia N, Delorme T, Solis P, Rutherford S, Shalev U, Amir S
PLoS One. 2017;12(3):e0174113 Authors: Opiol H, de Zavalia N, Delorme T, Solis P, Rutherford S, Shalev U, Amir S
Article GUID: 28301599
Author(s): Liu D; Stowie A; de Zavalia N; Leise T; Pathak SS; Drewes LR; Davidson AJ; Amir S; Sonenberg N; Cao R;
Mammalian/mechanistic target of rapamycin (mTOR) signaling controls cell growth, proliferation, and metabolism in dividing cells. Less is known regarding its function in postmitotic neurons in the adult brain. Here we created a conditional mTOR knockout mouse model to address this question. Using ...
Article GUID: 29555746
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