Feil Family Brain & Mind Research Institute

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Found 316 results
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Journal Article
McIntyre ABR, Ounit R, Afshinnekoo E, Prill RJ, Hénaff E, Alexander N, Minot SS, Danko D, Foox J, Ahsanuddin S et al..  2019.  Correction to: Comprehensive benchmarking and ensemble approaches for metagenomic classifiers.. Genome Biol. 20(1):72.
Braiman C, Fridman EA, Conte MM, Voss HU, Reichenbach CS, Reichenbach T, Schiff ND.  2018.  Cortical Response to the Natural Speech Envelope Correlates with Neuroimaging Evidence of Cognition in Severe Brain Injury.. Curr Biol.
Schenck EJ, Ma KC, Murthy SB, Choi AMK.  2018.  Danger Signals in the ICU.. Crit Care Med.
Gottshall JL, Adams ZM, Forgacs PB, Schiff ND.  2019.  Daytime Central Thalamic Deep Brain Stimulation Modulates Sleep Dynamics in the Severely Injured Brain: Mechanistic Insights and a Novel Framework for Alpha-Delta Sleep Generation.. Front Neurol. 10:20.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Mirzaa G, Parry DA, Fry AE, Giamanco KA, Schwartzentruber J, Vanstone M, Logan CV, Roberts N, Johnson CA, Singh S et al..  2014.  De novo CCND2 mutations leading to stabilization of cyclin D2 cause megalencephaly-polymicrogyria-polydactyly-hydrocephalus syndrome.. Nat Genet. 46(5):510-515.
Burré J, Sharma M, Südhof TC.  2015.  Definition of a molecular pathway mediating α-synuclein neurotoxicity.. J Neurosci. 35(13):5221-32.
Burré J, Sharma M, Südhof TC.  2015.  Definition of a molecular pathway mediating α-synuclein neurotoxicity.. J Neurosci. 35(13):5221-32.
Stepanova A, Konrad C, Manfredi G, Springett R, Ten V, Galkin A.  2018.  The dependence of brain mitochondria reactive oxygen species production on oxygen level is linear, except when inhibited by antimycin A.. J Neurochem.
Stepanova A, Konrad C, Manfredi G, Springett R, Ten V, Galkin A.  2018.  The dependence of brain mitochondria reactive oxygen species production on oxygen level is linear, except when inhibited by antimycin A.. J Neurochem.
Shurubor YI, D'Aurelio M, Clark-Matott J, Isakova EP, Deryabina YI, M Beal F, Cooper AJL, Krasnikov BF.  2017.  Determination of Coenzyme A and Acetyl-Coenzyme A in Biological Samples Using HPLC with UV Detection.. Molecules. 22(9)
Faraco G, Hochrainer K, Segarra SG, Schaeffer S, Santisteban MM, Menon A, Jiang H, Holtzman DM, Anrather J, Iadecola C.  2019.  Dietary salt promotes cognitive impairment through tau phosphorylation.. Nature.
Faraco G, Hochrainer K, Segarra SG, Schaeffer S, Santisteban MM, Menon A, Jiang H, Holtzman DM, Anrather J, Iadecola C.  2019.  Dietary salt promotes cognitive impairment through tau phosphorylation.. Nature.
Faraco G, Hochrainer K, Segarra SG, Schaeffer S, Santisteban MM, Menon A, Jiang H, Holtzman DM, Anrather J, Iadecola C.  2019.  Dietary salt promotes cognitive impairment through tau phosphorylation.. Nature.
Faraco G, Brea D, Garcia-Bonilla L, Wang G, Racchumi G, Chang H, Buendia I, Santisteban MM, Segarra SG, Koizumi K et al..  2018.  Dietary salt promotes neurovascular and cognitive dysfunction through a gut-initiated TH17 response.. Nat Neurosci.
Faraco G, Brea D, Garcia-Bonilla L, Wang G, Racchumi G, Chang H, Buendia I, Santisteban MM, Segarra SG, Koizumi K et al..  2018.  Dietary salt promotes neurovascular and cognitive dysfunction through a gut-initiated TH17 response.. Nat Neurosci.
Faraco G, Brea D, Garcia-Bonilla L, Wang G, Racchumi G, Chang H, Buendia I, Santisteban MM, Segarra SG, Koizumi K et al..  2018.  Dietary salt promotes neurovascular and cognitive dysfunction through a gut-initiated TH17 response.. Nat Neurosci.
Stepanova A, Shurubor Y, Valsecchi F, Manfredi G, Galkin A.  2016.  Differential susceptibility of mitochondrial complex II to inhibition by oxaloacetate in brain and heart.. Biochim Biophys Acta. 1857(9):1561-8.
Stepanova A, Shurubor Y, Valsecchi F, Manfredi G, Galkin A.  2016.  Differential susceptibility of mitochondrial complex II to inhibition by oxaloacetate in brain and heart.. Biochim Biophys Acta. 1857(9):1561-8.
Parikh NS, Merkler AE, Schneider Y, Navi BB, Kamel H.  2017.  Discharge Disposition After Stroke in Patients With Liver Disease.. Stroke. 48(2):476-478.
Giacino JT, Fins JJ, Laureys S, Schiff ND.  2014.  Disorders of consciousness after acquired brain injury: the state of the science.. Nat Rev Neurol. 10(2):99-114.