Jianhua He scite author profile

Voltage-gated sodium (Nav) channels are essential for the rapid depolarization of nerve and muscle1, and are important drug targets2. A family of bacterial Nav channels, exemplified by NaChBac (Na+-selective Channel of Bacteria)3, provides a good model system for structure-function analysis. Here we report the crystal structure of NavAP, a NaChBac orthologue from marine bacteria alpha proteobacterium HIMB114, at 3.05 Å resolution. The channel comprises an asymmetric tetramer. The carbonyl oxygen atoms of Thr178 and Leu179 constitute an inner site within the selectivity filter (178TLSSWE183) where a Ca2+ can bind and resides in the crystal structure. The outer mouth of the Na+ selectivity filter, defined by Ser181 and Glu183, is closed, as is the activation gate at the intracellular side of the pore. The voltage sensors adopt a depolarized conformation with all the gating charges exposing to the extracellular side. We hypothesize that NavAP is captured in an inactivated conformation. Comparison of NavAP with NavAb4 reveals significant conformational rearrangements that may underlie the electromechanical coupling mechanism of voltage-gated channels.

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Structural basis for the modular recognition of single-stranded RNA by PPR proteins

Yin

Yan

et al. 2013

Nature

287

350

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Pentatricopeptide repeat (PPR) proteins represent a large family of sequence-specific RNA-binding proteins that are involved in multiple aspects of RNA metabolism. PPR proteins, which are found in exceptionally large numbers in the mitochondria and chloroplasts of terrestrial plants, recognize single-stranded RNA (ssRNA) in a modular fashion. The maize chloroplast protein PPR10 binds to two similar RNA sequences from the ATPI-ATPH and PSAJ-RPL33 intergenic regions, referred to as ATPH and PSAJ, respectively. By protecting the target RNA elements from 5' or 3' exonucleases, PPR10 defines the corresponding 5' and 3' messenger RNA termini. Despite rigorous functional characterizations, the structural basis of sequence-specific ssRNA recognition by PPR proteins remains to be elucidated. Here we report the crystal structures of PPR10 in RNA-free and RNA-bound states at resolutions of 2.85 and 2.45 Å, respectively. In the absence of RNA binding, the nineteen repeats of PPR10 are assembled into a right-handed superhelical spiral. PPR10 forms an antiparallel, intertwined homodimer and exhibits considerable conformational changes upon binding to its target ssRNA, an 18-nucleotide PSAJ element. Six nucleotides of PSAJ are specifically recognized by six corresponding PPR10 repeats following the predicted code. The molecular basis for the specific and modular recognition of RNA bases A, G and U is revealed. The structural elucidation of RNA recognition by PPR proteins provides an important framework for potential biotechnological applications of PPR proteins in RNA-related research areas.

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Association between adverse clinical outcome in human disease caused by novel influenza A H7N9 virus and sustained viral shedding and emergence of antiviral resistance

et al. 2013

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Structural basis for reversible amyloids of hnRNPA1 elucidates their role in stress granule assembly

et al. 2019

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Subcellular membrane-less organelles consist of proteins with low complexity domains. Many of them, such as hnRNPA1, can assemble into both a polydisperse liquid phase and an ordered solid phase of amyloid fibril. The former mirrors biological granule assembly, while the latter is usually associated with neurodegenerative disease. Here, we observe a reversible amyloid formation of hnRNPA1 that synchronizes with liquid–liquid phase separation, regulates the fluidity and mobility of the liquid-like droplets, and facilitates the recruitment of hnRNPA1 into stress granules. We identify the reversible amyloid-forming cores of hnRNPA1 (named hnRACs). The atomic structures of hnRACs reveal a distinct feature of stacking Asp residues, which contributes to fibril reversibility and explains the irreversible pathological fibril formation caused by the Asp mutations identified in familial ALS. Our work characterizes the structural diversity and heterogeneity of reversible amyloid fibrils and illuminates the biological function of reversible amyloid formation in protein phase separation.

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Upgrade of macromolecular crystallography beamline BL17U1 at SSRF

et al. 2018

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Molecular determinants of human neutralizing antibodies isolated from a patient infected with Zika virus

et al. 2016

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The 2015-2016 outbreak of Zika virus (ZIKV) disease has affected many countries and is a major public health concern. ZIKV is associated with fetal microcephaly and neurological complications, and countermeasures are needed to treat and prevent ZIKV infection. We report the isolation of 13 specific human monoclonal antibodies from a single patient infected with ZIKV. Two of the isolated antibodies (Z23 and Z3L1) demonstrated potent ZIKV-specific neutralization in vitro without binding or neutralizing activity against strains 1 to 4 of dengue virus, the closest relative to ZIKV. These two antibodies provided postexposure protection to mice in vivo. Structural studies revealed that Z23 and Z3L1 bound to tertiary epitopes in envelope protein domain I, II, or III, indicating potential targets for ZIKV-specific therapy. Our results suggest the potential of antibody-based therapeutics and provide a structure-based rationale for the design of future ZIKV-specific vaccines.

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The 2009 pandemic H1N1 neuraminidase N1 lacks the 150-cavity in its active site

Zhang

et al. 2010

Nat Struct Mol Biol

154

179

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Influenza A virus neuraminidase can be classified into groups 1 and 2 on the basis of its primary structure. The main structural feature of group 1 neuraminidase is an extra cavity in the active site, the 150-cavity. Here we present the crystal structure of neuraminidase from the 2009 pandemic H1N1 influenza strain. In contrast to other characterized N1 neuraminidases, which are all members of group 1, 2009 H1N1 neuraminidase does not have a 150-cavity.

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A Spectral Line Survey in the 2 and 1.3 mm Windows toward the Carbon‐rich Envelope of IRC +10216

Dinh-V-Trung

Kwok

et al. 2008

ASTROPHYS J SUPPL S

127

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We present the results of our spectral line surveys in the 1.3 and 2 mm windows toward the carbon-rich envelope of IRC +10216. There were 377 lines are detected in total, of which 360 lines are assigned to 57 known molecules (including 29 rare isotopomers and two cyclic isomers). Only 17 weak lines remain unidentified. Rotational lines of isotopomers 13 CCH and HN 13 C are detected for the first time in IRC +10216 . The detection of the formaldehyde lines in this star is also confirmed. Possible abundance differences among the three 13 C-substituted isotopic isomers of HC 3 N is reported. Isotopic ratios of C and O are confirmed to be nonsolar while those of S and Si to be nearly solar. Column densities have been estimated for 15 molecular species. Modified spectroscopic parameters have been calculated for NaCN, Na 13 CN, KCN, and SiC 2 . Transition frequencies from the present observations were used to improve the spectroscopic parameters of Si 13 CC, 29 SiC 2 , and 30 SiC 2 .

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Jianhua He

Crystal structure of an orthologue of the NaChBac voltage-gated sodium channel

Structural basis for the modular recognition of single-stranded RNA by PPR proteins

Association between adverse clinical outcome in human disease caused by novel influenza A H7N9 virus and sustained viral shedding and emergence of antiviral resistance

Structural basis for reversible amyloids of hnRNPA1 elucidates their role in stress granule assembly

Upgrade of macromolecular crystallography beamline BL17U1 at SSRF

Molecular determinants of human neutralizing antibodies isolated from a patient infected with Zika virus

The 2009 pandemic H1N1 neuraminidase N1 lacks the 150-cavity in its active site

A Spectral Line Survey in the 2 and 1.3 mm Windows toward the Carbon‐rich Envelope of IRC +10216

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