Researcher interests: We are interested in solving the secret of cognitive resilience. The cellular microenvironment in the brain is composed of multiple cell types, including neurons, astrocytes, microglia, vascular and other cells, and we are studying how interactions betwee
FACULTY / SCHOOL: Faculty of Science
Selected Publications
nuclei multiplexing with barcoded antibodies for single nucleus genomics (2019)|
Nature Communications|
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a cellular and spatial map of the choroid plexus across brain ventricles and ages (2019)|
bioRxiv|
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nuclei multiplexing with barcoded antibodies for single nucleus genomics (2018)|
bioRxiv|
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a single cell based atlas of human microglial states shows divergent associations with aging related neuropathologies and dementia (2018)|
Alzheimers & Dementia|
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a single cell based atlas of human microglial states reveals associations with neurological disorders and histopathological features of the aging brain (2018)|
bioRxiv|
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div seq single nucleus rna seq reveals dynamics of rare adult newborn neurons (2017)|
PMC|
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massively parallel single nucleus rna seq with dronc seq (2017)|
Nature Methods|
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dronc seq step by step (2017)|
Protocol exchange|
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dronc seq deciphering cell types in human archived brain tissues by massively parallel single nucleus rna seq (2017)|
bioRxiv|
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nuclear receptors control pro viral and antiviral metabolic responses to hepatitis c virus infection (2016)|
Nature Chemical Biology|
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