Ruqiang Liang scite author profile

Neuromodulatory systems exert profound influences on brain function. Understanding how these systems modify the operating mode of target circuits requires measuring spatiotemporally precise neuromodulator release. We developed dLight1, an intensity-based genetically encoded dopamine indicator, to enable optical recording of dopamine dynamics with high spatiotemporal resolution in behaving mice. We demonstrated the utility of dLight1 by imaging dopamine dynamics simultaneously with pharmacological manipulation, electrophysiological or optogenetic stimulation, and calcium imaging of local neuronal activity. dLight1 enabled chronic tracking of learning-induced changes in millisecond dopamine transients in striatum. Further, we used dLight1 to image spatially distinct, functionally heterogeneous dopamine transients relevant to learning and motor control in cortex. We also validated our sensor design platform for developing norepinephrine, serotonin, melatonin, and opioid neuropeptide indicators.

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Identification of drought-induced microRNAs in rice

Zhao

Liang

et al. 2007

Biochemical and Biophysical Research Communications

483

336

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Members of miR-169 family are induced by high salinity and transiently inhibit the NF-YA transcription factor

et al. 2009

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Ruqiang Liang

Ultrafast neuronal imaging of dopamine dynamics with designed genetically encoded sensors

Identification of drought-induced microRNAs in rice

Members of miR-169 family are induced by high salinity and transiently inhibit the NF-YA transcription factor

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