Your search keyword '"Wei Wei"' showing total 523 results

1. Ampere-level CO2 electroreduction with single-pass conversion exceeding 85% in acid over silver penetration electrodes

Author

Shoujie Li, Xiao Dong, Gangfeng Wu, Yanfang Song, Jianing Mao, Aohui Chen, Chang Zhu, Guihua Li, Yiheng Wei, Xiaohu Liu, Jiangjiang Wang, Wei Chen, and Wei Wei

Subjects

Science

Abstract

Abstract Synthesis of valuable chemicals from CO2 electroreduction in acidic media is highly desirable to overcome carbonation. However, suppressing the hydrogen evolution reaction in such proton-rich environments remains a considerable challenge. The current study demonstrates the use of a hollow fiber silver penetration electrode with hierarchical micro/nanostructures to enable CO2 reduction to CO in strong acids via balanced coordination of CO2 and K+/H+ supplies. Correspondingly, a CO faradaic efficiency of 95% is achieved at a partial current density as high as 4.3 A/cm2 in a pH = 1 solution of H2SO4 and KCl, sustaining 200 h of continuous electrolysis at a current density of 2 A/cm2 with over 85% single-pass conversion of CO2. The experimental results and density functional theory calculations suggest that the controllable CO2 feeding induced by the hollow fiber penetration configuration primarily coordinate the CO2/H+ balance on Ag active sites in strong acids, favoring CO2 activation and key intermediate *COOH formation, resulting in enhanced CO formation.

Published

2024

2. Wide-energy programmable microwave plasma-ionization for high-coverage mass spectrometry analysis

Author

Fengjian Chu, Gaosheng Zhao, Wei Wei, Nazifi Sani Shuaibu, Hongru Feng, Yuanjiang Pan, and Xiaozhi Wang

Subjects

Science

Abstract

Abstract Although numerous ambient ionization mass spectroscopy technologies have been developed over the past 20 years to address diverse analytical circumstances, a single-ion source technique that can handle all analyte types is still lacking. Here, a wide-energy programmable microwave plasma-ionization mass spectrometry (WPMPI-MS) system is presented, through which MS analysis can achieve high coverage of substances with various characteristics by digitally regulating the microwave energy. In addition, ionization energy can be rapidly scanned using programmable waveforms, enabling the simultaneous detection of biomolecules, heavy metals, non-polar molecules, etc., in seconds. WPMPI-MS performs well in analyzing real samples, rapidly analyzing nine toxicological standards in one drop of serum, and demonstrating good quantification and liquid chromatography coupling capability. The WPMPI-MS has also been used to detect soil extracts, solid pharmaceuticals, and landfill leachate, further demonstrating its robust analytical capabilities for real samples. The prospective uses of the technology in biological and chemical analysis are extensive, and it is anticipated to emerge as a viable alternative to commercially available ion sources.

Published

2024

3. Membrane protein MHZ3 regulates the on-off switch of ethylene signaling in rice

Author

Xin-Kai Li, Yi-Hua Huang, Rui Zhao, Wu-Qiang Cao, Long Lu, Jia-Qi Han, Yang Zhou, Xun Zhang, Wen-Ai Wu, Jian-Jun Tao, Wei Wei, Wan-Ke Zhang, Shou-Yi Chen, Biao Ma, He Zhao, Cui-Cui Yin, and Jin-Song Zhang

Subjects

Science

Abstract

Abstract Ethylene regulates plant growth, development, and stress adaptation. However, the early signaling events following ethylene perception, particularly in the regulation of ethylene receptor/CTRs (CONSTITUTIVE TRIPLE RESPONSE) complex, remains less understood. Here, utilizing the rapid phospho-shift of rice OsCTR2 in response to ethylene as a sensitive readout for signal activation, we revealed that MHZ3, previously identified as a stabilizer of ETHYLENE INSENSITIVE 2 (OsEIN2), is crucial for maintaining OsCTR2 phosphorylation. Genetically, both functional MHZ3 and ethylene receptors prove essential for OsCTR2 phosphorylation. MHZ3 physically interacts with both subfamily I and II ethylene receptors, e.g., OsERS2 and OsETR2 respectively, stabilizing their association with OsCTR2 and thereby maintaining OsCTR2 activity. Ethylene treatment disrupts the interactions within the protein complex MHZ3/receptors/OsCTR2, reducing OsCTR2 phosphorylation and initiating downstream signaling. Our study unveils the dual role of MHZ3 in fine-tuning ethylene signaling activation, providing insights into the initial stages of the ethylene signaling cascade.

Published

2024

4. Biocompatible aggregation-induced emission active polyphosphate-manganese nanosheets with glutamine synthetase-like activity in excitotoxic nerve cells

Author

Jing Wang, Xinyang Zhao, Yucheng Tao, Xiuxiu Wang, Li Yan, Kuang Yu, Yi Hsu, Yuncong Chen, Jing Zhao, Yong Huang, and Wei Wei

Subjects

Science

Abstract

Abstract Glutamine synthetase (GS) is vital in maintaining ammonia and glutamate (Glu) homeostasis in living organisms. However, the natural enzyme relies on adenosine triphosphate (ATP) to activate Glu, resulting in impaired GS function during ATP-deficient neurotoxic events. To date, no reports demonstrate using artificial nanostructures to mimic GS function. In this study, we synthesize aggregation-induced emission active polyP-Mn nanosheets (STPE-PMNSs) based on end-labeled polyphosphate (polyP), exhibiting remarkable GS-like activity independent of ATP presence. Further investigation reveals polyP in STPE-PMNSs serves as phosphate source to activate Glu at low ATP levels. This self-feeding mechanism offers a significant advantage in regulating Glu homeostasis at reduced ATP levels in nerve cells during excitotoxic conditions. STPE-PMNSs can effectively promote the conversion of Glu to glutamine (Gln) in excitatory neurotoxic human neuroblastoma cells (SH-SY5Y) and alleviate Glu-induced neurotoxicity. Additionally, the fluorescence signal of nanosheets enables precise monitoring of the subcellular distribution of STPE-PMNSs. More importantly, the intracellular fluorescence signal is enhanced in a conversion-responsive manner, allowing real-time tracking of reaction progression. This study presents a self-sustaining strategy to address GS functional impairment caused by ATP deficiency in nerve cells during neurotoxic events. Furthermore, it offers a fresh perspective on the potential biological applications of polyP-based nanostructures.

Published

2024

5. Dendritic mGluR2 and perisomatic Kv3 signaling regulate dendritic computation of mouse starburst amacrine cells

Author

Héctor Acarón Ledesma, Jennifer Ding, Swen Oosterboer, Xiaolin Huang, Qiang Chen, Sui Wang, Michael Z. Lin, and Wei Wei

Subjects

Science

Abstract

Abstract Dendritic mechanisms driving input-output transformation in starburst amacrine cells (SACs) are not fully understood. Here, we combine two-photon subcellular voltage and calcium imaging and electrophysiological recording to determine the computational architecture of mouse SAC dendrites. We found that the perisomatic region integrates motion signals over the entire dendritic field, providing a low-pass-filtered global depolarization to dendrites. Dendrites integrate local synaptic inputs with this global signal in a direction-selective manner. Coincidental local synaptic inputs and the global motion signal in the outward motion direction generate local suprathreshold calcium transients. Moreover, metabotropic glutamate receptor 2 (mGluR2) signaling in SACs modulates the initiation of calcium transients in dendrites but not at the soma. In contrast, voltage-gated potassium channel 3 (Kv3) dampens fast voltage transients at the soma. Together, complementary mGluR2 and Kv3 signaling in different subcellular regions leads to dendritic compartmentalization and direction selectivity, highlighting the importance of these mechanisms in dendritic computation.

Published

2024

6. Dual electrical stimulation at spinal-muscular interface reconstructs spinal sensorimotor circuits after spinal cord injury

Author

Kai Zhou, Wei Wei, Dan Yang, Hui Zhang, Wei Yang, Yunpeng Zhang, Yingnan Nie, Mingming Hao, Pengcheng Wang, Hang Ruan, Ting Zhang, Shouyan Wang, and Yaobo Liu

Subjects

Science

Abstract

Abstract The neural signals produced by varying electrical stimulation parameters lead to characteristic neural circuit responses. However, the characteristics of neural circuits reconstructed by electrical signals remain poorly understood, which greatly limits the application of such electrical neuromodulation techniques for the treatment of spinal cord injury. Here, we develop a dual electrical stimulation system that combines epidural electrical and muscle stimulation to mimic feedforward and feedback electrical signals in spinal sensorimotor circuits. We demonstrate that a stimulus frequency of 10−20 Hz under dual stimulation conditions is required for structural and functional reconstruction of spinal sensorimotor circuits, which not only activates genes associated with axonal regeneration of motoneurons, but also improves the excitability of spinal neurons. Overall, the results provide insights into neural signal decoding during spinal sensorimotor circuit reconstruction, suggesting that the combination of epidural electrical and muscle stimulation is a promising method for the treatment of spinal cord injury.

Published

2024

7. Endothelial leakiness elicited by amyloid protein aggregation

Author

Yuhuan Li, Nengyi Ni, Myeongsang Lee, Wei Wei, Nicholas Andrikopoulos, Aleksandr Kakinen, Thomas P. Davis, Yang Song, Feng Ding, David Tai Leong, and Pu Chun Ke

Subjects

Science

Abstract

Abstract Alzheimer’s disease (AD) is a major cause of dementia debilitating the global ageing population. Current understanding of the AD pathophysiology implicates the aggregation of amyloid beta (Aβ) as causative to neurodegeneration, with tauopathies, apolipoprotein E and neuroinflammation considered as other major culprits. Curiously, vascular endothelial barrier dysfunction is strongly associated with Aβ deposition and 80-90% AD subjects also experience cerebral amyloid angiopathy. Here we show amyloid protein-induced endothelial leakiness (APEL) in human microvascular endothelial monolayers as well as in mouse cerebral vasculature. Using signaling pathway assays and discrete molecular dynamics, we revealed that the angiopathy first arose from a disruption to vascular endothelial (VE)-cadherin junctions exposed to the nanoparticulates of Aβ oligomers and seeds, preceding the earlier implicated proinflammatory and pro-oxidative stressors to endothelial leakiness. These findings were analogous to nanomaterials-induced endothelial leakiness (NanoEL), a major phenomenon in nanomedicine depicting the paracellular transport of anionic inorganic nanoparticles in the vasculature. As APEL also occurred in vitro with the oligomers and seeds of alpha synuclein, this study proposes a paradigm for elucidating the vascular permeation, systemic spread, and cross-seeding of amyloid proteins that underlie the pathogeneses of AD and Parkinson’s disease.

Published

2024

8. Intranasal mask for protecting the respiratory tract against viral aerosols

Author

Xiaoming Hu, Shuang Wang, Shaotong Fu, Meng Qin, Chengliang Lyu, Zhaowen Ding, Yan Wang, Yishu Wang, Dongshu Wang, Li Zhu, Tao Jiang, Jing Sun, Hui Ding, Jie Wu, Lingqian Chang, Yimin Cui, Xiaocong Pang, Youchun Wang, Weijin Huang, Peidong Yang, Limin Wang, Guanghui Ma, and Wei Wei

Subjects

Science

Abstract

Abstract The spread of many infectious diseases relies on aerosol transmission to the respiratory tract. Here we design an intranasal mask comprising a positively-charged thermosensitive hydrogel and cell-derived micro-sized vesicles with a specific viral receptor. We show that the positively charged hydrogel intercepts negatively charged viral aerosols, while the viral receptor on vesicles mediates the entrapment of viruses for inactivation. We demonstrate that when displaying matched viral receptors, the intranasal masks protect the nasal cavity and lung of mice from either severe acute respiratory syndrome coronavirus 2 or influenza A virus. With computerized tomography images of human nasal cavity, we further conduct computational fluid dynamics simulation and three-dimensional printing of an anatomically accurate human nasal cavity, which is connected to human lung organoids to generate a human respiratory tract model. Both simulative and experimental results support the suitability of intranasal masks in humans, as the likelihood of viral respiratory infections induced by different variant strains is dramatically reduced.

Published

2023

9. A class of secreted mammalian peptides with potential to expand cell-cell communication

Author

Amanda L. Wiggenhorn, Hind Z. Abuzaid, Laetitia Coassolo, Veronica L. Li, Julia T. Tanzo, Wei Wei, Xuchao Lyu, Katrin J. Svensson, and Jonathan Z. Long

Subjects

Science

Abstract

Abstract Peptide hormones and neuropeptides are signaling molecules that control diverse aspects of mammalian homeostasis and physiology. Here we provide evidence for the endogenous presence of a sequence diverse class of blood-borne peptides that we call “capped peptides.” Capped peptides are fragments of secreted proteins and defined by the presence of two post-translational modifications – N-terminal pyroglutamylation and C-terminal amidation – which function as chemical “caps” of the intervening sequence. Capped peptides share many regulatory characteristics in common with that of other signaling peptides, including dynamic physiologic regulation. One capped peptide, CAP-TAC1, is a tachykinin neuropeptide-like molecule and a nanomolar agonist of mammalian tachykinin receptors. A second capped peptide, CAP-GDF15, is a 12-mer peptide cleaved from the prepropeptide region of full-length GDF15 that, like the canonical GDF15 hormone, also reduces food intake and body weight. Capped peptides are a potentially large class of signaling molecules with potential to broadly regulate cell-cell communication in mammalian physiology.

Published

2023

10. Fear extinction is regulated by the activity of long noncoding RNAs at the synapse

Author

Wei-Siang Liau, Qiongyi Zhao, Adekunle Bademosi, Rachel S. Gormal, Hao Gong, Paul R. Marshall, Ambika Periyakaruppiah, Sachithrani U. Madugalle, Esmi L. Zajaczkowski, Laura J. Leighton, Haobin Ren, Mason Musgrove, Joshua Davies, Simone Rauch, Chuan He, Bryan C. Dickinson, Xiang Li, Wei Wei, Frédéric A. Meunier, Sandra M. Fernández-Moya, Michael A. Kiebler, Balakumar Srinivasan, Sourav Banerjee, Michael Clark, Robert C. Spitale, and Timothy W. Bredy

Subjects

Science

Abstract

Abstract Long noncoding RNAs (lncRNAs) represent a multidimensional class of regulatory molecules that are involved in many aspects of brain function. Emerging evidence indicates that lncRNAs are localized to the synapse; however, a direct role for their activity in this subcellular compartment in memory formation has yet to be demonstrated. Using lncRNA capture-seq, we identified a specific set of lncRNAs that accumulate in the synaptic compartment within the infralimbic prefrontal cortex of adult male C57/Bl6 mice. Among these was a splice variant related to the stress-associated lncRNA, Gas5. RNA immunoprecipitation followed by mass spectrometry and single-molecule imaging revealed that this Gas5 isoform, in association with the RNA binding proteins G3BP2 and CAPRIN1, regulates the activity-dependent trafficking and clustering of RNA granules. In addition, we found that cell-type-specific, activity-dependent, and synapse-specific knockdown of the Gas5 variant led to impaired fear extinction memory. These findings identify a new mechanism of fear extinction that involves the dynamic interaction between local lncRNA activity and RNA condensates in the synaptic compartment.

Published

2023

11. Cascade electrocatalysis via AgCu single-atom alloy and Ag nanoparticles in CO2 electroreduction toward multicarbon products

Author

Cheng Du, Joel P. Mills, Asfaw G. Yohannes, Wei Wei, Lei Wang, Siyan Lu, Jian-Xiang Lian, Maoyu Wang, Tao Guo, Xiyang Wang, Hua Zhou, Cheng-Jun Sun, John Z. Wen, Brian Kendall, Martin Couillard, Hongsheng Guo, ZhongChao Tan, Samira Siahrostami, and Yimin A. Wu

Subjects

Science

Abstract

Abstract Electrocatalytic CO2 reduction into value-added multicarbon products offers a means to close the anthropogenic carbon cycle using renewable electricity. However, the unsatisfactory catalytic selectivity for multicarbon products severely hinders the practical application of this technology. In this paper, we report a cascade AgCu single-atom and nanoparticle electrocatalyst, in which Ag nanoparticles produce CO and AgCu single-atom alloys promote C-C coupling kinetics. As a result, a Faradaic efficiency (FE) of 94 ± 4% toward multicarbon products is achieved with the as-prepared AgCu single-atom and nanoparticle catalyst under ~720 mA cm−2 working current density at −0.65 V in a flow cell with alkaline electrolyte. Density functional theory calculations further demonstrate that the high multicarbon product selectivity results from cooperation between AgCu single-atom alloys and Ag nanoparticles, wherein the Ag single-atom doping of Cu nanoparticles increases the adsorption energy of *CO on Cu sites due to the asymmetric bonding of the Cu atom to the adjacent Ag atom with a compressive strain.

Published

2023

12. A translational regulator MHZ9 modulates ethylene signaling in rice

Author

Yi-Hua Huang, Jia-Qi Han, Biao Ma, Wu-Qiang Cao, Xin-Kai Li, Qing Xiong, He Zhao, Rui Zhao, Xun Zhang, Yang Zhou, Wei Wei, Jian-Jun Tao, Wan-Ke Zhang, Wenfeng Qian, Shou-Yi Chen, Chao Yang, Cui-Cui Yin, and Jin-Song Zhang

Subjects

Science

Abstract

Abstract Ethylene plays essential roles in rice growth, development and stress adaptation. Translational control of ethylene signaling remains unclear in rice. Here, through analysis of an ethylene-response mutant mhz9, we identified a glycine-tyrosine-phenylalanine (GYF) domain protein MHZ9, which positively regulates ethylene signaling at translational level in rice. MHZ9 is localized in RNA processing bodies. The C-terminal domain of MHZ9 interacts with OsEIN2, a central regulator of rice ethylene signaling, and the N-terminal domain directly binds to the OsEBF1/2 mRNAs for translational inhibition, allowing accumulation of transcription factor OsEIL1 to activate the downstream signaling. RNA-IP seq and CLIP-seq analyses reveal that MHZ9 associates with hundreds of RNAs. Ribo-seq analysis indicates that MHZ9 is required for the regulation of ~ 90% of genes translationally affected by ethylene. Our study identifies a translational regulator MHZ9, which mediates translational regulation of genes in response to ethylene, facilitating stress adaptation and trait improvement in rice.

Published

2023

13. Generation of whole tumor cell vaccine for on-demand manipulation of immune responses against cancer under near-infrared laser irradiation

Author

Jiaqi Meng, Yanlin Lv, Weier Bao, Zihui Meng, Shuang Wang, Yuanbin Wu, Shuping Li, Zhouguang Jiao, Zhiyuan Tian, Guanghui Ma, and Wei Wei

Subjects

Science

Abstract

Abstract The therapeutic efficacy of whole tumor cell vaccines (TCVs) is modest, which has delayed their translation into personalized immunotherapies in the clinic. Here, we develop a TCV platform based on photothermal nanoparticle-loaded tumor cells, which can be rationally applied to diverse tumor types to achieve on-demand boost of anti-tumor immune responses for inhibiting tumor growth. During the fabrication process, mild photothermal heating by near-infrared (NIR) laser irradiation induces the nanoparticle-bearing tumor cells to express heat shock proteins as endogenous adjuvants. After a single vaccination at the back of tumor-bearing mice, non-invasive NIR laser irradiation further induces mild hyperthermia at vaccination site, which promotes the recruitment, activation, and antigen presentation by dendritic cells. Using an indicator we term fluctuation of tumor growth rate, we determine appropriate irradiation regimens (including optimized irradiation intervals and times). This TCV platform enables on-demand NIR manipulation of immune responses, and we demonstrate potent therapeutic efficacy against six murine models that mimick a range of clinical scenarios, including a model based on humanized mice and patient-derived tumor xenografts.

Published

2023

14. Buffering of transcription rate by mRNA half-life is a conserved feature of Rett syndrome models

Author

Deivid C. Rodrigues, Marat Mufteev, Kyoko E. Yuki, Ashrut Narula, Wei Wei, Alina Piekna, Jiajie Liu, Peter Pasceri, Olivia S. Rissland, Michael D. Wilson, and James Ellis

Subjects

Science

Abstract

Rett syndrome (RTT) is a neurodevelopmental disorder caused by mutations in the transcriptional modulator MECP2. Here, the authors measured transcription rate and mRNA half-life changes in RTT patient-derived neurons to show transcription rate buffered by mRNA half-life changes.

Published

2023

15. Clinical and biomarker analyses of sintilimab plus gemcitabine and cisplatin as first-line treatment for patients with advanced biliary tract cancer

Author

Tian-mei Zeng, Guang Yang, Cheng Lou, Wei Wei, Chen-jie Tao, Xi-yun Chen, Qin Han, Zhuo Cheng, Pei-pei Shang, Yu-long Dong, He-ming Xu, Lie-ping Guo, Dong-sheng Chen, Yun-jie Song, Chuang Qi, Wang-long Deng, and Zhen-gang Yuan

Subjects

Science

Abstract

Chemotherapeutic agents and immune checkpoint inhibitors have shown modest efficacy in patients with advanced biliary tract cancers (BTCs). Here the authors report the results of a phase II trial of the anti-PD1 antibody sintilimab plus chemotherapy (gemcitabine and cisplatin) as first-line treatment for patients with advanced BTCs.

Published

2023

16. Compact artificial neuron based on anti-ferroelectric transistor

Author

Rongrong Cao, Xumeng Zhang, Sen Liu, Jikai Lu, Yongzhou Wang, Hao Jiang, Yang Yang, Yize Sun, Wei Wei, Jianlu Wang, Hui Xu, Qingjiang Li, and Qi Liu

Subjects

Science

Abstract

The scalability of neuromorphic devices depends on the dismissal of capacitors and additional circuits. Here Liu et al. report an artificial neuron based on the polarization and depolarization of an anti-ferroelectric film, avoiding additional elements and reaching 37 fJ/spike of power consumption.

Published

2022

17. Co-expression of a PD-L1-specific chimeric switch receptor augments the efficacy and persistence of CAR T cells via the CD70-CD27 axis

Author

Le Qin, Yuanbin Cui, Tingjie Yuan, Dongmei Chen, Ruocong Zhao, Shanglin Li, Zhiwu Jiang, Qiting Wu, Youguo Long, Suna Wang, Zhaoyang Tang, Huixia Pan, Xiaoping Li, Wei Wei, Jie Yang, Xuequn Luo, Zhenfeng Zhang, Qiannan Tang, Pentao Liu, Robert Weinkove, Yao Yao, Dajiang Qin, Jean Paul Thiery, and Peng Li

Subjects

Science

Abstract

Co-expression of PD-L1-specific chimeric switch receptors (CSRs) improves the antitumor effects of chimeric antigen receptor (CAR) T cells. Here, CSRs are shown to promote the differentiation of mesothelin-targeting CAR T cells into central memory-like cells and improve their efficacy.

Published

2022

18. Msx1+ stem cells recruited by bioactive tissue engineering graft for bone regeneration

Author

Xianzhu Zhang, Wei Jiang, Chang Xie, Xinyu Wu, Qian Ren, Fei Wang, Xilin Shen, Yi Hong, Hongwei Wu, Youguo Liao, Yi Zhang, Renjie Liang, Wei Sun, Yuqing Gu, Tao Zhang, Yishan Chen, Wei Wei, Shufang Zhang, Weiguo Zou, and Hongwei Ouyang

Subjects

Science

Abstract

Critical-sized bone defects still present clinical challenges. Here the authors show that transplantation of neurotrophic supplement-incorporated hydrogel grafts promote full-thickness regeneration of the calvarium and perform scRNA-seq to reveal contributing stem/progenitor cells, notably a resident Msx1+ skeletal stem cell population.

Published

2022

19. Anionic nanoplastic exposure induces endothelial leakiness

Author

Wei Wei, Yuhuan Li, Myeongsang Lee, Nicholas Andrikopoulos, Sijie Lin, Chunying Chen, David Tai Leong, Feng Ding, Yang Song, and Pu Chun Ke

Subjects

Science

Abstract

In this study, the authors report that anionic nanoplastics can harness the paracellular space of endothelial cells and puncture blood vasculature ex vivo and in vivo, thereby entailing new environmental and health implications.

Published

2022

20. Engineered biomimetic nanoparticles achieve targeted delivery and efficient metabolism-based synergistic therapy against glioblastoma

Author

Guihong Lu, Xiaojun Wang, Feng Li, Shuang Wang, Jiawei Zhao, Jinyi Wang, Jing Liu, Chengliang Lyu, Peng Ye, Hui Tan, Weiping Li, Guanghui Ma, and Wei Wei

Subjects

Science

Abstract

Targeting cancer-associated metabolism is evolving as a promising approach for cancer therapy. Here, the authors generate cancer cell-membrane encapsulated nanoparticles to induce cell cycle arrest and cytotoxicity in lactate-high cancer cells, reducing tumourigensis in glioblastoma cell-line and patient-derived models.

Published

2022

21. Hierarchical micro/nanostructured silver hollow fiber boosts electroreduction of carbon dioxide

Author

Shoujie Li, Wei Chen, Xiao Dong, Chang Zhu, Aohui Chen, Yanfang Song, Guihua Li, Wei Wei, and Yuhan Sun

Subjects

Science

Abstract

An activated silver hollow fiber electrode enables enhanced triphasic interface reactions and oriented mass transfers synergistically, facilitating efficient CO2 conversion (> 50%) to boost CO production with a current density of 1.26 A · cm−2.

Published

2022

22. Switching the NIR upconversion of nanoparticles for the orthogonal activation of photoacoustic imaging and phototherapy

Author

Yang Yang, Jinshu Huang, Wei Wei, Qin Zeng, Xipeng Li, Da Xing, Bo Zhou, and Tao Zhang

Subjects

Science

Abstract

Upconversion nanoparticles can be used to both image and treat tumors. Here, the authors describe an upconversion nanoparticle that can switch from imaging to phototherapy by altering the NIR emission.

Published

2022

23. A fungal extracellular effector inactivates plant polygalacturonase-inhibiting protein

Author

Wei Wei, Liangsheng Xu, Hao Peng, Wenjun Zhu, Kiwamu Tanaka, Jiasen Cheng, Karen A. Sanguinet, George Vandemark, and Weidong Chen

Subjects

Science

Abstract

Plants produce polygalacuturonase-inhibiting proteins (PGIPs) to counteract cell wall degradation by pathogenic microbes. Here the authors show that Sclerotinia sclerotiorum, a fungal pathogen that causes stem rot disease, secretes a PGIP-inactivating effector to diminish plant resistance.

Published

2022

24. N7-methylguanosine tRNA modification promotes esophageal squamous cell carcinoma tumorigenesis via the RPTOR/ULK1/autophagy axis

Author

Hui Han, Chunlong Yang, Jieyi Ma, Shuishen Zhang, Siyi Zheng, Rongsong Ling, Kaiyu Sun, Siyao Guo, Boxuan Huang, Yu Liang, Lu Wang, Shuang Chen, Zhaoyu Wang, Wei Wei, Ying Huang, Hao Peng, Yi-Zhou Jiang, Junho Choe, and Shuibin Lin

Subjects

Science

Abstract

Deregulation of METTL1-mediated N7- methylguanosine tRNA modification can promote oncogenesis. Here, the authors report that this modification regulates the translation of proteins in both the mTOR and negative regulators of autophagy pathways, resulting in the progression of esophageal squamous cell carcinoma.

Published

2022

25. Thermal migration towards constructing W-W dual-sites for boosted alkaline hydrogen evolution reaction

Author

Zhigang Chen, Yafeng Xu, Ding Ding, Ge Song, Xingxing Gan, Hao Li, Wei Wei, Jian Chen, Zhiyun Li, Zhongmiao Gong, Xiaoming Dong, Chengfeng Zhu, Nana Yang, Jingyuan Ma, Rui Gao, Dan Luo, Shan Cong, Lu Wang, Zhigang Zhao, and Yi Cui

Subjects

Science

Abstract

While platinum is a highly active catalyst for H2 evolution, its low abundance prompts research into earth-abundant alternatives. Here, authors prepare tungsten atomic clusters on phosphorus doped carbon by thermal migration and demonstrate excellent activities for hydrogen evolution electrocatalysis.

Published

2022

26. MOFs-based nanoagent enables dual mitochondrial damage in synergistic antitumor therapy via oxidative stress and calcium overload

Author

Weier Bao, Ming Liu, Jiaqi Meng, Siyuan Liu, Shuang Wang, Rongrong Jia, Yugang Wang, Guanghui Ma, Wei Wei, and Zhiyuan Tian

Subjects

Science

Abstract

Targeting damage to mitochondria has become an effective strategy antitumor therapies. Here, the authors report on nanoagents with upconversion nanoparticles as cores and photoacid-loaded MOFs as shells for NIR triggered Fenton reaction, acidification and calcium overload to provide synergistic mitochondrial damage.

Published

2021

27. Cell reprogramming shapes the mitochondrial DNA landscape

Author

Wei Wei, Daniel J. Gaffney, and Patrick F. Chinnery

Subjects

Science

Abstract

Here the authors describe high depth mitochondrial DNA (mtDNA) sequence analysis of 146 human induced pluripotent stem cell (hiPSC) lines as well as single cell RNA-seq (scRNAseq) of hiPSCs undergoing differentiation from 125 donors; reporting mtDNA diversity and some variants favoured after reprogramming.

Published

2021

28. Author Correction: A translational regulator MHZ9 modulates ethylene signaling in rice

Author

Yi-Hua Huang, Jia-Qi Han, Biao Ma, Wu-Qiang Cao, Xin-Kai Li, Qing Xiong, He Zhao, Rui Zhao, Xun Zhang, Yang Zhou, Wei Wei, Jian-Jun Tao, Wan-Ke Zhang, Wenfeng Qian, Shou-Yi Chen, Chao Yang, Cui-Cui Yin, and Jin-Song Zhang

Subjects

Science

Published

2023

29. A diet-microbial metabolism feedforward loop modulates intestinal stem cell renewal in the stressed gut

Author

Yuanlong Hou, Wei Wei, Xiaojing Guan, Yali Liu, Gaorui Bian, Dandan He, Qilin Fan, Xiaoying Cai, Youying Zhang, Guangji Wang, Xiao Zheng, and Haiping Hao

Subjects

Science

Abstract

Here, using a mouse model of chronic stress, the authors investigate how diet impacts stress and gut microbial structure and epithelial integrity and show that dietary raffinose metabolism to fructose couples stress-induced gut microbial remodeling to intestinal stem cell renewal and epithelial homeostasis.

Published

2021

30. A protein-independent fluorescent RNA aptamer reporter system for plant genetic engineering

Author

Jiuyuan Bai, Yao Luo, Xin Wang, Shi Li, Mei Luo, Meng Yin, Yuanli Zuo, Guolin Li, Junyu Yao, Hua Yang, Mingdi Zhang, Wei Wei, Maolin Wang, Rui Wang, Chunhai Fan, and Yun Zhao

Subjects

Science

Abstract

Fluorescent RNA aptamers could potentially be used as protein-independent reporters of transgene expression in plants. Here, the authors report that an optimized RNA aptamer, developed from Broccoli, can be used to detect transgene expression in stable and transiently transformed plant tissue.

Published

2020

31. Multi-omic single-cell snapshots reveal multiple independent trajectories to drug tolerance in a melanoma cell line

Author

Yapeng Su, Melissa E. Ko, Hanjun Cheng, Ronghui Zhu, Min Xue, Jessica Wang, Jihoon W. Lee, Luke Frankiw, Alexander Xu, Stephanie Wong, Lidia Robert, Kaitlyn Takata, Dan Yuan, Yue Lu, Sui Huang, Antoni Ribas, Raphael Levine, Garry P. Nolan, Wei Wei, Sylvia K. Plevritis, Guideng Li, David Baltimore, and James R. Heath

Subjects

Science

Abstract

Detailed understanding of how cancer cells transition from a drug sensitive to a tolerant state is lacking. Here, using single cell proteomic and metabolic data the authors uncover that isogenic BRAF mutant melanoma cells can take two distinct paths to become tolerant to BRAF inhibition.

Published

2020

32. Nuclear-mitochondrial DNA segments resemble paternally inherited mitochondrial DNA in humans

Author

Wei Wei, Alistair T. Pagnamenta, Nicholas Gleadall, Alba Sanchis-Juan, Jonathan Stephens, John Broxholme, Salih Tuna, Christopher A. Odhams, Genomics England Research Consortium, NIHR BioResource, Carl Fratter, Ernest Turro, Mark J. Caulfield, Jenny C. Taylor, Shamima Rahman, and Patrick F. Chinnery

Subjects

Science

Abstract

Recent evidence has questioned the dogma of strict maternal transmission of mitochondrial DNA (mtDNA) in humans. Wei et al. saw no evidence of paternal transmission of mtDNA in 11,035 human trios, and show that nuclear-mitochondrial segments (NUMTs) can give the impression of paternal mtDNA transmission, but are actually inherited through the nuclear genome.

Published

2020

33. A highly CMOS compatible hafnia-based ferroelectric diode

Author

Qing Luo, Yan Cheng, Jianguo Yang, Rongrong Cao, Haili Ma, Yang Yang, Rong Huang, Wei Wei, Yonghui Zheng, Tiancheng Gong, Jie Yu, Xiaoxin Xu, Peng Yuan, Xiaoyan Li, Lu Tai, Haoran Yu, Dashan Shang, Qi Liu, Bing Yu, Qiwei Ren, Hangbing Lv, and Ming Liu

Subjects

Science

Abstract

Designing reliable, scalable and high speed computing systems remains a challenge. Here, the authors identify noncentrosymmetric orthorhombic phase in HZO film and demonstrate a CMOS compatible 3D Vertical HZO-based ferroelectric diode array with self-selective property and 20 ns of speed operation.

Published

2020

34. Possible Luttinger liquid behavior of edge transport in monolayer transition metal dichalcogenide crystals

Author

Guanhua Yang, Yan Shao, Jiebin Niu, Xiaolei Ma, Congyan Lu, Wei Wei, Xichen Chuai, Jiawei Wang, Jingchen Cao, Hao Huang, Guangwei Xu, Xuewen Shi, Zhuoyu Ji, Nianduan Lu, Di Geng, Jing Qi, Yun Cao, Zhongliu Liu, Liwei Liu, Yuan Huang, Lei Liao, Weiqi Dang, Zhengwei Zhang, Yuan Liu, Xidong Duan, Jiezhi Chen, Zhiqiang Fan, Xiangwei Jiang, Yeliang Wang, Ling Li, Hong-Jun Gao, Xiangfeng Duan, and Ming Liu

Subjects

Science

Abstract

Though metallic edge states in monolayer transition metal dichalcogenide have been observed before, how these states contribute to charge transport remains unclear. Here, the authors quantify the edge state contribution to electrical transport in monolayer MoS2/WSe2 field-effect transistors, revealing a dominated non-linear edge transport at low temperature, indicating possible Luttinger liquid behavior.

Published

2020

35. Packaging and delivering enzymes by amorphous metal-organic frameworks

Author

Xiaoling Wu, Hua Yue, Yuanyu Zhang, Xiaoyong Gao, Xiaoyang Li, Licheng Wang, Yufei Cao, Miao Hou, Haixia An, Lin Zhang, Sai Li, Jingyuan Ma, He Lin, Yanan Fu, Hongkai Gu, Wenyong Lou, Wei Wei, Richard N. Zare, and Jun Ge

Subjects

Science

Abstract

For packaging enzymes into metal–organic frameworks (MOFs), crystalline MOFs are usually used. Here, the authors encapsulated enzymes in amorphous MOFs a via one-pot co-precipitation process under ambient condition, which led to higher enzymatic activity than in a corresponding crystalline MOF composite.

Published

2019

36. A second open reading frame in human enterovirus determines viral replication in intestinal epithelial cells

Author

Haoran Guo, Yan Li, Guanchen Liu, Yunhe Jiang, Siyu Shen, Ran Bi, Honglan Huang, Tong Cheng, Chunxi Wang, and Wei Wei

Subjects

Science

Abstract

The majority of enterovirus proteins are encoded as polyprotein in one open reading frame. Here, Guo et al. characterize a second open reading frame in human enteroviruses and show that it is important for viral particle release, particularly in epithelial cells, and that it affects mortality in a mouse model.

Published

2019

37. Liquid biopsy-based single-cell metabolic phenotyping of lung cancer patients for informative diagnostics

Author

Ziming Li, Zhuo Wang, Yin Tang, Xiang Lu, Jie Chen, Yu Dong, Baojun Wu, Chunying Wang, Liu Yang, Zhili Guo, Min Xue, Shun Lu, Wei Wei, and Qihui Shi

Subjects

Science

Abstract

Non-invasive methods to predict treatment response are urgently needed. Here in lung cancer, the authors develop a single-cell on-chip cytometry method to metabolically phenotype disseminated tumor cells, revealing metabolic heterogeneity and predictors of therapy response and survival.

Published

2019

38. Neural mechanisms of contextual modulation in the retinal direction selective circuit

Author

Xiaolin Huang, Melissa Rangel, Kevin L. Briggman, and Wei Wei

Subjects

Science

Abstract

The mechanisms of contextual modulation in direction selective ganglion cells in the retina remain unclear. Here, the authors find that that On-Off direction-selective ganglion cells are differentially sensitive to discontinuities of dark and bright moving edges in the visual environment and, using synapse-specific genetic manipulations with functional measurements, reveal the microcircuits underlying this contextual sensitivity.

Published

2019

39. Regulating intracellular fate of siRNA by endoplasmic reticulum membrane-decorated hybrid nanoplexes

Author

Chong Qiu, Hu-Hu Han, Jing Sun, Hai-Tao Zhang, Wei Wei, Shi-He Cui, Xin Chen, Jian-Cheng Wang, and Qiang Zhang

Subjects

Science

Abstract

The silencing efficiency of siRNA delivered by non-viral cationic vectors is limited due to endosomal/lysosomal degradation. Here, the authors develop endoplasmic reticulum-coated vesicles as a biomimetic vector for siRNA delivery and show that they improve inhibition of tumor growth in mice in vivo.

Published

2019

40. Patterned human microvascular grafts enable rapid vascularization and increase perfusion in infarcted rat hearts

Author

Meredith A. Redd, Nicole Zeinstra, Wan Qin, Wei Wei, Amy Martinson, Yuliang Wang, Ruikang K. Wang, Charles E. Murry, and Ying Zheng

Subjects

Science

Abstract

Heart grafts need good vascularization to survive. Here, the authors engineer perfusable constructs of human embryonic stem cell-derived endothelial cells seeded in collagen matrix in patterned microchannels that form anastomosed vessels in vitro and have increased coronary vascular perfusion on transplantation in rats.

Published

2019

41. Inhibition of mTORC1 by lncRNA H19 via disrupting 4E-BP1/Raptor interaction in pituitary tumours

Author

Ze Rui Wu, Lichong Yan, Yan Ting Liu, Lei Cao, Yu Hang Guo, Yong Zhang, Hong Yao, Lin Cai, Han Bing Shang, Wei Wei Rui, Gang Yang, Xiao Biao Zhang, Hao Tang, Yu Wang, Jin Yan Huang, Yong Xu Wei, Wei Guo Zhao, Bing Su, and Zhe Bao Wu

Subjects

Science

Abstract

LncRNA H19 has been shown to be aberrantly expressed in different cancers. Here, the authors show that H19 lncRNA is downregulated in pituitary adenomas and H19 is able to impede pituitary tumorigenesis via disruption of 4E-BPB1 and Raptor interaction to inhibit the phosphorylation of 4E-BP1.

Published

2018

42. High prevalence of focal and multi-focal somatic genetic variants in the human brain

Author

Michael J. Keogh, Wei Wei, Juvid Aryaman, Lauren Walker, Jelle van den Ameele, Jon Coxhead, Ian Wilson, Matthew Bashton, Jon Beck, John West, Richard Chen, Christian Haudenschild, Gabor Bartha, Shujun Luo, Chris M. Morris, Nick S. Jones, Johannes Attems, and Patrick F. Chinnery

Subjects

Science

Abstract

Similar to cancers, somatic mutations might lead to neurodegenerative diseases. Here, the authors perform ultra-deep sequencing of 102 genes in 173 adult human brains, detect somatic mutations in 54 brains, and develop a mathematical model to estimate the frequency of mutated foci in human brains.

Published

2018

43. A phosphatidylinositol 4,5-bisphosphate redistribution-based sensing mechanism initiates a phagocytosis programing

Author

Libing Mu, Zhongyuan Tu, Lin Miao, Hefei Ruan, Ning Kang, Yongzhen Hei, Jiahuan Chen, Wei Wei, Fangling Gong, Bingjie Wang, Yanan Du, Guanghui Ma, Matthias W. Amerein, Tie Xia, and Yan Shi

Subjects

Science

Abstract

The origin of Fc receptor-based phagocytosis is unknown, although plasma lipid redistribution after solid structure binding induces similar phagocytic signaling. Here, Mu et al. show that PIP2 accumulation from plasma membrane deformation recruits Moesin to trigger receptor-independent phagocytosis.

Published

2018

44. Highly stretchable and transparent ionic conducting elastomers

Author

Lei Shi, Tianxiang Zhu, Guoxin Gao, Xinyu Zhang, Wei Wei, Wenfeng Liu, and Shujiang Ding

Subjects

Science

Abstract

Conductive elastomers are often made of composite materials and realization of high transparency and high elasticity at the same time is therefore hard to achieve. Here the authors use a salt in polymer strategy to fabricate ionic conducting elastomers (ICE), which show good elasticity and transparency and simultaneously high conductivity.

Published

2018

45. Revealing the immune perturbation of black phosphorus nanomaterials to macrophages by understanding the protein corona

Author

Jianbin Mo, Qingyun Xie, Wei Wei, and Jing Zhao

Subjects

Science

Abstract

The formation of a protein corona around nanomaterials is known to have significant effects upon materials in biological applications. Here, the authors report on a study into understanding the protein corona formed on black phosphorus and the implications for interactions with macrophages.

Published

2018

46. Nanoparticle conjugates of a highly potent toxin enhance safety and circumvent platinum resistance in ovarian cancer

Author

Ruogu Qi, Yongheng Wang, Peter M. Bruno, Haihua Xiao, Yingjie Yu, Ting Li, Sam Lauffer, Wei Wei, Qixian Chen, Xiang Kang, Haiqin Song, Xi Yang, Xing Huang, Alexandre Detappe, Ursula Matulonis, David Pepin, Michael T. Hemann, Michael J. Birrer, and P. Peter Ghoroghchian

Subjects

Science

Abstract

Improving the safety and efficacy of chemotherapeutics will help to enhance their effects. Here, the authors show that intraperitoneal delivery of nanoparticle conjugates of a potent toxin prolongs tumor inhibition and survival as compared to cisplatin in advanced-stage and platinum-resistant ovarian cancer mouse models.

Published

2017

47. Reversal of cancer gene expression correlates with drug efficacy and reveals therapeutic targets

Author

Bin Chen, Li Ma, Hyojung Paik, Marina Sirota, Wei Wei, Mei-Sze Chua, Samuel So, and Atul J. Butte

Subjects

Science

Abstract

Increased availability of large-scale molecular profiling has enabled system-level monitoring of molecular effects of candidate therapeutics. Here, the authors take advantage of such data to show that the ability of a drug to reverse cancer-associated gene expression changes is indicative of itsin vitroanti-proliferative efficacy, allowing them to identify novel compounds against liver cancer.

Published

2017

48. A bioinspired and biocompatible ortho-sulfiliminyl phenol synthesis

Author

Feng Xiong, Liang Lu, Tian-Yu Sun, Qian Wu, Dingyuan Yan, Ying Chen, Xinhao Zhang, Wei Wei, Yi Lu, Wei-Yin Sun, Jie Jack Li, and Jing Zhao

Subjects

Science

Abstract

Functionalization of C-H bonds typically requires harsh reagents or metal catalysts. Here the authors report a metal-free C-H sulfenylation/rearrangement to form C-S and S=N bonds under simple, biocompatible conditions, and apply this to the synthesis of fluorogenic phospholipid vesicles.

Published

2017

49. PEGylated graphene oxide elicits strong immunological responses despite surface passivation

Author

Nana Luo, Jeffrey K. Weber, Shuang Wang, Binquan Luan, Hua Yue, Xiaobo Xi, Jing Du, Zaixing Yang, Wei Wei, Ruhong Zhou, and Guanghui Ma

Subjects

Science

Abstract

Polyethylene glycol has been widely utilized to functionalize nanomaterials in order to improve their biocompatibility. Here, the authors demonstrate that PEGylated nano-graphene oxide can elicit an inflammatory response, contradicting current literature.

Published

2017

50. A redox-neutral catechol synthesis

Author

Qian Wu, Dingyuan Yan, Ying Chen, Ting Wang, Feng Xiong, Wei Wei, Yi Lu, Wei-Yin Sun, Jie Jack Li, and Jing Zhao

Subjects

Science

Abstract

Catechols are common structural motifs in bioactive molecules and synthetic building blocks. Here the authors report a method to convert phenol derivatives into catechols via an iridium-catalysed redox-neutral C–H hydroxylation, giving diversely substituted products under mild conditions.

Published

2017