Publications

Showing 4 of 4 Publications

2020

The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction
Inda MC, Joshi S, Wang T, Bolaender A, Gandu S, Koren III J, Che AY, Taldone T, Yan P, Sun W, Uddin M, Panchal P, Riolo M, Shah S, Barlas A, Xu K, Chan LYL, Gruzinova A, Kishinevsky S, Studer L, Fossati V, Noggle SA, White JR, de Stanchina E, Sequeira S, Anthoney KH, Steele JW, Manova-Todorova K, Patil S, Dunphy MP, Pillarsetty N, Pereira AC, Erdjument-Bromage H, Neubert TA, Rodina A, Ginsberg SD, De Marco Garcia N, Luo W, Chiosis G. The epichaperome is a mediator of toxic hippocampal stress and leads to protein connectivity-based dysfunction. Nature Communications 2020, 11: 319. PMID: 31949159, PMCID: PMC6965647, DOI: 10.1038/s41467-019-14082-5.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2015

Mutation of the Dyslexia-Associated Gene Dcdc2 Enhances Glutamatergic Synaptic Transmission Between Layer 4 Neurons in Mouse Neocortex.
Che A, Truong DT, Fitch RH, LoTurco JJ. Mutation of the Dyslexia-Associated Gene Dcdc2 Enhances Glutamatergic Synaptic Transmission Between Layer 4 Neurons in Mouse Neocortex. Cerebral Cortex 2015, 26: 3705-3718. PMID: 26250775, PMCID: PMC5004750, DOI: 10.1093/cercor/bhv168.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2014

DCDC2 Mutations Cause a Renal-Hepatic Ciliopathy by Disrupting Wnt Signaling
Schueler M, Braun DA, Chandrasekar G, Gee HY, Klasson TD, Halbritter J, Bieder A, Porath JD, Airik R, Zhou W, LoTurco JJ, Che A, Otto EA, Böckenhauer D, Sebire NJ, Honzik T, Harris PC, Koon SJ, Gunay-Aygun M, Saunier S, Zerres K, Bruechle NO, Drenth JP, Pelletier L, Tapia-Páez I, Lifton RP, Giles RH, Kere J, Hildebrandt F. DCDC2 Mutations Cause a Renal-Hepatic Ciliopathy by Disrupting Wnt Signaling. American Journal Of Human Genetics 2014, 96: 81-92. PMID: 25557784, PMCID: PMC4289677, DOI: 10.1016/j.ajhg.2014.12.002.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

2013

The Dyslexia-Associated Gene Dcdc2 Is Required for Spike-Timing Precision in Mouse Neocortex
Che A, Girgenti MJ, LoTurco J. The Dyslexia-Associated Gene Dcdc2 Is Required for Spike-Timing Precision in Mouse Neocortex. Biological Psychiatry 2013, 76: 387-396. PMID: 24094509, PMCID: PMC4025976, DOI: 10.1016/j.biopsych.2013.08.018.
Peer-Reviewed Original Research
MeSH Keywords and Concepts

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