Your search keyword '"Li W"' showing total 754 results

1. Strong band renormalization and emergent ferromagnetism induced by electron-antiferromagnetic-magnon coupling

Author

Yu, TL, Xu, M, Yang, WT, Song, YH, Wen, CHP, Yao, Q, Lou, X, Zhang, T, Li, W, Wei, XY, Bao, JK, Cao, GH, Dudin, P, Denlinger, JD, Strocov, VN, Peng, R, Xu, HC, and Feng, DL

Subjects

Physical Sciences, Condensed Matter Physics

Abstract

The interactions between electrons and antiferromagnetic magnons (AFMMs) are important for a large class of correlated materials. For example, they are the most plausible pairing glues in high-temperature superconductors, such as cuprates and iron-based superconductors. However, unlike electron-phonon interactions (EPIs), clear-cut observations regarding how electron-AFMM interactions (EAIs) affect the band structure are still lacking. Consequently, critical information on the EAIs, such as its strength and doping dependence, remains elusive. Here we directly observe that EAIs induce a kink structure in the band dispersion of Ba1-xKxMn2As2, and subsequently unveil several key characteristics of EAIs. We found that the coupling constant of EAIs can be as large as 5.4, and it shows strong doping dependence and temperature dependence, all in stark contrast to the behaviors of EPIs. The colossal renormalization of electron bands by EAIs enhances the density of states at Fermi energy, which is likely driving the emergent ferromagnetic state in Ba1-xKxMn2As2 through a Stoner-like mechanism with mixed itinerant-local character. Our results expand the current knowledge of EAIs, which may facilitate the further understanding of many correlated materials where EAIs play a critical role.

Published

2022

2. Single-nuclei transcriptomes from human adrenal gland reveal distinct cellular identities of low and high-risk neuroblastoma tumors

Author

Bedoya-Reina, O. C., Li, W., Arceo, M., Plescher, M., Bullova, P., Pui, H., Kaucka, M., Kharchenko, P., Martinsson, T., Holmberg, J., Adameyko, I., Deng, Q., Larsson, C., Juhlin, C. C., Kogner, P., and Schlisio, S.

Published

2021

3. Hippocampal adult-born granule cells drive network activity in a mouse model of chronic temporal lobe epilepsy

Author

Sparks, F. T., Liao, Z., Li, W., Grosmark, A., Soltesz, I., and Losonczy, A.

Published

2020

4. Dual heterogeneous structures lead to ultrahigh strength and uniform ductility in a Co-Cr-Ni medium-entropy alloy

Author

Du, X. H., Li, W. P., Chang, H. T., Yang, T., Duan, G. S., Wu, B. L., Huang, J. C., Chen, F. R., Liu, C. T., Chuang, W. S., Lu, Y., Sui, M. L., and Huang, E. W.

Published

2020

5. Electron Bernstein waves driven by electron crescents near the electron diffusion region

Author

Li, W. Y., Graham, D. B., Khotyaintsev, Yu. V., Vaivads, A., André, M., Min, K., Liu, K., Tang, B. B., Wang, C., Fujimoto, K., Norgren, C., Toledo-Redondo, S., Lindqvist, P.-A., Ergun, R. E., Torbert, R. B., Rager, A. C., Dorelli, J. C., Gershman, D. J., Giles, B. L., Lavraud, B., Plaschke, F., Magnes, W., Le Contel, O., Russell, C. T., and Burch, J. L.

Published

2020

6. Ultrafast complete dechlorination enabled by ferrous oxide/graphene oxide catalytic membranes via nanoconfinement advanced reduction

Author

Qian Xiao, Wanbin Li, Shujie Xie, Li Wang, and Chuyang Y. Tang

Subjects

Science

Abstract

Abstract Chlorinated organic pollutants widely exist in aquatic environments and threaten human health. Catalytic approaches are proposed for their elimination, but sluggish degradation, incomplete dechlorination, and catalyst recovery remain extremely challenging. Here we show efficient dechlorination using ferrous oxide/graphene oxide catalytic membranes with strong nanoconfinement effects. Catalytic membranes are constructed by graphene oxide nanosheets with integrated ultrafine and monodisperse sub-5 nm nanoparticles through simple in-situ growth and filtration assembly. Density function theory simulation reveals that nanoconfinement effects remarkably reduce energy barriers of rate-limiting steps for iron (III)-sulfite complex dissociation to sulfite radicals and dichloroacetic acid degradation to monochloroacetic acid. Combining with nanoconfinement effects of enhancing reactants accessibility to catalysts and increasing catalyst-to-reactant ratios, the membrane achieves ultrafast and complete dechlorination of 180 µg L−1 dichloroacetic acid to chloride, with nearly 100% reduction efficiency within a record-breaking 3.9 ms, accompanied by six to seven orders of magnitude greater first-order rate constant of 51,000 min−1 than current catalysis. Meanwhile, the membranes exhibit quadrupled permeance of 48.6 L m−2 h−1 bar−1 as GO ones, because nanoparticles adjust membrane structure, chemical composition, and interlayer space. Moreover, the membranes show excellent stability over 20 cycles and universality for chlorinated organic pollutants at environmental concentrations.

Published

2024

7. A wearable and stretchable dual-wavelength LED device for home care of chronic infected wounds

Author

Ming Li, Chenxi Wang, Qiang Yu, Haoyi Chen, Yingying Ma, Li Wei, Mei X. Wu, Min Yao, and Min Lu

Subjects

Science

Abstract

Abstract Phototherapy can offer a safe and non-invasive solution against infections, while promoting wound healing. Conventional phototherapeutic devices are bulky and limited to hospital use. To overcome these challenges, we developed a wearable, flexible red and blue LED (r&bLED) patch controlled by a mobile-connected system, enabling safe self-application at home. The patch exhibits excellent skin compatibility, flexibility, and comfort, with high safety under system supervision. Additionally, we synthesized a sprayable fibrin gel (F-gel) containing blue light-sensitive thymoquinone and red light-synergistic NADH. Combined with bLED, thymoquinone eradicated microbes and biofilms within minutes, regardless of antibiotic resistance. Furthermore, NADH and rLED synergistically improved macrophage and endothelial cell mitochondrial function, promoting wound healing, reducing inflammation, and enhancing angiogenesis, as validated in infected diabetic wounds in mice and minipigs. This innovative technology holds great promise for revolutionizing at-home phototherapy for chronic infected wounds.

Published

2024

8. Inversions encounter relaxed genetic constraints and balance birth and death of TPS genes in Curcuma

Author

Xuezhu Liao, Dejin Xie, Tingting Bao, Mengmeng Hou, Cheng Li, Bao Nie, Shichao Sun, Dan Peng, Haixiao Hu, Hongru Wang, Yongfu Tao, Yu Zhang, Wei Li, and Li Wang

Subjects

Science

Abstract

Abstract Evolutionary dynamics of inversion and its impact on biochemical traits are a puzzling question. Here, we show abundance of inversions in three Curcuma species (turmeric, hidden ginger and Siam tulip). Genes within inversions display higher long terminal repeat content and lower expression level compared with genomic background, suggesting inversions in Curcuma experience relaxed genetic constraints. It is corroborated by depletion of selected SNPs and enrichment of deleterious mutations in inversions detected among 56 Siam tulip cultivars. Functional verification of tandem duplicated terpene synthase (TPS) genes reveals that genes within inversions become pseudogenes, while genes outside retain catalytic function. Our findings suggest that inversions act as a counteracting force against tandem duplication in balancing birth and death of TPS genes and modulating terpenoid contents in Curcuma. This study provides an empirical example that inversions are likely not adaptive but affect biochemical traits.

Published

2024

9. A nanofluidic chemoelectrical generator with enhanced energy harvesting by ion-electron Coulomb drag

Author

Yisha Jiang, Wenchao Liu, Tao Wang, Yitian Wu, Tingting Mei, Li Wang, Guoheng Xu, Yude Wang, Nannan Liu, and Kai Xiao

Subjects

Science

Abstract

Abstract A sufficiently high current output of nano energy harvesting devices is highly desired in practical applications, while still a challenge. Theoretical evidence has demonstrated that Coulomb drag based on the ion-electron coupling interaction, can amplify current in nanofluidic energy generation systems, resulting in enhanced energy harvesting. However, experimental validation of this concept is still lacking. Here we develop a nanofluidic chemoelectrical generator (NCEG) consisting of a carbon nanotube membrane (CNTM) sandwiched between metal electrodes, in which spontaneous redox reactions between the metal and oxygen in electrolyte solution enable the movement of ions within the carbon nanotubes. Through Coulomb drag effect between moving ions in these nanotubes and electrons within the CNTM, an amplificated current of 1.2 mA cm−2 is generated, which is 16 times higher than that collected without a CNTM. Meanwhile, one single NCEG unit can produce a high voltage of ~0.8 V and exhibit a linear scalable performance up to tens of volts. Different from the other Coulomb drag systems that need additional energy input, the NCEG with enhanced energy harvesting realizes the ion-electron coupling by its own redox reactions potential, which provides a possibility to drive multiple electronic devices for practical applications.

Published

2024

10. Epidemiological characteristics and transmission dynamics of dengue fever in China

Author

Haobo Ni, Xiaoyan Cai, Jiarong Ren, Tingting Dai, Jiayi Zhou, Jiumin Lin, Li Wang, Lingxi Wang, Sen Pei, Yunchong Yao, Ting Xu, Lina Xiao, Qiyong Liu, Xiaobo Liu, and Pi Guo

Subjects

Science

Abstract

Abstract China has experienced successive waves of dengue epidemics over the past decade. Nationwide data on 95,339 dengue cases, 89 surveillance sites for mosquito density and population mobility between 337 cities during 2013-20 were extracted. Weekly dengue time series including time trends and harmonic terms were fitted using seasonal regression models, and the amplitude and peak timing of the annual and semiannual cycles were estimated. A data-driven model-inference approach was used to simulate the epidemic at city-scale and estimate time-evolving epidemiological parameters. We found that the geographical distribution of dengue cases was expanding, and the main imported areas as well as external sources of imported cases changed. Dengue cases were predominantly concentrated in southern China and it exhibited an annual peak of activity, typically peaking in September. The annual amplitude of dengue epidemic varied with latitude (F = 19.62, P = 0.0001), mainly characterizing by large in southern cities and small in northern cities. The effective reproduction number R eff across cities is commonly greater than 1 in several specific months from July to November, further confirming the seasonal fluctuations and spatial heterogeneity of dengue epidemics. The results of this national study help to better informing interventions for future dengue epidemics in China.

Published

2024

11. Evidence for persistence of the SHIV reservoir early after MHC haploidentical hematopoietic stem cell transplantation

Author

Colonna, Lucrezia, Peterson, Christopher W., Schell, John B., Carlson, Judith M., Tkachev, Victor, Brown, Melanie, Yu, Alison, Reddy, Sowmya, Obenza, Willi M., Nelson, Veronica, Polacino, Patricia S., Mack, Heather, Hu, Shiu-Lok, Zeleski, Katie, Hoffman, Michelle, Olvera, Joe, Furlan, Scott N., Zheng, Hengqi, Taraseviciute, Agne, Hunt, Daniel J., Betz, Kayla, Lane, Jennifer F., Vogel, Keith, Hotchkiss, Charlotte E., Moats, Cassie, Baldessari, Audrey, Murnane, Robert D., English, Christopher, Astley, Cliff A., Wangari, Solomon, Agricola, Brian, Ahrens, Joel, Iwayama, Naoto, May, Andrew, Stensland, Laurence, Huang, Meei-Li W., Jerome, Keith R., Kiem, Hans-Peter, and Kean, Leslie S.

Published

2018

12. Amorphous (lysine)2PbI2 layer enhanced perovskite photovoltaics

Author

Yehui Wen, Tianchi Zhang, Xingtao Wang, Tiantian Liu, Yu Wang, Rui Zhang, Miao Kan, Li Wan, Weihua Ning, Yong Wang, and Deren Yang

Subjects

Science

Abstract

Abstract Passivation materials play a crucial role in a wide range of high-efficiency, high-stability photovoltaic applications based on crystalline silicon and state-of-the-art perovskite materials. Currently, for perovskite photovoltaic, the mainstream passivation strategies routinely rely on crystalline materials. Herein, we have invented a new amorphous (lysine)2PbI2 layer-enhanced halide perovskite. By utilizing a solid phase reaction between PbI2 and lysine molecule, an amorphous (lysine)2PbI2 layer is formed at surface/grain boundaries in the perovskite films. The amorphous (lysine)2PbI2 with fewer dangling bonds can effectively neutralize surface/interface defects, achieving an impressive efficiency of 26.27% (certified 25.94%). Moreover, this amorphous layer not only reduces crystal lattice stress but also functions as a barrier against the decomposition of organic components, leading to suppressed de-structuring of perovskite and highly stable perovskite solar cells.

Published

2024

13. Structure of the human TIP60 complex

Author

Ke Chen, Li Wang, Zishuo Yu, Jiali Yu, Yulei Ren, Qianmin Wang, and Yanhui Xu

Subjects

Science

Abstract

Abstract Mammalian TIP60 is a multi-functional enzyme with histone acetylation and histone dimer exchange activities. It plays roles in diverse cellular processes including transcription, DNA repair, cell cycle control, and embryonic development. Here we report the cryo-electron microscopy structures of the human TIP60 complex with the core subcomplex and TRRAP module refined to 3.2-Å resolution. The structures show that EP400 acts as a backbone integrating the motor module, the ARP module, and the TRRAP module. The RUVBL1-RUVBL2 hexamer serves as a rigid core for the assembly of EP400 ATPase and YL1 in the motor module. In the ARP module, an ACTL6A-ACTB heterodimer and an extra ACTL6A make hydrophobic contacts with EP400 HSA helix, buttressed by network interactions among DMAP1, EPC1, and EP400. The ARP module stably associates with the motor module but is flexibly tethered to the TRRAP module, exhibiting a unique feature of human TIP60. The architecture of the nucleosome-bound human TIP60 reveals an unengaged nucleosome that is located between the core subcomplex and the TRRAP module. Our work illustrates the molecular architecture of human TIP60 and provides architectural insights into how this complex is bound by the nucleosome.

Published

2024

14. Cholesterol efflux from C1QB-expressing macrophages is associated with resistance to chimeric antigen receptor T cell therapy in primary refractory diffuse large B cell lymphoma

Author

Zi-Xun Yan, Yan Dong, Niu Qiao, Yi-Lun Zhang, Wen Wu, Yue Zhu, Li Wang, Shu Cheng, Peng-Peng Xu, Zi-Song Zhou, Ling-Shuang Sheng, and Wei-Li Zhao

Subjects

Science

Abstract

Abstract Chimeric antigen receptor T (CAR-T) cell therapy has demonstrated promising efficacy in early trials for relapsed/refractory diffuse large B cell lymphoma (DLBCL). However, its efficacy in treating primary refractory DLBCL has not been comprehensively investigated, and the underlying resistance mechanisms remain unclear. Here, we report the outcomes of a phase I, open-label, single-arm clinical trial of relmacabtagene autoleucel (relma-cel), a CD19-targeted CAR-T cell product, with safety and efficacy as primary endpoints. Among the 12 enrolled patients, 8 experienced grade 4 hematologic toxicity of treatment-emergent adverse event. No grade ≥3 cytokine release syndrome or neurotoxicity occurred. Single-cell RNA sequencing revealed an increase proportion of C1QB-expressing macrophages in patients with progressive disease before CAR-T cell therapy. Cholesterol efflux from M2 macrophages was found to inhibit CAR-T cells cytotoxicity by inducing an immunosuppressive state in CD8+ T cells, leading to their exhaustion. Possible interactions between macrophages and CD8+ T cells, mediating lipid metabolism (AFR1-FAS), immune checkpoint activation, and T cell exhaustion (LGALS9-HAVCR2, CD86-CTLA4, and NECTIN2-TIGIT) were enhanced during disease progression. These findings suggest that cholesterol efflux from macrophages may trigger CD8+ T cell exhaustion, providing a rationale for metabolic reprogramming to counteract CAR-T treatment failure. Chinadrugtrials.org.cn identifier: CTR20200376.

Published

2024

15. Camrelizumab-based induction chemoimmunotherapy in locally advanced stage hypopharyngeal carcinoma: phase II clinical trial

Author

Hongli Gong, Shu Tian, Hao Ding, Lei Tao, Li Wang, Jie Wang, Tian Wang, Xiaohui Yuan, Yu Heng, Ming Zhang, Yong Shi, Chengzhi Xu, Chunping Wu, Shengzi Wang, and Liang Zhou

Subjects

Science

Abstract

Abstract This phase II trial aimed to determine the efficacy and safety of induction chemoimmunotherapy of camrelizumab plus modified TPF in locally advanced hypopharyngeal squamous cell carcinoma (LA HSCC) (NCT04156698). The primary endpoint was objective response rate (ORR), and secondary endpoints were 3-year overall survival (OS), progression-free survival (PFS), larynx preservation rate (LPR), and metastasis-free survival (MFS). Patients (cT3-4aN0-2M0), regardless of sex, received induction chemoimmunotherapy for three cycles: camrelizumab 200 mg d1, docetaxel 75 mg/m2 d1, cisplatin 25 mg/m2 d1-3, and capecitabine 800 mg/m2 bid d1-14, q21d. Patients were assigned to radioimmunotherapy if they had a complete or partial response, those with stable or progressive disease underwent surgery and adjuvant (chemo)radiotherapy. Camrelizumab was maintained post-radioimmunotherapy. Fifty-one patients were enrolled with a median follow-up duration of 23.7 months. After induction therapy, the ORR was 82.4% (42/51), meeting the prespecified endpoint. Grade 3/4 adverse events occurred in 26 patients, and no treatment-related death occurred. As three-year outcomes were immature, two-year OS, PFS and LPR were reported. As no distant metastatic event had occurred, MFS was not reported here. The two-year OS, PFS, and LPR rates were 83.0%, 77.1%, and 70.0%, respectively. The induction chemoimmunotherapy of camrelizumab plus TPF showed a high ORR rate with an acceptable safety profile in LA HSCC.

Published

2024

16. Tlr9 deficiency in B cells leads to obesity by promoting inflammation and gut dysbiosis

Author

Pai Wang, Xin Yang, Luyao Zhang, Sha Sha, Juan Huang, Jian Peng, Jianlei Gu, James Alexander Pearson, Youjia Hu, Hongyu Zhao, F. Susan Wong, Quan Wang, and Li Wen

Subjects

Science

Abstract

Abstract Toll-like receptor 9 (TLR9) recognizes bacterial, viral and self DNA and play an important role in immunity and inflammation. However, the role of TLR9 in obesity is less well-studied. Here, we generate B-cell-specific Tlr9-deficient (Tlr9 fl/fl /Cd19Cre +/- , KO) B6 mice and model obesity using a high-fat diet. Compared with control mice, B-cell-specific-Tlr9-deficient mice exhibited increased fat tissue inflammation, weight gain, and impaired glucose and insulin tolerance. Furthermore, the frequencies of IL-10-producing-B cells and marginal zone B cells were reduced, and those of follicular and germinal center B cells were increased. This was associated with increased frequencies of IFNγ-producing-T cells and increased follicular helper cells. In addition, gut microbiota from the KO mice induced a pro-inflammatory state leading to immunological and metabolic dysregulation when transferred to germ-free mice. Using 16 S rRNA gene sequencing, we identify altered gut microbial communities including reduced Lachnospiraceae, which may play a role in altered metabolism in KO mice. We identify an important network involving Tlr9, Irf4 and Il-10 interconnecting metabolic homeostasis, with the function of B and T cells, and gut microbiota in obesity.

Published

2024

17. Sub-millisecond lithiothermal synthesis of graphitic meso–microporous carbon

Author

Huimin Zhang, Jingyi Qiu, Jie Pang, Gaoping Cao, Bingsen Zhang, Li Wang, Xiangming He, Xuning Feng, Shizhou Ma, Xinggao Zhang, Hai Ming, Zhuangnan Li, Feng Li, and Hao Zhang

Subjects

Science

Abstract

Abstract Porous carbons with concurrently high specific surface area and electronic conductivity are desirable by virtue of their desirable electron and ion transport ability, but conventional preparing methods suffer from either low yield or inferior quality carbons. Here we developed a lithiothermal approach to bottom–up synthesize highly meso–microporous graphitized carbon (MGC). The preparation can be finished in a few milliseconds by the self-propagating reaction between polytetrafluoroethylene powder and molten lithium (Li) metal, during which instant ultra-high temperature (>3000 K) was produced. This instantaneous carbon vaporization and condensation at ultra-high temperatures and in ultra-short duration enable the MGC to show a highly graphitized and continuously cross-coupled open pore structure. MGC displays superior electrochemical capacitor performance of exceptional power capability and ultralong-term cyclability. The processes used to make this carbon are readily scalable to industrial levels.

Published

2024

18. Structural basis for dimerization of a paramyxovirus polymerase complex

Author

Jin Xie, Mohamed Ouizougun-Oubari, Li Wang, Guanglei Zhai, Daitze Wu, Zhaohu Lin, Manfu Wang, Barbara Ludeke, Xiaodong Yan, Tobias Nilsson, Lu Gao, Xinyi Huang, Rachel Fearns, and Shuai Chen

Subjects

Science

Abstract

Abstract The transcription and replication processes of non-segmented, negative-strand RNA viruses (nsNSVs) are catalyzed by a multi-functional polymerase complex composed of the large protein (L) and a cofactor protein, such as phosphoprotein (P). Previous studies have shown that the nsNSV polymerase can adopt a dimeric form, however, the structure of the dimer and its function are poorly understood. Here we determine a 2.7 Å cryo-EM structure of human parainfluenza virus type 3 (hPIV3) L–P complex with the connector domain (CD′) of a second L built, while reconstruction of the rest of the second L–P obtains a low-resolution map of the ring-like L core region. This study reveals detailed atomic features of nsNSV polymerase active site and distinct conformation of hPIV3 L with a unique β-strand latch. Furthermore, we report the structural basis of L–L dimerization, with CD′ located at the putative template entry of the adjoining L. Disruption of the L–L interface causes a defect in RNA replication that can be overcome by complementation, demonstrating that L dimerization is necessary for hPIV3 genome replication. These findings provide further insight into how nsNSV polymerases perform their functions, and suggest a new avenue for rational drug design.

Published

2024

19. Janus electronic state of supported iridium nanoclusters for sustainable alkaline water electrolysis

Author

Yaoda Liu, Lei Li, Li Wang, Na Li, Xiaoxu Zhao, Ya Chen, Thangavel Sakthivel, and Zhengfei Dai

Subjects

Science

Abstract

Abstract Metal-support electronic interactions play crucial roles in triggering the hydrogen spillover (HSo) to boost hydrogen evolution reaction (HER). It requires the supported metal of electron-rich state to facilitate the proton adsorption/spillover. However, this electron-rich metal state contradicts the traditional metal→support electron transfer protocol and is not compatible with the electron-donating oxygen evolution reaction (OER), especially in proton-poor alkaline conditions. Here we profile an Ir/NiPS3 support structure to study the Ir electronic states and performances in HSo/OER-integrated alkaline water electrolysis. The supported Ir is evidenced with Janus electron-rich and electron-poor states at the tip and interface regions to respectively facilitate the HSo and OER processes. Resultantly, the water electrolysis (WE) is efficiently implemented with 1.51 V at 10 mA cm–2 for 1000 h in 1 M KOH and 1.44 V in urea-KOH electrolyte. This research clarifies the Janus electronic state as fundamental in rationalizing efficient metal-support WE catalysts.

Published

2024

20. Raman time-delay in attosecond transient absorption of strong-field created krypton vacancy

Author

Li Wang, Guangru Bai, Xiaowei Wang, Jing Zhao, Cheng Gao, Jiacan Wang, Fan Xiao, Wenkai Tao, Pan Song, Qianyu Qiu, Jinlei Liu, and Zengxiu Zhao

Subjects

Science

Abstract

Abstract Strong field ionization injects a transient vacancy in the atom which is entangled to the outgoing photoelectron. When the electron is finally detached, the ion is populated at different excited states with part of coherence information lost. The preserved coherence of matter after interacting with intense short pulses has important consequences on the subsequent nonequilibrium evolution and energy relaxation. Here we employ attosecond transient absorption spectroscopy to measure the time-delay of resonant transitions of krypton vacancy during their creation. We have observed that the absorptions by the two spin-orbit split states are modulated at different paces when varying the time-delay between the near-infrared pumping pulse and the attosecond probing pulse. It is shown that the coupling of the ions with the remaining field leads to a suppression of ionic coherence. Comparison between theory and experiments uncovers that coherent Raman coupling induces time-delay between the resonant absorptions, which provides insight into laser-ion interactions enriching attosecond chronoscopy.

Published

2024

21. Observation of the nonanalytic behavior of optical phonons in monolayer hexagonal boron nitride

Author

Jiade Li, Li Wang, Yani Wang, Zhiyu Tao, Weiliang Zhong, Zhibin Su, Siwei Xue, Guangyao Miao, Weihua Wang, Hailin Peng, Jiandong Guo, and Xuetao Zhu

Subjects

Science

Abstract

Abstract Phonon splitting of the longitudinal and transverse optical modes (LO-TO splitting), a ubiquitous phenomenon in three-dimensional polar materials, will break down in two-dimensional (2D) polar systems. Theoretical predictions propose that the LO phonon in 2D polar monolayers becomes degenerate with the TO phonon, displaying a distinctive “V-shaped” nonanalytic behavior near the center of the Brillouin zone. However, the full experimental verification of these nonanalytic behaviors has been lacking. Here, using monolayer hexagonal boron nitride (h-BN) as a prototypical example, we report the comprehensive and direct experimental verification of the nonanalytic behavior of LO phonons by inelastic electron scattering spectroscopy. Interestingly, the slope of the LO phonon in our measurements is lower than the theoretically predicted value for a freestanding monolayer due to the screening of the Cu foil substrate. This enables the phonon polaritons in monolayer h-BN/Cu foil to exhibit ultra-slow group velocity (~5 × 10−6 c, c is the speed of light) and ultra-high confinement (~ 4000 times smaller wavelength than that of light). These exotic behaviors of the optical phonons in h-BN presents promising prospects for future optoelectronic applications.

Published

2024

22. A deep-learning-based framework for identifying and localizing multiple abnormalities and assessing cardiomegaly in chest X-ray

Author

Weijie Fan, Yi Yang, Jing Qi, Qichuan Zhang, Cuiwei Liao, Li Wen, Shuang Wang, Guangxian Wang, Yu Xia, Qihua Wu, Xiaotao Fan, Xingcai Chen, Mi He, JingJing Xiao, Liu Yang, Yun Liu, Jia Chen, Bing Wang, Lei Zhang, Liuqing Yang, Hui Gan, Shushu Zhang, Guofang Liu, Xiaodong Ge, Yuanqing Cai, Gang Zhao, Xi Zhang, Mingxun Xie, Huilin Xu, Yi Zhang, Jiao Chen, Jun Li, Shuang Han, Ke Mu, Shilin Xiao, Tingwei Xiong, Yongjian Nian, and Dong Zhang

Subjects

Science

Abstract

Abstract Accurate identification and localization of multiple abnormalities are crucial steps in the interpretation of chest X-rays (CXRs); however, the lack of a large CXR dataset with bounding boxes severely constrains accurate localization research based on deep learning. We created a large CXR dataset named CXR-AL14, containing 165,988 CXRs and 253,844 bounding boxes. On the basis of this dataset, a deep-learning-based framework was developed to identify and localize 14 common abnormalities and calculate the cardiothoracic ratio (CTR) simultaneously. The mean average precision values obtained by the model for 14 abnormalities reached 0.572-0.631 with an intersection-over-union threshold of 0.5, and the intraclass correlation coefficient of the CTR algorithm exceeded 0.95 on the held-out, multicentre and prospective test datasets. This framework shows an excellent performance, good generalization ability and strong clinical applicability, which is superior to senior radiologists and suitable for routine clinical settings.

Published

2024

23. The single-cell transcriptomic atlas and RORA-mediated 3D epigenomic remodeling in driving corneal epithelial differentiation

Author

Mingsen Li, Huizhen Guo, Bofeng Wang, Zhuo Han, Siqi Wu, Jiafeng Liu, Huaxing Huang, Jin Zhu, Fengjiao An, Zesong Lin, Kunlun Mo, Jieying Tan, Chunqiao Liu, Li Wang, Xin Deng, Guigang Li, Jianping Ji, and Hong Ouyang

Subjects

Science

Abstract

Abstract Proper differentiation of corneal epithelial cells (CECs) from limbal stem/progenitor cells (LSCs) is required for maintenance of ocular homeostasis and clear vision. Here, using a single-cell transcriptomic atlas, we delineate the comprehensive and refined molecular regulatory dynamics during human CEC development and differentiation. We find that RORA is a CEC-specific molecular switch that initiates and drives LSCs to differentiate into mature CECs by activating PITX1. RORA dictates CEC differentiation by establishing CEC-specific enhancers and chromatin interactions between CEC gene promoters and distal regulatory elements. Conversely, RORA silences LSC-specific promoters and disrupts promoter-anchored chromatin loops to turn off LSC genes. Collectively, our work provides detailed and comprehensive insights into the transcriptional dynamics and RORA-mediated epigenetic remodeling underlying human corneal epithelial differentiation.

Published

2024

24. Synovial microenvironment-influenced mast cells promote the progression of rheumatoid arthritis

Author

Yunxuan Lei, Xin Guo, Yanping Luo, Xiaoyin Niu, Yebin Xi, Lianbo Xiao, Dongyi He, Yanqin Bian, Yong Zhang, Li Wang, Xiaochun Peng, Zhaojun Wang, and Guangjie Chen

Subjects

Science

Abstract

Abstract Mast cells are phenotypically and functionally heterogeneous, and their state is possibly controlled by local microenvironment. Therefore, specific analyses are needed to understand whether mast cells function as powerful participants or dispensable bystanders in specific diseases. Here, we show that degranulation of mast cells in inflammatory synovial tissues of patients with rheumatoid arthritis (RA) is induced via MAS-related G protein-coupled receptor X2 (MRGPRX2), and the expression of MHC class II and costimulatory molecules on mast cells are upregulated. Collagen-induced arthritis mice treated with a combination of anti-IL-17A and cromolyn sodium, a mast cell membrane stabilizer, show significantly reduced clinical severity and decreased bone erosion. The findings of the present study suggest that synovial microenvironment-influenced mast cells contribute to disease progression and may provide a further mast cell-targeting therapy for RA.

Published

2024

25. Surplus fatty acid synthesis increases oxidative stress in adipocytes and induces lipodystrophy

Author

Li Weng, Wen-Shuai Tang, Xu Wang, Yingyun Gong, Changqin Liu, Ni-Na Hong, Ying Tao, Kuang-Zheng Li, Shu-Ning Liu, Wanzi Jiang, Ying Li, Ke Yao, Li Chen, He Huang, Yu-Zheng Zhao, Ze-Ping Hu, Youli Lu, Haobin Ye, Xingrong Du, Hongwen Zhou, Peng Li, and Tong-Jin Zhao

Subjects

Science

Abstract

Abstract Adipocytes are the primary sites for fatty acid storage, but the synthesis rate of fatty acids is very low. The physiological significance of this phenomenon remains unclear. Here, we show that surplus fatty acid synthesis in adipocytes induces necroptosis and lipodystrophy. Transcriptional activation of FASN elevates fatty acid synthesis, but decreases NADPH level and increases ROS production, which ultimately leads to adipocyte necroptosis. We identify MED20, a subunit of the Mediator complex, as a negative regulator of FASN transcription. Adipocyte-specific male Med20 knockout mice progressively develop lipodystrophy, which is reversed by scavenging ROS. Further, in a murine model of HIV-associated lipodystrophy and a human patient with acquired lipodystrophy, ROS neutralization significantly improves metabolic disorders, indicating a causal role of ROS in disease onset. Our study well explains the low fatty acid synthesis rate in adipocytes, and sheds light on the management of acquired lipodystrophy.

Published

2024

26. Publisher Correction: Author Correction: Camrelizumab-based induction chemoimmunotherapy in locally advanced stage hypopharyngeal carcinoma: phase II clinical trial

Author

Hongli Gong, Shu Tian, Hao Ding, Lei Tao, Li Wang, Jie Wang, Tian Wang, Xiaohui Yuan, Yu Heng, Ming Zhang, Yong Shi, Chengzhi Xu, Chunping Wu, Shengzi Wang, and Liang Zhou

Subjects

Science

Published

2024

27. Bioinspired soft robots for deep-sea exploration

Author

Guorui Li, Tuck-Whye Wong, Benjamin Shih, Chunyu Guo, Luwen Wang, Jiaqi Liu, Tao Wang, Xiaobo Liu, Jiayao Yan, Baosheng Wu, Fajun Yu, Yunsai Chen, Yiming Liang, Yaoting Xue, Chengjun Wang, Shunping He, Li Wen, Michael T. Tolley, A-Man Zhang, Cecilia Laschi, and Tiefeng Li

Subjects

Science

Abstract

Abstract The deep ocean, Earth’s untouched expanse, presents immense challenges for exploration due to its extreme pressure, temperature, and darkness. Unlike traditional marine robots that require specialized metallic vessels for protection, deep-sea species thrive without such cumbersome pressure-resistant designs. Their pressure-adaptive forms, unique propulsion methods, and advanced senses have inspired innovation in designing lightweight, compact soft machines. This perspective addresses challenges, recent strides, and design strategies for bioinspired deep-sea soft robots. Drawing from abyssal life, it explores the actuation, sensing, power, and pressure resilience of multifunctional deep-sea soft robots, offering game-changing solutions for profound exploration and operation in harsh conditions.

Published

2023

28. FNIP1 abrogation promotes functional revascularization of ischemic skeletal muscle by driving macrophage recruitment

Author

Zongchao Sun, Likun Yang, Abdukahar Kiram, Jing Yang, Zhuangzhuang Yang, Liwei Xiao, Yujing Yin, Jing Liu, Yan Mao, Danxia Zhou, Hao Yu, Zheng Zhou, Dengqiu Xu, Yuhuan Jia, Chenyun Ding, Qiqi Guo, Hongwei Wang, Yan Li, Li Wang, Tingting Fu, Shijun Hu, and Zhenji Gan

Subjects

Science

Abstract

Abstract Ischaemia of the heart and limbs attributable to compromised blood supply is a major cause of mortality and morbidity. The mechanisms of functional angiogenesis remain poorly understood, however. Here we show that FNIP1 plays a critical role in controlling skeletal muscle functional angiogenesis, a process pivotal for muscle revascularization during ischemia. Muscle FNIP1 expression is down-regulated by exercise. Genetic overexpression of FNIP1 in myofiber causes limited angiogenesis in mice, whereas its myofiber-specific ablation markedly promotes the formation of functional blood vessels. Interestingly, the increased muscle angiogenesis is independent of AMPK but due to enhanced macrophage recruitment in FNIP1-depleted muscles. Mechanistically, myofiber FNIP1 deficiency induces PGC-1α to activate chemokine gene transcription, thereby driving macrophage recruitment and muscle angiogenesis program. Furthermore, in a mouse hindlimb ischemia model of peripheral artery disease, the loss of myofiber FNIP1 significantly improved the recovery of blood flow. Thus, these results reveal a pivotal role of FNIP1 as a negative regulator of functional angiogenesis in muscle, offering insight into potential therapeutic strategies for ischemic diseases.

Published

2023

29. NULISA: a proteomic liquid biopsy platform with attomolar sensitivity and high multiplexing

Author

Wei Feng, Joanne C. Beer, Qinyu Hao, Ishara S. Ariyapala, Aparna Sahajan, Andrei Komarov, Katie Cha, Mason Moua, Xiaolei Qiu, Xiaomei Xu, Shweta Iyengar, Thu Yoshimura, Rajini Nagaraj, Li Wang, Ming Yu, Kate Engel, Lucas Zhen, Wen Xue, Chen-jung Lee, Chan Ho Park, Cheng Peng, Kaiyuan Zhang, Adrian Grzybowski, Johnnie Hahm, Susanne V. Schmidt, Alexandru Odainic, Jasper Spitzer, Kasun Buddika, Dwight Kuo, Lei Fang, Bingqing Zhang, Steve Chen, Eicke Latz, Yiyuan Yin, Yuling Luo, and Xiao-Jun Ma

Subjects

Science

Abstract

Abstract The blood proteome holds great promise for precision medicine but poses substantial challenges due to the low abundance of most plasma proteins and the vast dynamic range of the plasma proteome. Here we address these challenges with NUcleic acid Linked Immuno-Sandwich Assay (NULISA™), which improves the sensitivity of traditional proximity ligation assays by ~10,000-fold to attomolar level, by suppressing assay background via a dual capture and release mechanism built into oligonucleotide-conjugated antibodies. Highly multiplexed quantification of both low- and high-abundance proteins spanning a wide dynamic range is achieved by attenuating signals from abundant targets with unconjugated antibodies and next-generation sequencing of barcoded reporter DNA. A 200-plex NULISA containing 124 cytokines and chemokines and other proteins demonstrates superior sensitivity to a proximity extension assay in detecting biologically important low-abundance biomarkers in patients with autoimmune diseases and COVID-19. Fully automated NULISA makes broad and in-depth proteomic analysis easily accessible for research and diagnostic applications.

Published

2023

30. Wastewater sequencing reveals community and variant dynamics of the collective human virome

Author

Michael Tisza, Sara Javornik Cregeen, Vasanthi Avadhanula, Ping Zhang, Tulin Ayvaz, Karen Feliz, Kristi L. Hoffman, Justin R. Clark, Austen Terwilliger, Matthew C. Ross, Juwan Cormier, Hannah Moreno, Li Wang, Katelyn Payne, David Henke, Catherine Troisi, Fuqing Wu, Janelle Rios, Jennifer Deegan, Blake Hansen, John Balliew, Anna Gitter, Kehe Zhang, Runze Li, Cici X. Bauer, Kristina D. Mena, Pedro A. Piedra, Joseph F. Petrosino, Eric Boerwinkle, and Anthony W. Maresso

Subjects

Science

Abstract

Abstract Wastewater is a discarded human by-product, but its analysis may help us understand the health of populations. Epidemiologists first analyzed wastewater to track outbreaks of poliovirus decades ago, but so-called wastewater-based epidemiology was reinvigorated to monitor SARS-CoV-2 levels while bypassing the difficulties and pit falls of individual testing. Current approaches overlook the activity of most human viruses and preclude a deeper understanding of human virome community dynamics. Here, we conduct a comprehensive sequencing-based analysis of 363 longitudinal wastewater samples from ten distinct sites in two major cities. Critical to detection is the use of a viral probe capture set targeting thousands of viral species or variants. Over 450 distinct pathogenic viruses from 28 viral families are observed, most of which have never been detected in such samples. Sequencing reads of established pathogens and emerging viruses correlate to clinical data sets of SARS-CoV-2, influenza virus, and monkeypox viruses, outlining the public health utility of this approach. Viral communities are tightly organized by space and time. Finally, the most abundant human viruses yield sequence variant information consistent with regional spread and evolution. We reveal the viral landscape of human wastewater and its potential to improve our understanding of outbreaks, transmission, and its effects on overall population health.

Published

2023

31. Neuropathologist-level integrated classification of adult-type diffuse gliomas using deep learning from whole-slide pathological images

Author

Weiwei Wang, Yuanshen Zhao, Lianghong Teng, Jing Yan, Yang Guo, Yuning Qiu, Yuchen Ji, Bin Yu, Dongling Pei, Wenchao Duan, Minkai Wang, Li Wang, Jingxian Duan, Qiuchang Sun, Shengnan Wang, Huanli Duan, Chen Sun, Yu Guo, Lin Luo, Zhixuan Guo, Fangzhan Guan, Zilong Wang, Aoqi Xing, Zhongyi Liu, Hongyan Zhang, Li Cui, Lan Zhang, Guozhong Jiang, Dongming Yan, Xianzhi Liu, Hairong Zheng, Dong Liang, Wencai Li, Zhi-Cheng Li, and Zhenyu Zhang

Subjects

Science

Abstract

Abstract Current diagnosis of glioma types requires combining both histological features and molecular characteristics, which is an expensive and time-consuming procedure. Determining the tumor types directly from whole-slide images (WSIs) is of great value for glioma diagnosis. This study presents an integrated diagnosis model for automatic classification of diffuse gliomas from annotation-free standard WSIs. Our model is developed on a training cohort (n = 1362) and a validation cohort (n = 340), and tested on an internal testing cohort (n = 289) and two external cohorts (n = 305 and 328, respectively). The model can learn imaging features containing both pathological morphology and underlying biological clues to achieve the integrated diagnosis. Our model achieves high performance with area under receiver operator curve all above 0.90 in classifying major tumor types, in identifying tumor grades within type, and especially in distinguishing tumor genotypes with shared histological features. This integrated diagnosis model has the potential to be used in clinical scenarios for automated and unbiased classification of adult-type diffuse gliomas.

Published

2023

32. Stamped production of single-crystal hexagonal boron nitride monolayers on various insulating substrates

Author

Fankai Zeng, Ran Wang, Wenya Wei, Zuo Feng, Quanlin Guo, Yunlong Ren, Guoliang Cui, Dingxin Zou, Zhensheng Zhang, Song Liu, Kehai Liu, Ying Fu, Jinzong Kou, Li Wang, Xu Zhou, Zhilie Tang, Feng Ding, Dapeng Yu, Kaihui Liu, and Xiaozhi Xu

Subjects

Science

Abstract

Abstract Controllable growth of two-dimensional (2D) single crystals on insulating substrates is the ultimate pursuit for realizing high-end applications in electronics and optoelectronics. However, for the most typical 2D insulator, hexagonal boron nitride (hBN), the production of a single-crystal monolayer on insulating substrates remains challenging. Here, we propose a methodology to realize the facile production of inch-sized single-crystal hBN monolayers on various insulating substrates by an atomic-scale stamp-like technique. The single-crystal Cu foils grown with hBN films can stick tightly (within 0.35 nm) to the insulating substrate at sub-melting temperature of Cu and extrude the hBN grown on the metallic surface onto the insulating substrate. Single-crystal hBN films can then be obtained by removing the Cu foil similar to the stamp process, regardless of the type or crystallinity of the insulating substrates. Our work will likely promote the manufacturing process of fully single-crystal 2D material-based devices and their applications.

Published

2023

33. Inverse design of chiral functional films by a robotic AI-guided system

Author

Yifan Xie, Shuo Feng, Linxiao Deng, Aoran Cai, Liyu Gan, Zifan Jiang, Peng Yang, Guilin Ye, Zaiqing Liu, Li Wen, Qing Zhu, Wanjun Zhang, Zhanpeng Zhang, Jiahe Li, Zeyu Feng, Chutian Zhang, Wenjie Du, Lixin Xu, Jun Jiang, Xin Chen, and Gang Zou

Subjects

Science

Abstract

Abstract Artificial chiral materials and nanostructures with strong and tuneable chiroptical activities, including sign, magnitude, and wavelength distribution, are useful owing to their potential applications in chiral sensing, enantioselective catalysis, and chiroptical devices. Thus, the inverse design and customized manufacturing of these materials is highly desirable. Here, we use an artificial intelligence (AI) guided robotic chemist to accurately predict chiroptical activities from the experimental absorption spectra and structure/process parameters, and generate chiral films with targeted chiroptical activities across the full visible spectrum. The robotic AI-chemist carries out the entire process, including chiral film construction, characterization, and testing. A machine learned reverse design model using spectrum embedded descriptors is developed to predict optimal structure/process parameters for any targeted chiroptical property. A series of chiral films with a dissymmetry factor as high as 1.9 (g abs ~ 1.9) are identified out of more than 100 million possible structures, and their feasible application in circular polarization-selective color filters for multiplex laser display and switchable circularly polarized (CP) luminescence is demonstrated. Our findings not only provide chiral films with the highest reported chiroptical activity, but also have great fundamental value for the inverse design of chiroptical materials.

Published

2023

34. Author Correction: Camrelizumab-based induction chemoimmunotherapy in locally advanced stage hypopharyngeal carcinoma: phase II clinical trial

Author

Hongli Gong, Shu Tian, Hao Ding, Lei Tao, Li Wang, Jie Wang, Tian Wang, Xiaohui Yuan, Yu Heng, Ming Zhang, Yong Shi, Chengzhi Xu, Chunping Wu, Shengzi Wang, and Liang Zhou

Subjects

Science

Published

2024

35. Author Correction: Sub-millisecond lithiothermal synthesis of graphitic meso–microporous carbon

Author

Huimin Zhang, Jingyi Qiu, Jie Pang, Gaoping Cao, Bingsen Zhang, Li Wang, Xiangming He, Xuning Feng, Shizhou Ma, Xinggao Zhang, Hai Ming, Zhuangnan Li, Feng Li, and Hao Zhang

Subjects

Science

Published

2024

36. Gabapentinoid consumption in 65 countries and regions from 2008 to 2018: a longitudinal trend study

Author

Adrienne Y. L. Chan, Andrew S. C. Yuen, Daniel H. T. Tsai, Wallis C. Y. Lau, Yogini H. Jani, Yingfen Hsia, David P. J. Osborn, Joseph F. Hayes, Frank M. C. Besag, Edward C. C. Lai, Li Wei, Katja Taxis, Ian C. K. Wong, and Kenneth K. C. Man

Subjects

Science

Abstract

Abstract Recent studies raised concerns about the increasing use of gabapentinoids in different countries. With their potential for misuse and addiction, understanding the global consumption of gabapentinoids will offer us a platform to examine the need for any interventional policies. This longitudinal trend study utilised pharmaceutical sales data from 65 countries and regions across the world to evaluate the global trends in gabapentinoid consumption between 2008-2018. The multinational average annual percentage change of gabapentinoid consumption was +17.20%, increased from 4.17 defined daily dose per ten thousand inhabitants per day (DDD/TID) in 2008 to 18.26 DDD/TID in 2018. High-income countries had the highest pooled gabapentinoid consumption rate (39.92 DDD/TID) in 2018, which was more than six times higher than the lower-middle income countries (6.11 DDD/TID). The study shows that despite differences in healthcare system and culture, a consistent increase in gabapentinoid consumption is observed worldwide, with high-income countries remaining the largest consumers.

Published

2023

37. A single-cell transcriptional landscape of immune cells shows disease-specific changes of T cell and macrophage populations in human achalasia

Author

Zu-Qiang Liu, Hao Dai, Lu Yao, Wei-Feng Chen, Yun Wang, Li-Yun Ma, Xiao-Qing Li, Sheng-Li Lin, Meng-Jiang He, Ping-Ting Gao, Xin-Yang Liu, Jia-Xin Xu, Xiao-Yue Xu, Ke-Hao Wang, Li Wang, Luonan Chen, Ping-Hong Zhou, and Quan-Lin Li

Subjects

Science

Abstract

Abstract Achalasia is a rare motility disorder of the esophagus caused by the gradual degeneration of myenteric neurons. Immune-mediated ganglionitis has been proposed to underlie the loss of myenteric neurons. Here, we measure the immune cell transcriptional profile of paired lower esophageal sphincter (LES) tissue and blood samples in achalasia and controls using single-cell RNA sequencing (scRNA-seq). In achalasia, we identify a pattern of expanded immune cells and a specific transcriptional phenotype, especially in LES tissue. We show C1QC+ macrophages and tissue-resident memory T cells (TRM), especially ZNF683+ CD8+ TRM and XCL1+ CD4+ TRM, are significantly expanded and localized surrounding the myenteric plexus in the LES tissue of achalasia. C1QC+ macrophages are transcriptionally similar to microglia of the central nervous system and have a neurodegenerative dysfunctional phenotype in achalasia. TRM also expresses transcripts of dysregulated immune responses in achalasia. Moreover, inflammation increases with disease progression since immune cells are more activated in type I compared with type II achalasia. Thus, we profile the immune cell transcriptional landscape and identify C1QC+ macrophages and TRM as disease-associated immune cell subsets in achalasia.

Published

2023

38. Self-supervised learning with application for infant cerebellum segmentation and analysis

Author

Yue Sun, Limei Wang, Kun Gao, Shihui Ying, Weili Lin, Kathryn L. Humphreys, Gang Li, Sijie Niu, Mingxia Liu, and Li Wang

Subjects

Science

Abstract

Abstract Accurate tissue segmentation is critical to characterize early cerebellar development in the first two postnatal years. However, challenges in tissue segmentation arising from tightly-folded cortex, low and dynamic tissue contrast, and large inter-site data heterogeneity have limited our understanding of early cerebellar development. In this paper, we propose an accurate self-supervised learning framework for infant cerebellum segmentation. We validate its accuracy using 358 subjects from three datasets. Our results suggest the first six months exhibit the most rapid and dynamic changes, with gray matter (GM) playing a dominant role in cerebellar growth over white matter (WM). We also find both GM and WM volumes are larger in males than females, and GM and WM volumes are larger in autistic males than neurotypical males. Application of our method to a larger population will fuel more cerebellar studies, ultimately advancing our comprehension of its structure and function in neurotypical and disordered development.

Published

2023

39. An electroluminescent and tunable cavity-enhanced carbon-nanotube-emitter in the telecom band

Author

Anna P. Ovvyan, Min-Ken Li, Helge Gehring, Fabian Beutel, Sandeep Kumar, Frank Hennrich, Li Wei, Yuan Chen, Felix Pyatkov, Ralph Krupke, and Wolfram H. P. Pernice

Subjects

Science

Abstract

Abstract Emerging photonic information processing systems require chip-level integration of controllable nanoscale light sources at telecommunication wavelengths. Currently, substantial challenges remain in the dynamic control of the sources, the low-loss integration into a photonic environment, and in the site-selective placement at desired positions on a chip. Here, we overcome these challenges using heterogeneous integration of electroluminescent (EL), semiconducting carbon nanotubes (sCNTs) into hybrid two dimensional – three dimensional (2D-3D) photonic circuits. We demonstrate enhanced spectral line shaping of the EL sCNT emission. By back-gating the sCNT-nanoemitter we achieve full electrical dynamic control of the EL sCNT emission with high on-off ratio and strong enhancement in the telecommunication band. Using nanographene as a low-loss material to electrically contact sCNT emitters directly within a photonic crystal cavity enables highly efficient EL coupling without compromising the optical quality of the cavity. Our versatile approach paves the way for controllable integrated photonic circuits.

Published

2023

40. Predicting in-hospital outcomes of patients with acute kidney injury

Author

Changwei Wu, Yun Zhang, Sheng Nie, Daqing Hong, Jiajing Zhu, Zhi Chen, Bicheng Liu, Huafeng Liu, Qiongqiong Yang, Hua Li, Gang Xu, Jianping Weng, Yaozhong Kong, Qijun Wan, Yan Zha, Chunbo Chen, Hong Xu, Ying Hu, Yongjun Shi, Yilun Zhou, Guobin Su, Ying Tang, Mengchun Gong, Li Wang, Fanfan Hou, Yongguo Liu, and Guisen Li

Subjects

Science

Abstract

Abstract Acute kidney injury (AKI) is prevalent and a leading cause of in-hospital death worldwide. Early prediction of AKI-related clinical events and timely intervention for high-risk patients could improve outcomes. We develop a deep learning model based on a nationwide multicenter cooperative network across China that includes 7,084,339 hospitalized patients, to dynamically predict the risk of in-hospital death (primary outcome) and dialysis (secondary outcome) for patients who developed AKI during hospitalization. A total of 137,084 eligible patients with AKI constitute the analysis set. In the derivation cohort, the area under the receiver operator curve (AUROC) for 24-h, 48-h, 72-h, and 7-day death are 95·05%, 94·23%, 93·53%, and 93·09%, respectively. For dialysis outcome, the AUROC of each time span are 88·32%, 83·31%, 83·20%, and 77·99%, respectively. The predictive performance is consistent in both internal and external validation cohorts. The model can predict important outcomes of patients with AKI, which could be helpful for the early management of AKI.

Published

2023

41. Four-dimensional mapping of dynamic longitudinal brain subcortical development and early learning functions in infants

Author

Liangjun Chen, Ya Wang, Zhengwang Wu, Yue Shan, Tengfei Li, Sheng-Che Hung, Lei Xing, Hongtu Zhu, Li Wang, Weili Lin, and Gang Li

Subjects

Science

Abstract

Abstract Brain subcortical structures are paramount in many cognitive functions and their aberrations during infancy are predisposed to various neurodevelopmental and neuropsychiatric disorders, making it highly essential to characterize the early subcortical normative growth patterns. This study investigates the volumetric development and surface area expansion of six subcortical structures and their associations with Mullen scales of early learning by leveraging 513 high-resolution longitudinal MRI scans within the first two postnatal years. Results show that (1) each subcortical structure (except for the amygdala with an approximately linear increase) undergoes rapid nonlinear volumetric growth after birth, which slows down at a structure-specific age with bilaterally similar developmental patterns; (2) Subcortical local area expansion reveals structure-specific and spatiotemporally heterogeneous patterns; (3) Positive associations between thalamus and both receptive and expressive languages and between caudate and putamen and fine motor are revealed. This study advances our understanding of the dynamic early subcortical developmental patterns.

Published

2023

42. Evidence for persistence of the SHIV reservoir early after MHC haploidentical hematopoietic stem cell transplantation

Author

Andrew F. May, Alison Yu, Veronica Nelson, Keith W. Vogel, Shiu Lok Hu, Kayla Betz, Cliff A. Astley, Charlotte E. Hotchkiss, Audrey Baldessari, Joel Ahrens, Cassie Moats, Sowmya Reddy, Willi M. Obenza, Katie Zeleski, Agne Taraseviciute, Brian Agricola, Laurence Stensland, Lucrezia Colonna, Christopher English, Patricia Polacino, Joe Olvera, Keith R. Jerome, Scott N. Furlan, Jennifer Lane, Heather Mack, Robert D. Murnane, Solomon Wangari, Melanie Brown, Hengqi Zheng, Victor Tkachev, John B. Schell, Michelle Hoffman, Daniel J. Hunt, Naoto Iwayama, Hans-Peter Kiem, Christopher W. Peterson, Leslie S. Kean, Judith M Carlson, and Meei Li W. Huang

Subjects

0301 basic medicine, Cart, Allogeneic transplantation, Myeloid, animal diseases, Science, medicine.medical_treatment, Simian Acquired Immunodeficiency Syndrome, General Physics and Astronomy, Hematopoietic stem cell transplantation, Biology, CD8-Positive T-Lymphocytes, Major histocompatibility complex, General Biochemistry, Genetics and Molecular Biology, Article, Major Histocompatibility Complex, 03 medical and health sciences, Immunity, immune system diseases, hemic and lymphatic diseases, Antiretroviral Therapy, Highly Active, medicine, Animals, Transplantation, Homologous, lcsh:Science, Disease Reservoirs, Multidisciplinary, Hematopoietic Stem Cell Transplantation, virus diseases, General Chemistry, Macaca mulatta, 3. Good health, Transplantation, 030104 developmental biology, medicine.anatomical_structure, Lymphatic system, surgical procedures, operative, Immunology, DNA, Viral, Transplantation, Haploidentical, biology.protein, RNA, Viral, lcsh:Q, Simian Immunodeficiency Virus

Abstract

Allogeneic transplantation (allo-HCT) has led to the cure of HIV in one individual, raising the question of whether transplantation can eradicate the HIV reservoir. To test this, we here present a model of allo-HCT in SHIV-infected, cART-suppressed nonhuman primates. We infect rhesus macaques with SHIV-1157ipd3N4, suppress them with cART, then transplant them using MHC-haploidentical allogeneic donors during continuous cART. Transplant results in ~100% myeloid donor chimerism, and up to 100% T-cell chimerism. Between 9 and 47 days post-transplant, terminal analysis shows that while cell-associated SHIV DNA levels are reduced in the blood and in lymphoid organs post-transplant, the SHIV reservoir persists in multiple organs, including the brain. Sorting of donor-vs.-recipient cells reveals that this reservoir resides in recipient cells. Moreover, tetramer analysis indicates a lack of virus-specific donor immunity post-transplant during continuous cART. These results suggest that early post-transplant, allo-HCT is insufficient for recipient reservoir eradication despite high-level donor chimerism and GVHD., Allogeneic hematopoietic cell transplantation (allo-HCT) has led to the cure of HIV in one individual, but the underlying mechanisms are unclear. Here, the authors present a model of allo-HCT in SHIV-infected nonhuman primates and show that the SHIV reservoir persists in multiple tissues early after transplantation.

Published

2018

43. Anomalous twin boundaries in two dimensional materials

Author

A. P. Rooney, Z. Li, W. Zhao, A. Gholinia, A. Kozikov, G. Auton, F. Ding, R. V. Gorbachev, R. J. Young, S. J. Haigh

Published

2018

44. Synergy of multiple precipitate/matrix interface structures for a heat resistant high-strength Al alloy

Author

Qiang Lu, Jianchuan Wang, Hongcheng Li, Shenbao Jin, Gang Sha, Jiangbo Lu, Li Wang, Bo Jin, Xinyue Lan, Liya Li, Kai Li, and Yong Du

Subjects

Science

Abstract

Abstract High strength aluminum alloys are widely used but their strength is reduced as nano-precipitates coarsen rapidly in medium and high temperatures, which greatly limits their application. Single solute segregation layers at precipitate/matrix interfaces are not satisfactory in stabilizing precipitates. Here we obtain multiple interface structures in an Al-Cu-Mg-Ag-Si-Sc alloy including Sc segregation layers, C and L phases as well as a newly discovered χ-AgMg phase, which partially cover the θ′ precipitates. By atomic resolution characterizations and ab initio calculations, such interface structures have been confirmed to synergistically retard coarsening of precipitates. Therefore, the designed alloy shows the good combination of heat resistance and strength among all series of Al alloys, with 97% yield strength retained after thermal exposure, which is as high as 400 MPa. This concept of covering precipitates with multiple interface phases and segregation layers provides an effective strategy for designing other heat resistant materials.

Published

2023

45. Effects of acidification on nitrification and associated nitrous oxide emission in estuarine and coastal waters

Author

Jie Zhou, Yanling Zheng, Lijun Hou, Zhirui An, Feiyang Chen, Bolin Liu, Li Wu, Lin Qi, Hongpo Dong, Ping Han, Guoyu Yin, Xia Liang, Yi Yang, Xiaofei Li, Dengzhou Gao, Ye Li, Zhanfei Liu, Richard Bellerby, and Min Liu

Subjects

Science

Abstract

Acidification of estuarine and coastal water due to synergistic effects of human induced eutrophication and elevated atmospheric CO2 could inhibit nitrification, a vital link of nitrogen cycle, but increase the release of powerful greenhouse gas N2O.

Published

2023

46. Variant Plateau’s law in atomically thin transition metal dichalcogenide dome networks

Author

Boqing Liu, Tanju Yildirim, Tieyu Lü, Elena Blundo, Li Wang, Lixue Jiang, Hongshuai Zou, Lijun Zhang, Huijun Zhao, Zongyou Yin, Fangbao Tian, Antonio Polimeni, and Yuerui Lu

Subjects

Science

Abstract

Plateau’s law describes the configuration (joint angles ~120°) of soap bubbles, foams and cellular structures, but its applicability to solid films has not been explored. Here, the authors report the observation of a variant Plateau’s law in networks of nanobubbles made of 2D semiconductors, measuring largely varying joint angles due to the thickness-dependent effective surface tension.

Published

2023

47. LSM1-mediated Major Satellite RNA decay is required for nonequilibrium histone H3.3 incorporation into parental pronuclei

Author

Jiang Zhu, Kang Chen, Yu H. Sun, Wen Ye, Juntao Liu, Dandan Zhang, Nan Su, Li Wu, Xiaochen Kou, Yanhong Zhao, Hong Wang, Shaorong Gao, and Lan Kang

Subjects

Science

Abstract

Asymmetric histone modifications in parental pronuclei displays epigenetic regulation. Here the authors reveal the role of LSM1-mediated Major Satellite RNA decay in the H3 variant incorporation and modifications in male pronucleus.

Published

2023

48. Discovery and biosynthesis of karnamicins as angiotensin converting enzyme inhibitors

Author

Zhiyin Yu, Jian-Ping Huang, Jing Yang, Chongxi Liu, Yijun Yan, Li Wang, Junwei Zhao, Yin Chen, Wensheng Xiang, and Sheng-Xiong Huang

Subjects

Science

Abstract

Treatment of hypertension entails use of angiotensin-converting enzyme inhibitors. Here, the authors show a series of karnamicins with significant inhibitory activity and identify two unusual flavoprotein hydroxylases involved in the assembly of the fully-substituted hydroxypyridine core of karnamicins.

Published

2023

49. Structure of nucleosome-bound human PBAF complex

Author

Li Wang, Jiali Yu, Zishuo Yu, Qianmin Wang, Wanjun Li, Yulei Ren, Zhenguo Chen, Shuang He, and Yanhui Xu

Subjects

Science

Abstract

BAF and PBAF are SWI/SNF family chromatin remodeling complexes that create nucleosome-depleted regions for transcription activation. Here the authors report the structure of a 13-subunit human PBAF in complex with acetylated nucleosome in ADP-BeF3-bound state that provides structural insights into PBAF-mediated nucleosome association.

Published

2022

50. DNA mechanical flexibility controls DNA potential to activate cGAS-mediated immune surveillance

Author

Lina Wang, Siru Li, Kai Wang, Na Wang, Qiaoling Liu, Zhen Sun, Li Wang, Lulu Wang, Quentin Liu, Chengli Song, Caigang Liu, and Qingkai Yang

Subjects

Science

Abstract

DNA is well-documented to stimulate immune response. Here the authors show that the activation of cyclic GMP-AMP synthase (cGAS) depends on DNA mechanical flexibility, itself determined by DNA-sequence, damage and length.

Published

2022