Liangyi Chen scite author profile

To increase the temporal resolution and maximal imaging time of super-resolution (SR) microscopy, we have developed a deconvolution algorithm for structured illumination microscopy based on Hessian matrixes (Hessian-SIM). It uses the continuity of biological structures in multiple dimensions as a priori knowledge to guide image reconstruction and attains artifact-minimized SR images with less than 10% of the photon dose used by conventional SIM while substantially outperforming current algorithms at low signal intensities. Hessian-SIM enables rapid imaging of moving vesicles or loops in the endoplasmic reticulum without motion artifacts and with a spatiotemporal resolution of 88 nm and 188 Hz. Its high sensitivity allows the use of sub-millisecond excitation pulses followed by dark recovery times to reduce photobleaching of fluorescent proteins, enabling hour-long time-lapse SR imaging of actin filaments in live cells. Finally, we observed the structural dynamics of mitochondrial cristae and structures that, to our knowledge, have not been observed previously, such as enlarged fusion pores during vesicle exocytosis.

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Solar energy-driven lignin-first approach to full utilization of lignocellulosic biomass under mild conditions

Fan

et al. 2018

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Mapping the Interacting Domains of STIM1 and Orai1 in Ca2+ Release-activated Ca2+ Channel Activation

Li¹,

Lu²,

Xu³

et al. 2007

Journal of Biological Chemistry

222

314

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STIM1 and Orai1 are essential components of Ca2؉ releaseactivated Ca 2؉ channels (CRACs). After endoplasmic reticulum Ca 2؉ store depletion, STIM1 in the endoplasmic reticulum aggregates and migrates toward the cell periphery to co-localize with Orai1 on the opposing plasma membrane. Little is known about the roles of different domains of STIM1 and Orai1 in protein clustering, migration, interaction, and, ultimately, opening CRAC channels. Here we demonstrate that the coiled-coil domain in the C terminus of STIM1 is crucial for its aggregation. Amino acids 425-671 of STIM1, which contain a serine-proline-rich region, are important for the correct targeting of the STIM1 cluster to the cell periphery after calcium store depletion. The polycationic region in the C-terminal tail of STIM1 also helps STIM1 targeting but is not essential for CRAC channel activation. The cytoplasmic C terminus but not the N terminus of Orai1 is required for its interaction with STIM1. We further identify a highly conserved region in the N terminus of Orai1 (amino acids 74 -90) that is necessary for CRAC channel opening. Finally, we show that the transmembrane domain of Orai1 participates in Orai1-Orai1 interactions.

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Fast high-resolution miniature two-photon microscopy for brain imaging in freely behaving mice

et al. 2017

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Developments in miniaturized microscopes have enabled visualization of brain activities and structural dynamics in animals engaging in self-determined behaviors. However, it remains a challenge to resolve activity at single dendritic spines in freely behaving animals. Here, we report the design and application of a fast high-resolution, miniaturized two-photon microscope (FHIRM-TPM) that accomplishes this goal. With a headpiece weighing 2.15 g and a hollow-core photonic crystal fiber delivering 920-nm femtosecond laser pulses, the FHIRM-TPM is capable of imaging commonly used biosensors (GFP and GCaMP6) at high spatiotemporal resolution (0.64 μm laterally and 3.35 μm axially, 40 Hz at 256 × 256 pixels for raster scanning and 10,000 Hz for free-line scanning). We demonstrate the microscope's robustness with hour-long recordings of neuronal activities at the level of spines in mice experiencing vigorous body movements.

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Functional stoichiometry of the unitary calcium-release-activated calcium channel

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

236

252

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Two proteins, STIM1 in the endoplasmic reticulum and Orai1 in the plasma membrane, are required for the activation of Ca 2؉ releaseactivated Ca 2؉ (CRAC) channels at the cell surface. How these proteins interact to assemble functional CRAC channels has remained uncertain. Here, we determine how many Orai1 and STIM1 molecules are required to form a functional CRAC channel. We engineered several genetically expressed fluorescent Orai1 tandem multimers and a fluorescent, constitutively active STIM1 mutant. The tandem multimers assembled into CRAC channels, as seen by rectifying inward currents and by cytoplasmic calcium elevations. CRAC channels were visualized as fluorescent puncta in total internal reflection microscopy. With single-molecule imaging techniques, it was possible to observe photo-bleaching of individual fluorophores and to count the steps of bleaching as a measure of the stoichiometry of each CRAC channel complex. We conclude that the subunit stoichiometry in an active CRAC channel is four Orai1 molecules and two STIM1 molecules. Fluorescence resonance energy transfer experiments also showed that four Orai1 subunits form the assembled channel. From the fluorescence intensity of single fluorophores, we could estimate that our transfected HEK293 cells had almost 400,000 CRAC channels and that, when intracellular Ca 2؉ stores were depleted, the channels clustered in aggregates containing Ϸ1,300 channels, amplifying the local Ca 2؉ entry.endoplasmic reticulum ͉ fluorescence resonance energy transfer

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An optimized acetylcholine sensor for monitoring in vivo cholinergic activity

et al. 2020

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The ability to directly measure acetylcholine (ACh) release is an essential step towards understanding its physiological function. Here, we optimized the GRAB ACh ( G PC R - A ctivation‒ B ased- ACh ) sensor to achieve substantially improved sensitivity in ACh detection, as well as reduced downstream coupling to intracellular pathways. The improved version of the ACh sensor retains the sub-second response kinetics, physiological-relevant affinity and precise molecular specificity to ACh of its predecessor. Using this sensor, we revealed compartmental ACh signals in the olfactory center of transgenic flies in response to external stimuli including odor and body shock. Using fiber photometry recording and two-photon imaging, our ACh sensor also enabled sensitive detection of single-trial ACh dynamics in multiple brain regions in mice in a variety of behaviors.

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Graded activation of CRAC channel by binding of different numbers of STIM1 to Orai1 subunits

et al. 2010

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The Ca 2+ release-activated Ca 2+ (CRAC) channel pore is formed by Orai1 and gated by STIM1 after intracellular Ca 2+ store depletion. To resolve how many STIM1 molecules are required to open a CRAC channel, we fused different numbers of Orai1 subunits with functional two-tandem cytoplasmic domains of STIM1 (residues 336-485, designated as S domain). Whole-cell patch clamp recordings of these chimeric molecules revealed that CRAC current reached maximum at a stoichiometry of four Orai1 and eight S domains. Further experiments indicate that two-tandem S domains specifically interact with the C-terminus of one Orai1 subunit, and CRAC current can be gradually increased as more Orai1 subunits can interact with S domains or STIM1 proteins. Our data suggest that maximal opening of one CRAC channel requires eight STIM1 molecules, and support a model that the CRAC channel activation is not in an "all-or-none" fashion but undergoes a graded process via binding of different numbers of STIM1.

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Aggregation of STIM1 underneath the plasma membrane induces clustering of Orai1

et al. 2006

Biochemical and Biophysical Research Communications

215

171

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Liangyi Chen

Fast, long-term, super-resolution imaging with Hessian structured illumination microscopy

Solar energy-driven lignin-first approach to full utilization of lignocellulosic biomass under mild conditions

Mapping the Interacting Domains of STIM1 and Orai1 in Ca2+ Release-activated Ca2+ Channel Activation

Fast high-resolution miniature two-photon microscopy for brain imaging in freely behaving mice

Functional stoichiometry of the unitary calcium-release-activated calcium channel

An optimized acetylcholine sensor for monitoring in vivo cholinergic activity

Graded activation of CRAC channel by binding of different numbers of STIM1 to Orai1 subunits

Aggregation of STIM1 underneath the plasma membrane induces clustering of Orai1

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