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Badura A, Verpeut JL, Metzger JW, Pereira TD, Pisano TJ, Deverett B, et al. Normal cognitive and social development require posterior cerebellar activity. Elife. 2018 ;7.
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Deverett B, Kislin M, Tank DW, Wang SS-H. Cerebellar disruption impairs working memory during evidence accumulation. Nat Commun. 2019 ;10(1):3128.
Deverett B, Koay SAnn, Oostland M, Wang SS-H. Cerebellar involvement in an evidence-accumulation decision-making task. Elife. 2018 ;7.
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Giovannucci A, Badura A, Deverett B, Najafi F, Pereira TD, Gao Z, et al. Cerebellar granule cells acquire a widespread predictive feedback signal during motor learning. Nat Neurosci. 2017 ;20(5):727-734.
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Kloth AD, Badura A, Li A, Cherskov A, Connolly SG, Giovannucci A, et al. Cerebellar associative sensory learning defects in five mouse autism models. Elife. 2015 ;4:e06085.
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Piochon C, Kloth AD, Grasselli G, Titley HK, Nakayama H, Hashimoto K, et al. Cerebellar plasticity and motor learning deficits in a copy-number variation mouse model of autism. Nat Commun. 2014 ;5:5586.
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Wang SS-H, Kloth AD, Badura A. The cerebellum, sensitive periods, and autism. Neuron. 2014 ;83(3):518-32.
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Zanin JP, Verpeut JL, Li Y, Shiflett MW, Wang SS-H, Santhakumar V, et al. The p75NTR Influences Cerebellar Circuit Development and Adult Behavior via Regulation of Cell Cycle Duration of Granule Cell Progenitors. J Neurosci. 2019 ;39(46):9119-9129.