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1. Suppression of CsFAD3 in a JA-dependent manner, but not through the SA pathway, impairs drought stress tolerance in tea

Author

Na Chang, Xiaotian Pi, Ziwen Zhou, Yeyun Li, and Xianchen Zhang

Subjects
tea plants, CsFAD3, drought stress, jasmonic acid, Agriculture (General), S1-972
Abstract

The growth and yield of tea plants are seriously limited by drought stress. Fatty acid desaturases (FADs) contribute to the mediation of membrane fluidity in response to different stresses, although the role of ω-3 FAD (Omega-3 fatty acid desaturase)-mediated damage induced by drought stress in tea plants is poorly understood. In this study, drought stress significantly promoted the synthesis of C18:3 (linolenic acid) and the expression level of CsFAD3. Yeast experiments further demonstrated that CsFAD3 can convert C18:2 to C18:3, and that the 35S:GFP-CsFAD3 fusion protein was localized in the endoplasmic reticulum of Nicotiana benthamiana cells. CsFAD3-silenced tea leaves exhibited poor drought tolerance, with a lower Fv/Fm and a higher malondialdehyde (MDA) content than the control plants. However, transgenic 35S:CsFAD3 Arabidopsis plants showed the opposite phenotypes. In addition, the jasmonic acid (JA) content and the expression levels of CsLOX2, CsLOX4, CsAOS, CsAOC3 and CsOPR2 were significantly reduced in CsFAD3-silenced leaves under drought stress. However, no substantial difference in the salicylic acid (SA) content was detected under normal or drought conditions. An analysis of Atcoi1 (JA receptor) or Atnpr1 (SA receptor) mutant Arabidopsis plants in 35S:CsFAD3 backgrounds further revealed that knockout of Atcoi1 impaired the drought-tolerant phenotypes of CsFAD3 overexpression lines. Therefore, this study demonstrated that CsFAD3 plays a crucial role in drought tolerance by mediating JA pathways.

Published
2024
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2. CMOS-compatible high-speed endless automatic polarization controller

Author

Weiqin Wang, Ziwen Zhou, Yifan Zeng, Jingze Liu, Gengqi Yao, Hao Wu, Yunhong Ding, Siyan Zhou, Siqi Yan, and Ming Tang

Subjects
Applied optics. Photonics, TA1501-1820
Abstract

Automatic polarization controllers find broad applications in various fields, including optical communication, quantum optics, optical sensing, and biomedicine. Currently, the predominant integrated automatic polarization controllers employ either lithium niobate or silicon platforms. Devices based on lithium niobate platforms exhibit excellent performance; however, their fabrication complexity hinders widespread commercial deployment. In contrast, silicon-based integrated automatic polarization controllers benefit from complementary metal–oxide–semiconductor compatibility and reduced fabrication costs. Nevertheless, these silicon automatic polarization controllers suffer from low tracking speeds, peaking at merely 1.256 krad/s. In this study, we demonstrated a silicon high-speed automatic polarization controller, incorporating innovative thermal tuning units combined with a sophisticated control algorithm. The response time of these thermal tuning units has been markedly decreased to 3.2 µs. In addition, we have implemented a novel automatic polarization control algorithm, utilizing gradient descent techniques, on a field-programmable gate array control board. The synergy of the rapid thermal tuning unit and the advanced control algorithm has enabled us to attain an unprecedented polarization control speed of up to 20 krad/s, with this rate being solely limited by the capabilities of our characterization equipment. To our knowledge, this speed is the fastest yet reported for a silicon-based integrated automatic polarization control chip. The proposed device represents a significant breakthrough in the field of silicon-based automatic polarization controllers, paving the way for the future integration of additional polarization management devices. Such an advancement would mark a substantial leap in the realm of integrated photonics, bridging the gap between performance efficiency, cost-effectiveness, and technological integration.

Published
2024
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3. Unconventional polarization fatigue in van der Waals layered ferroelectric ionic conductor CuInP2S6

Author

Ziwen Zhou, Shun Wang, Zhou Zhou, Yiqi Hu, Qiankun Li, Jinshuo Xue, Zhijian Feng, Qingyu Yan, Zhongshen Luo, Yuyan Weng, Rujun Tang, Xiaodong Su, Fengang Zheng, Kazuki Okamoto, Hiroshi Funakubo, Lixing Kang, Liang Fang, and Lu You

Subjects
Science
Abstract

Abstract Recent progress in two-dimensional ferroelectrics greatly expands the versatility and tunability in van der Waals heterostructure based electronics. However, the switching endurance issue that widely plagues conventional ferroelectrics in practical applications is hitherto unexplored for van der Waals layered ferroelectrics. Herein, we report the observation of unusual polarization fatigue behaviors in van der Waals layered CuInP2S6, which also possesses finite ionic conductivity at room temperature. The strong intertwinement of the short-range polarization switching and long-range ionic movement in conjunction with the van der Waals layered structure gives rise to unique morphological and polarization evolutions under repetitive electric cycles. With the help of concerted chemical, structural, lattice vibrational and dielectric analyses, we unravel the critical role of the synergy of ionic migration and surface oxidation on the anomalous polarization enhancement and the eventual polarization degradation. This work provides a general insight into the polarization fatigue characteristics in ionically-active van der Waals ferroelectrics and delivers potential solutions for the realization of fatigue-free capacitors.

Published
2023
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4. Zebrafish usp3 loss promotes hypoxic tolerance by disrupting deubiquitination of K63-polyubiquitinated hif-1αa

Author

Jun Li, Ziwen Zhou, Xiaolian Cai, Yanan Song, Zhi Li, Ziyi Li, Wuhan Xiao, and Jing Wang

Subjects
Hif-1αa, HIF-1α, Hypoxic tolerance, usp3, Zebrafish, Environmental sciences, GE1-350, Biology (General), QH301-705.5
Abstract

The hypoxia-inducible factor (HIF)-mediated hypoxia signaling pathway influences oxygen homeostasis in aerobic organisms. This pathway is regulated by several other pathways. Elucidation of its regulation and the underlying mechanisms may provide insights into the strategies of adaptation and tolerance of organisms to hypoxia. In this study, we found that loss of ubiquitin-specific protease 3 (usp3) in zebrafish promotes hypoxia tolerance. Zebrafish usp3 specifically binds to hif-1αa and induces its proteasomal degradation, which is dependent on its deubiquitinase activity. This process leads to the suppression of hypoxia signaling under hypoxia. In addition, usp3 catalyzes the deubiquitination of K63-polyubiquitinated hif-1αa. Endogenous evidence indicated that mammalian USP3 behaves like zebrafish usp3 in regulating the activity of HIF-1α. These findings revealed a novel role for usp3 in influencing hypoxia signaling and showed that usp3-mediated HIF-1α degradation impairs hypoxia signaling, leading to a decrease in hypoxia tolerance.

Published
2024
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5. Simple high-resolution Bradbury–Nielsen mass gate

Author

Zezhao Jia, Zhaojun Liu, Xiaohan Wang, Runyu Wang, Tianjie Ma, Ziwen Zhou, Ramiro Moro, Bernd von Issendorff, and Lei Ma

Subjects
Physics, QC1-999
Abstract

The selection of targets with specific masses, including molecules, atoms, and clusters, has broad applications in spectrometry. As an ion mass-gate with a very high resolution, Bradbury–Nielsen Gates (BNGs) are widely used in the study of size-dependent effects of clusters. Here, wepresent a simple and low-cost method for fabricating high resolution BNGs using a printed circuit board and a 3D printed wire winding and transfer tool. It can produce a pitch of 400 µm with 25 µm diameter tungsten wires. The test results indicate that its resolution reaches more than 1500 when it couples with a homemade ultrafast voltage switch.

Published
2024
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7. Optimization of Green Extraction Process of Cinnamomum camphora Fruit Dye and its Performance by Response Surface Methodology

Author

Yiqing Qi, Guangyu Liu, Zhi Zhang, and Ziwen Zhou

Subjects
cinnamomum camphora, fruit peel, response surface methodology, natural dyes, microwave-assisted extraction, Biotechnology, TP248.13-248.65
Abstract

Natural dyes are widely available and mainly extracted from natural plants with green, safe, and sustainable characteristics. This study used Cinnamomum camphora fruit peel as the raw material under the premise of minimizing chemical reagents and employed the microwave-extraction method to extract the dyes from C. camphora fruit peel. The dye extraction conditions were optimized using response surface software via the Box-Behnken model to formulate a response surface test protocol. The results showed that optimizing the experimental conditions by the response surface method was reliable. The optimal extraction condition was found to be material-liquid ratio 1:20 (g: mL), microwave time 90 s, and microwave power 420 W. It is of practical application value to improve the extraction quantity of C. camphora fruit dye. At the same time, the infrared spectrum and HPLC-MS analysis of Cinnamomum camphora fruit dye were analyzed, and the stability of the dye was tested.

Published
2023

8. Research on the Dyeing Properties of Chinese Fir Using Ultrasonic-Assisted Mulberry Pigment Dyeing

Author

Yiqing Qi, Ziwen Zhou, Ran Xu, Yuting Dong, Meijiao Liu, Liming Shen, and Jianlin Han

Subjects
ultrasonic-assisted dyeing, mulberry pigment, Chinese fir, dyeing property, fuzzy comprehensive evaluation method, Plant ecology, QK900-989
Abstract

Wood dyeing plays a crucial role in improving the aesthetic appeal of wood. To enhance the value of Chinese fir, this study used environmentally friendly mulberry pigment and ultrasonic technology to dye Chinese fir. A single-factor test was conducted to investigate the impact of ultrasonic power, dyeing temperature, dyeing time, and dye concentration on dye uptake and color difference. The results revealed that ultrasonic treatment significantly increased the dye uptake and color difference compared with conventional water bath dyeing methods. Based on the single-factor test, two indexes for the color fastness of washing and sun were added, and an orthogonal test was carried out. The range analysis results demonstrated that ultrasonic power had the greatest influence on dye uptake, while dye concentration showed the strongest impact on the color difference and color fastness in washing and sunlight. The dyeing process was optimized using the fuzzy comprehensive evaluation method, with the optimum parameters determined as follows: ultrasonic power of 340 W, dyeing temperature of 90 °C, dyeing time of 5 h, and dye concentration of 10%. Scanning electron microscopy revealed that ultrasound increased wood permeability and created cracks, providing attachment sites for dye molecules. Infrared analysis indicated that ultrasonic action enhanced the degradation of wood components, transforming them into smaller molecular substances and increasing the accessibility of dyes to wood. X-ray diffraction analysis demonstrated that ultrasonic action reduced wood crystallinity, facilitating the entry of dye molecules into Chinese fir fibers. In this study, we proposed for the first time to dye fir wood with mulberry pigment and use ultrasonic-assisted dyeing to investigate the effect of dyeing factors on the dyeing rate, color difference, and color fastness, which provides a valuable reference for natural pigment dyeing of Chinese fir.

Published
2023
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9. Environmental awareness and environmental information disclosure: An empirical study based on energy industry

Author

Shijin Wang, Ziwen Zhou, and Keqin Tian

Subjects
environmental awareness, environmental information disclosure, energy companies, structural equation model, environmental information disclosure quality, Psychology, BF1-990
Abstract

Environmental protection and governance have become a topic of global concern. Sustainable development and green development are the unshakable ideas of China’s social and economic development. Under this premise, the energy industry, as a pillar industry in China, has the disadvantages of high energy consumption and heavy pollution. Therefore, the quality of environmental information disclosure in energy industry needs to be improved urgently. This paper selects 66 samples from 22 energy companies in Shanghai and Shenzhen stock markets from 2018 to 2020 as the research object, establishes two potential variables and 13 observed variables of environmental awareness and environmental information disclosure respectively, and constructs structural equation model to study the impact of corporate environmental awareness on environmental information disclosure. The research shows that the environmental awareness of enterprises is positively related to the level of environmental information disclosure. The conclusion is helpful to improve the enthusiasm and consciousness of energy companies to disclose environmental information. A better role in supervising the quality of environmental information disclosure by the government, enterprises and the public can be played.

Published
2022
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10. Size effect on optical and vibrational properties of van der Waals layered In4/3P2S6

Author

Hailin Zhou, Ju Zhou, Shun Wang, Ping Li, Qiankun Li, Jinshuo Xue, Ziwen Zhou, Rui Wang, Yiqing Yu, Yuyan Weng, Fengang Zheng, Zhongguo Li, Sheng Ju, Liang Fang, and Lu You

Subjects
Biotechnology, TP248.13-248.65, Physics, QC1-999
Abstract

Metal thiophosphates have recently received increasing research interest, thanks to their diversity in regard to metal cation occupation within the P–S scaffold, which produces a broad array of functional properties. Among them, In4/3P2S6 belongs to a special case as regards the ordering of metal cations and vacancy sites, whose physical properties remain largely unexplored, especially in the atomically thin limit. In this work, we undertake a comprehensive investigation on the thickness-dependent optical and vibrational properties of In4/3P2S6 from the bulk scale down to a few-layer flakes. Both optical birefringence and anisotropic photoelectric response are observed, which are closely linked to the monoclinic symmetry of the crystal lattice. The vanishing of Raman, absorption, and photoluminescence intensities at about three to four layers signifies the enhanced structural disorder and lattice incoherence when approaching the monolayer limit. Before reaching this critical thickness, phonon softening due to weakened interlayer coupling and bandgap widening due to quantum confinement are accompanied by thickness reduction. These findings shed light on a general understanding of the finite size effect on the physical properties of metal thiophosphates and deliver possible device applications by exploiting the property of optical anisotropy.

Published
2022
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11. SdiA Enhanced the Drug Resistance of Cronobacter sakazakii and Suppressed Its Motility, Adhesion and Biofilm Formation

Author

Chuansong Cheng, Xiaotong Yan, Binxiong Liu, Tao Jiang, Ziwen Zhou, Fengting Guo, Qianwen Zhang, Changcheng Li, and Ting Fang

Subjects
Cronobacter sakazakii, quorum sensing receptor, SdiA, transcriptomics, multidrug resistance, biofilm, Microbiology, QR1-502
Abstract

Cronobacter sakazakii is a common foodborne pathogen, and the mortality rate of its infection is as high as 40–80%. SdiA acts as a quorum sensing regulator in many foodborne pathogens, but its role in C. sakazakii remains unclear. Here, we further determined the effect of the sdiA gene in C. sakazakii pathogenicity. The SdiA gene in C. sakazakii was knocked out by gene editing technology, and the biological characteristics of the ΔsdiA mutant of C. sakazakii were studied, followed by transcriptome analysis to elucidate its effects. The results suggested that SdiA gene enhanced the drug resistance of C. sakazakii but diminished its motility, adhesion and biofilm formation ability and had no effect on its growth. Transcriptome analysis showed that the ΔsdiA upregulated the expression levels of D-galactose operon genes (including dgoR, dgoK, dgoA, dgoD and dgoT) and flagella-related genes (FliA and FliC) in C. sakazakii and downregulated the expression levels of related genes in the type VI secretion system (VasK gene was downregulated by 1.53-fold) and ABC transport system (downregulated by 1.5-fold), indicating that SdiA gene was related to the physiological metabolism of C. sakazakii. The results were useful for clarifying the pathogenic mechanism of C. sakazakii and provide a theoretical basis for controlling bacterial infection.

Published
2022
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12. The Study of Enteromorpha-Based Reinforcing-Type Flame Retardant on Flame Retardancy and Smoke Suppression of EPDM

Author

Peipei Sun, Ziwen Zhou, Licong Jiang, Shuai Zhao, and Lin Li

Subjects
Enteromorpha, reinforcing, flame retardant, Organic chemistry, QD241-441
Abstract

Enteromorpha, as a waste from marine pollution, brings great pressure to environmental governance every year, especially for China. Under the premise of a shortage of industrial materials, taking appropriate measures can turn waste into wealth, which will benefit us a lot. In this work, a bio-based reinforcing-type flame retardant based on Enteromorpha is designed. The designed Enteromorpha-based flame retardant system (AEG) mainly focuses on the reinforcing and flame retardant effects on ethylene-propylene-diene tripolymer (EPDM). For the AEG system, ammonium polyphosphate (APP) serves as both the acid source and the gas source; the simple hybrid material (GN) produced by loading graphene (GE) and Enteromorpha (EN) using tannic acid (TA) as a regulator serves as an acid source and a carbonizing source. The results show that when 40 phr AEG is added, the LOI of EPDM/AEG40 reaches 32.5% and the UL-94 reaches the V-0 level. The PHRR and THR values of EPDM/AEG40 are 325.9 kW/m2 and 117.6 MJ/m2, respectively, with decrements of 67.3% and 29.7%, respectively, compared with the results of neat EPDM composite. Especially, the TSP and TSR values of EPDM/AEG40 are reduced from 15.2 m2 of neat EPDM to 9.9 m2 with a decrement of 34.9% and reduced from 1715.2 m2/m2 of neat EPDM to 1124.5 m2/m2 with a decrement of 34.4%, indicating that AEG is effective in flame retardancy and smoke suppression. Meanwhile, the tensile strength and tear strength of EPDM/AEG composites are much higher than neat EPDM, therefore, with the future development of innovate reinforcing-type flame-retardant Enteromorpha, the application of Enteromorpha in the polymer flame-retardant field will surely usher in bright development.

Published
2022
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13. Effects of inert shell on the upconversion intensity and color of Na(Er/Yb)F4 nanocrystals

Author

Ziwen Zhou, Danyang Ning, Yin Zhu, Li Xu, Yanting Yang, Enming Zhao, Lu Liu, and Shuangqiang Liu

Subjects
Physics, QC1-999
Abstract

Inert passivation can significantly enhance the upconversion intensity of lanthanide ion doped nanocrystals, especially in the heavily doped cases. In this paper, we revealed that, besides the well-known enhancement of intensity, the inert shell can also influence the upconversion color of Er3+/Yb3+ heavily doped nanocrystals in two opposite directions. The mechanisms of the effects of inert shell passivation are discussed based on the spectroscopic observations. The quantum yields of upconversion nanocrystals were estimated for the core-only and core–shell nanocrystals. This work provides guidelines for designing upconversion nanomaterials with bright emission and desired color and thus can further help them to be applied in multichannel imaging, display devices, and phototherapy.

Published
2021
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14. Photodetector Based on Twisted Bilayer Graphene/Silicon Hybrid Slot Waveguide with High Responsivity and Large Bandwidth

Author

Siqi Yan, Ze Zhang, Weiqin Wang, Ziwen Zhou, Wenyi Peng, Yifan Zeng, Yuqin Yuan, Siting Huang, Xuchen Peng, Xiaolong Zhu, Ming Tang, and Yunhong Ding

Subjects
silicon photodetector, twisted bilayer graphene, silicon photonics, Applied optics. Photonics, TA1501-1820
Abstract

Graphene/silicon hybrid photodetector operating at communication wavelength has attracted enormous attention recently due to its potential to realize bandwidth larger than 100 GHz. However, the responsivity is intrinsically limited by the low absorption from the atomic-thick graphene monolayer, which imposes significant obstacles towards its practical application. Although plasmonic structures has been widely applied to enhance the responsivity, it may induce the metallic absorption thus limit the responsivity lower than 0.6 A/W. Twisted bilayer graphene (TBG) has been reported to hold the ability to dramatically enhance the optical absorption due to the unique twist-angle-dependent van Hove singularities. In this article, we present a design of a silicon/TBG hybrid photodetector with a responsivity higher than 1 A/W and bandwidth exceeding 100 GHz. The enhanced responsivity is achieved by tuning the twisted angle of TBG to increase the absorption within the 1550 nm as well as utilizing the silicon slot waveguide to boost the mode overlap with TBG. The fabrication process of proposed design is also discussed demonstrating the advantages of low fabrication complexity. The proposed silicon/TBG photodetector could not only exhibit superior performance compared to previously reported silicon/monolayer graphene photodetector, but also pave the way for the practical application of graphene-based silicon optoelectronic devices.

Published
2022
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15. A Genome-Wide Association Study on Feed Efficiency Related Traits in Landrace Pigs

Author

Lu Fu, Yao Jiang, Chonglong Wang, Mengran Mei, Ziwen Zhou, Yifan Jiang, Hailiang Song, and Xiangdong Ding

Subjects
genome-wide association study, feed efficiency, feed conversion ratio, average daily gain, average daily feed intake, residual feed intake, Genetics, QH426-470
Abstract

Feed efficiency (FE) traits in pigs are of utmost economic importance. Genetic improvement of FE related traits in pigs might significantly reduce production cost and energy consumption. Hence, our study aimed at identifying SNPs and candidate genes associated with FE related traits, including feed conversion ratio (FCR), average daily gain (ADG), average daily feed intake (ADFI), and residual feed intake (RFI). A genome-wide association study (GWAS) was performed for the four FE related traits in 296 Landrace pigs genotyped with PorcineSNP50 BeadChip. Two different single-trait methods, single SNP linear model GWAS (LM-GWAS) and single-step GWAS (ssGWAS), were implemented. Our results showed that the two methods showed high consistency with respect to SNP identification. A total of 32 common significant SNPs associated with the four FE related traits were identified. Bioinformatics analysis revealed eight common QTL regions, of which three QTL regions related to ADFI and RFI traits were overlapped. Gene ontology analysis revealed six common candidate genes (PRELID2, GPER1, PDX1, TEX2, PLCL2, ICAM2) relevant for the four FE related traits. These genes are involved in the processes of fat synthesis and decomposition, lipid transport process, insulin metabolism, among others. Our results provide, new insights into the genetic mechanisms and candidate function genes of FE related traits in pigs. However, further investigations to validate these results are warranted.

Published
2020
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16. Mechanisms of Upconversion Luminescence of Er3+-Doped NaYF4 via 980 and 1530 nm Excitation

Author

Yu Liu, Ziwen Zhou, Shaojian Zhang, Enming Zhao, Jing Ren, Lu Liu, and Jianzhong Zhang

Subjects
Er3+, upconversion, NaYF4, 980 and 1530 nm excitation, mechanisms, Chemistry, QD1-999
Abstract

To date, the mechanisms of Er3+ upconversion luminescence via 980 and 1530 nm excitation have been extensively investigated; however, based on discussions, they either suffer from the lack of convincing evidence or require elaborated and time-consuming numerical simulations. In this work, the steady-state and time-resolved upconversion luminescence data of Er3+-doped NaYF4 were measured; we therefore investigated the upconversion mechanisms of Er3+ on the basis of the spectroscopic observations and the simplified rate equation modeling. This work provides a relatively simple strategy to reveal the UCL mechanisms of Er3+ upon excitation with various wavelengths, which may also be used in other lanthanide ion-doped systems.

Published
2021
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20. RESPONSE SURFACE OPTIMIZATION BASED ON FREEZE-THAW CYCLE PRETREATMENT OF POPLAR WOOD DYEING EFFECT

Author

YIQING QI, YUE SUN, ZIWEN ZHOU, YI HUANG, JIAXI LI, and GUANGYU LIU

Subjects
General Materials Science, Forestry
Abstract

To improve the permeability of dye solution in wood, poplar was pretreated by freeze-thaw cycle. The effects of three parameters, such as freezing time, thawing time and circulation times on the dyeing effect of pretreated poplar were investigated by single factor method. On this basis, pretreatment conditions were optimized by response surface methodology. The optimum conditions of this treatment were freezing time of 11.9 h, thawing time of 7.2 h and two cycles. Under these conditions, the dye uptake and chromatic aberration of the treated wood were 25.77% and 21.14%, respectively, which were close to the theoretical predicted values. The results showed that freeze-thaw cycle pretreatment could effectively improve the permeability of poplar and enhance the dyeing effect of wood.

Published
2023

24. Passivating violet phosphorus against ambient degradation for highly sensitive and long-term stable optoelectronic devices

Author

Jinshuo Xue, Shun Wang, Ju Zhou, Qiankun Li, Ziwen Zhou, Qiang Hui, Yiqi Hu, Zhou Zhou, Zhijian Feng, Qingyu Yan, Yiqing Yu, Yuyan Weng, Rujun Tang, Xiaodong Su, Yu Xin, Fengang Zheng, Sheng Ju, Lu You, and Liang Fang

Subjects
Physics and Astronomy (miscellaneous)
Abstract

Recent success in exfoliating violet or Hittorf's phosphorus down to monolayer reignites the research passion in this ancient yet mysterious material, questing for superior electronic and optoelectronic functionalities. Unfortunately, the poor air stability that plagues black phosphorus also exists in the violet counterpart. Aiming to provide more insight into the degradation chemistry and accordingly find a facile solution for it, herein, we employ concerted elemental, chemical and vibrational spectroscopies to reveal the critical role of oxygen and water in the degradation mechanism and pathway of violet phosphorus in ambient condition. Thereafter, a simple passivation approach by oxide encapsulation is demonstrated to realize air-stable violet phosphorus photodetector device. As the proof-of-concept, the photodetector fabricated accordingly shows superior figures of merit with ultralow dark current (< 10−13 A), high low-light responsivity (6 A W−1) and fast response time (< 10 ms) in the ultraviolet to visible spectrum, as well as great chemical robustness against harsh environments.

Published
2023

26. Asymmetric arginine dimethylation of cytosolic RNA and DNA sensors by PRMT3 attenuates antiviral innate immunity.

Author

Junji Zhu, Xiong Li, Xiaolian Cai, Ziwen Zhou, Qian Liao, Xing Liu, Jing Wang, and Wuhan Xiao

Subjects
DNA virus diseases, NATURAL immunity, RNA virus infections, TYPE I interferons, PROTEIN arginine methyltransferases
Abstract

The cytosolic RNA and DNA sensors initiate type I interferon signaling when binding to RNA or DNA. To effectively protect the host against virus infection and concomitantly avoid excessive interferonopathy at resting states, these sensors must be tightly regulated. However, the key molecular mechanisms regulating these sensors’ activation remain elusive. Here, we identify PRMT3, a type I protein arginine methyltransferase, as a negative regulator of cytosolic RNA and DNA sensors. PRMT3 interacts with RIG-I, MDA5, and cGAS and catalyzes asymmetric dimethylation of R730 on RIG-I, R822 on MDA5, and R111 on cGAS. These modifications reduce RNA-binding ability of RIG-I and MDA5 as well as DNA-binding ability and oligomerization of cGAS, leading to the inhibition of downstream type I interferon production. Furthermore, mice with loss of one copy of Prmt3 or in vivo treatment of the PRMT3 inhibitor, SGC707, are more resistant to RNA and DNA virus infection. Our findings reveal an essential role of PRMT3 in the regulation of antiviral innate immunity and give insights into the molecular regulation of cytosolic RNA and DNA sensors’ activation. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Flame-retardant effect of tannic acid-based intumescent fire-retardant applied on flammable natural rubber

Author

Jingchao Wang, Xueya Wang, Ziwen Zhou, Xiaoyang Liu, Meiming Xu, Fa Zhao, Feng Zhao, Song Li, Zhihua Liu, Lin Li, and Shuai Zhao

Subjects
General Chemical Engineering, General Chemistry
Abstract

Tannic acid (TA) is a natural phenolic compound abundant in plants. Its characteristics of low combustion and good absorption make it useful in the flame retardant field. On this basis, a new expansive flame retardant system (ACT) composed of ammonium polyphosphate (APP)/TA functional clay (CT) was used to study the synergistic flame retardancy and smoke suppression of natural rubber (NR). Because of their unique flame retardancy and better mechanical properties compared with the traditional expansive flame retardant system (IFR), new flame retardants have attracted much attention in various fields. The results of the cone calorimeter showed that the ACT system can significantly influence the decomposition behavior of NR and form a highly graphitized and phosphorous carbon layer to protect the composite material, thus a synergistic effect is produced on the flame retardancy and smoke suppression performance of the composite material. In addition, within the effective additive quality range of the ACT system, TC can give the NR composite excellent mechanical properties.

Published
2022

29. Zebrafish sirt7 Negatively Regulates Antiviral Responses by Attenuating Phosphorylation of irf3 and irf7 Independent of Its Enzymatic Activity

Author

Junji Zhu, Jing Wang, Qian Liao, Gang Ouyang, Ziwen Zhou, Xing Liu, Guangqing Yu, Xiaolian Cai, and Wuhan Xiao

Subjects
biology, Chemistry, viruses, Immunology, SIRT7, virus diseases, biology.organism_classification, Cell biology, Sirtuin, biology.protein, Immunology and Allergy, IRF7, Phosphorylation, NAD+ kinase, Histone deacetylase activity, IRF3, Zebrafish
Abstract

Sirt7 is one member of the sirtuin family proteins with NAD (NAD+)-dependent histone deacetylase activity. In this study, we report that zebrafish sirt7 is induced upon viral infection, and overexpression of sirt7 suppresses cellular antiviral responses. Disruption of sirt7 in zebrafish increases the survival rate upon spring viremia of carp virus infection. Further assays indicate that sirt7 interacts with irf3 and irf7 and attenuates phosphorylation of irf3 and irf7 by preventing tbk1 binding to irf3 and irf7. In addition, the enzymatic activity of sirt7 is not required for sirt7 to repress IFN-1 activation. To our knowledge, this study provides novel insights into sirt7 function and sheds new light on the regulation of irf3 and irf7 by attenuating phosphorylation.

Published
2021

31. Fourth generation cryogenic neutral cluster beam apparatus for studying fundamental properties of metallic clusters

Author

Lin Miao, Zhaojun Liu, Zeyang Chen, Xiaohan Wang, Ziwen Zhou, Jinbo Zhao, Shaozheng Fang, Guangjia Yin, Zezhao Jia, Jin Liu, Ramiro Moro, Walt A. deHeer, and Lei Ma

Subjects
Instrumentation
Abstract

A cryogenic beam apparatus for studying neutral clusters has been built and tested. The lowest beam temperature reaches less than 9 K at a repetition rate of 20 Hz. Mechanical decoupling from the refrigerator avoids misalignment during temperature ramping. Adopting a permanent magnet based magnetic deflector eliminates the hysteresis and electric noise of the traditional electromagnet and offers excellent reproducibility of the applied magnetic field. The mass spectrometer can operate in either Mass Spectroscopy Time-Of-Flight mode or Position-Sensitive Time-Of-Flight mode with spatial resolution better than 7 μm. Its performance is demonstrated with niobium and cobalt clusters.

Published
2022

32. Zebrafish prmt2 Attenuates Antiviral Innate Immunity by Targeting traf6

Author

Ziwen Zhou, Xing Liu, Xiong Li, Jing Wang, Xiaolian Cai, Xueyi Sun, Junji Zhu, and Wuhan Xiao

Subjects
Innate immune system, biology, Arginine, C-terminus, Immunology, Viremia, biology.organism_classification, medicine.disease, Virus, Cell biology, Ubiquitin, TANK-binding kinase 1, biology.protein, medicine, Immunology and Allergy, Zebrafish
Abstract

TNFR-associated factor 6 (TRAF6) not only recruits TBK1/IKKε to MAVS upon virus infection but also catalyzes K63-linked polyubiquitination on substrate or itself, which is critical for NEMO-dependent and -independent TBK1/IKKε activation, leading to the production of type I IFNs. The regulation at the TRAF6 level could affect the activation of antiviral innate immunity. In this study, we demonstrate that zebrafish prmt2, a type I arginine methyltransferase, attenuates traf6-mediated antiviral response. Prmt2 binds to the C terminus of traf6 to catalyze arginine asymmetric dimethylation of traf6 at arginine 100, preventing its K63-linked autoubiquitination, which results in the suppression of traf6 activation. In addition, it seems that the N terminus of prmt2 competes with mavs for traf6 binding and prevents the recruitment of tbk1/ikkε to mavs. By zebrafish model, we show that loss of prmt2 promotes the survival ratio of zebrafish larvae after challenge with spring viremia of carp virus. Therefore, we reveal, to our knowledge, a novel function of prmt2 in the negative regulation of antiviral innate immunity by targeting traf6.

Published
2021

36. Zebrafish otud6b Negatively Regulates Antiviral Responses by Suppressing K63-Linked Ubiquitination of irf3 and irf7

Author

Wuhan Xiao, Xiaolian Cai, Junji Zhu, Xing Liu, Zhi Li, Guangqing Yu, Ziwen Zhou, and Gang Ouyang

Subjects
Carps, viruses, Immunology, Cell Line, 03 medical and health sciences, 0302 clinical medicine, Ubiquitin, TANK-binding kinase 1, Animals, Immunology and Allergy, Viremia, Carp, Zebrafish, biology, Lysine, Ubiquitination, virus diseases, Zebrafish Proteins, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Cell biology, Interferon Regulatory Factors, biology.protein, IRF7, Phosphorylation, Interferon Regulatory Factor-3, IRF3, 030215 immunology, Deubiquitination
Abstract

Ovarian tumor domain-containing 6B (OTUD6B) belongs to the OTU deubiquitylating enzyme family. In this study, we report that zebrafish otud6b is induced upon viral infection, and overexpression of otud6b suppresses cellular antiviral response. Disruption of otud6b in zebrafish increases the survival rate upon spring viremia of carp virus and grass carp reovirus exposure. Further assays indicate that otud6b interacts with irf3 and irf7 and diminishes traf6-mediated K63-linked polyubiquitination of irf3 and irf7. In addition, the OTU domain is required for otud6b to repress IFN-1 activation and K63-linked polyubiquitination of irf3 and irf7. Moreover, otud6b also attenuates tbk1 to bind to irf3 and irf7, resulting in the impairment of irf3 and irf7 phosphorylation. This study provides, to our knowledge, novel insights into otud6b function and sheds new lights on the regulation of irf3 and irf7 by deubiquitination in IFN-1 signaling.

Published
2021

37. Optimization of Green Extraction Process of Cinnamomum camphora Fruit Dye and its Performance by Response Surface Methodology.

Author

iqing Qi, Guangyu Liu, Zhi Zhang, and Ziwen Zhou

Subjects
RESPONSE surfaces (Statistics), CINNAMOMUM, NATURAL dyes & dyeing, FRUIT, CONDITIONED response, FRUIT skins
Abstract

Natural dyes are widely available and mainly extracted from natural plants with green, safe, and sustainable characteristics. This study used Cinnamomum camphora fruit peel as the raw material under the premise of minimizing chemical reagents and employed the microwave-extraction method to extract the dyes from C. camphora fruit peel. The dye extraction conditions were optimized using response surface software via the Box- Behnken model to formulate a response surface test protocol. The results showed that optimizing the experimental conditions by the response surface method was reliable. The optimal extraction condition was found to be material-liquid ratio 1:20 (g: mL), microwave time 90 s, and microwave power 420 W. It is of practical application value to improve the extraction quantity of C. camphora fruit dye. At the same time, the infrared spectrum and HPLC-MS analysis of Cinnamomum camphora fruit dye were analyzed, and the stability of the dye was tested. [ABSTRACT FROM AUTHOR]

Published
2023
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40. A new role of Yb3+—an energy reservoir for lanthanide upconversion luminescence

Author

Jing Ren, Jianzhong Zhang, Hanyang Li, Lu Liu, Yanzeng Li, Li Xu, Yu Liu, Isam Ud Din, Ziwen Zhou, Joan J. Carvajal, Fahim Khan, and Xianhao Sun

Subjects
Lanthanide, Materials science, Activator (phosphor), General Materials Science, Dissipation, Luminescence, Photochemistry, Absorption (electromagnetic radiation), Energy harvesting, Photon upconversion, Ion
Abstract

Thus far, Yb3+ has usually served as a sensitizer to improve energy harvesting in lanthanide ion based luminescent materials. Herein, besides the well accepted character as a sensitizer, we revealed a new role of Yb3+, namely an energy reservoir, to improve the upconversion efficiency of several lanthanide activators. The energy cycling between lanthanide activator A3+ and energy reservoir Yb3+ is mainly responsible for the improvement. This energy cycling can facilitate energy utilization by A3+ for the generated upconversion luminescence. Specifically, this energy cycling not only alleviates the dissipation of energy produced at the intermediate level, needed to promote electrons to a higher energy level, but also provides an additional excited-state absorption route for A3+. The benefits of the proposed Yb3+ energy reservoir as well as the energy cycling mechanisms were verified using three representative activators, Nd3+, Tm3+, and Er3+. This study can open new possible avenues to exploit Yb3+ and enrich the available upconversion luminescence pathways of lanthanide ions.

Published
2021

41. Zebrafish phd3 Negatively Regulates Antiviral Responses via Suppression of Irf7 Transactivity Independent of Its Prolyl Hydroxylase Activity

Author

Jing Wang, Sijia Fan, Xiong Li, Wuhan Xiao, Jinhua Tang, Ziwen Zhou, Gang Ouyang, Xing Liu, and Guangqing Yu

Subjects
biology, Chemistry, Immunology, Signal transducing adaptor protein, biology.organism_classification, NFKB1, Cell biology, Hydroxylation, chemistry.chemical_compound, Ubiquitin, Hypoxia-inducible factors, biology.protein, Immunology and Allergy, IRF7, Zebrafish, Caenorhabditis elegans
Abstract

Prolyl hydroxylase domain (PHD)–containing enzyme 3 belongs to the Caenorhabditis elegans gene egl-9 family of prolyl hydroxylases, which has initially been revealed to hydroxylate hypoxia-inducible factor α (HIF-α) and mediate HIF-α degradation. In addition to modulating its target function by hydroxylation, PHD3 has been also shown to influence its binding partners’ function independent of its prolyl hydroxylase activity. In this study, we report that overexpression of zebrafish phd3 suppresses cellular antiviral response. Moreover, disruption of phd3 in zebrafish increases the survival rate upon spring viremia of carp virus exposure. Further assays indicate that phd3 interacts with irf7 through the C-terminal IRF association domain of irf7 and diminishes K63-linked ubiquitination of irf7. However, the enzymatic activity of phd3 is not required for phd3 to inhibit irf7 transactivity. This study provides novel insights into phd3 function and sheds new light on the regulation of irf7 in retinoic acid–inducible gene I–like receptor signaling.

Published
2020

42. Zebrafish prmt3 negatively regulates antiviral responses

Author

Junji Zhu, Wuhan Xiao, Xing Liu, Gang Ouyang, Jing Wang, Qian Liao, Huangyuan Zha, Xiaolian Cai, and Ziwen Zhou

Subjects
0301 basic medicine, Protein-Arginine N-Methyltransferases, Methyltransferase, Arginine, Biology, Antiviral Agents, Methylation, Biochemistry, Histones, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Rhabdoviridae Infections, Genetics, Animals, Phosphorylation, Molecular Biology, Zebrafish, Cells, Cultured, Innate immune system, Zinc Fingers, Isoquinolines, biology.organism_classification, Immunity, Innate, Up-Regulation, Cell biology, 030104 developmental biology, Virus Diseases, Rhabdoviridae, IRF3, Protein Processing, Post-Translational, 030217 neurology & neurosurgery, Biotechnology
Abstract

Arginine methylation catalyzed by protein arginine methyltransferases (PRMT) is a common post-translational modification in histone and nonhistone proteins, which regulates many cellular functions. Protein arginine methyltransferase 3 (prmt3), a type I arginine methyltransferase, has been shown to carry out the formation of stable monomethylarginine as an intermediate before the establishment of asymmetric dimethylarginine. To date, however, the role of PRMT3 in antiviral innate immunity has not been elucidated. This study showed that zebrafish prmt3 was upregulated by virus infection and that the overexpression of prmt3 suppressed cellular antiviral response. The PRMT3 inhibitor, SGC707, enhanced antiviral capability. Consistently, prmt3-null zebrafish were more resistant to Spring Viremia of Carp Virus (SVCV) and Grass Carp Reovirus (GCRV) infection. Further assays showed that the overexpression of prmt3 diminished the phosphorylation of irf3 and prmt3 interacted with rig-i. In addition, both zinc-finger domain and catalytic domain of prmt3 were required for the suppressive function of prmt3 on IFN activation. Our findings suggested that zebrafish prmt3 negatively regulated the antiviral responses, implicating the vital role of prmt3-or even arginine methylation-in antiviral innate immunity.

Published
2020

43. SdiA, a Quorum Sensing Transcriptional Regulator, Enhanced the Drug Resistance of Cronobacter sakazakii and Suppressed its Motility, Adhesion and Biofilm Formation

Author

Chuansong Cheng, Xiaotong Yan, Binxiong Liu, Tao Jiang, Ziwen Zhou, Dongwei Zhang, Huayan Wang, Dengyuan Chen, Changcheng Li, and Ting Fanga

Abstract

Cronobacter sakazakii is a common foodborne pathogen, and the mortality rate of its infection is as high as 40-80%. Quorum sensing is a regulation system of bacterial density-dependent multigene expression and is an important regulatory mechanism involved in adhesion, biofilm formation and virulence. C. sakazakii contains a QS signal molecular receiver, which is the LuxR receptor homolog SdiA, but its regulatory mechanism in C. sakazakii QS has not been defined. Here, we further determined the effect of SdiA on the QS system of C. sakazakii. The SdiA gene in C. sakazakii was knocked out by gene editing technology, and the biological characteristics of the ΔsdiA gene deletion strain of C. sakazakii were studied, followed by transcriptome analysis to elucidate its effects. The results suggested that SdiA enhanced the drug resistance of C. sakazakii but diminished its motility, adhesion and biofilm formation ability and had no effect on its growth. Transcriptome analysis showed that the deletion of the SdiA gene upregulated the expression levels of D-galactose operon genes (including dgoR, dgoK, dgoA, dgoD and dgoT) and flagella-related genes (FliA and FliC) in C. sakazakii and downregulated the expression levels of related genes in the type VI secretion system (VasK gene was downregulated by 1.53-fold) and ABC transport system (downregulated by 1.5-fold), indicating that SdiA was related to the physiological metabolism of C. sakazakii. The results of this study may be useful for clarifying the pathogenic mechanism of C. sakazakii and provide a theoretical basis for controlling bacterial infection.IMPORTANCECronobacter sakazakii, as an emerging opportunistic foodborne pathogen, was associated with sepsis, meningitis and necrotizing enterocolitis in neonates and infants, with a mortality rate of 40-80%. Quorum sensing plays an important regulatory role in the pathogenicity of C. sakazakii. Nevertheless, the regulatory mechanism of QS in C. sakazakii remains unknown. Here, we studied the QS transcriptional regulator SdiA of C. sakazakii. We revealed the regulatory mechanisms of SdiA in C. sakazakii cell adhesion, motility, biofilm formation and drug resistance. It was helpful to further explore the function of the SdiA gene, revealing the pathogenic mechanism of C. sakazakii. It will also provide a new target for therapeutic interventions targeting the pathogenicity of C. sakazakii and developing quorum-sensing inhibitors.

Published
2022

44. First Real-Time 2.46Tb/s Ultra-Dense WSDM PON Demonstration with Optical Injection Locking Enabled Self-Homodyne Coherent Detection

Author

Weihao Li, Mingming Zhang, Xueyuan Ao, Junda Chen, Yizhao Chen, Haoze Du, Yifan Zeng, Can Zhao, Jiajun Zhou, Tianhao Tong, Ziwen Zhou, Qi Yang, and Ming Tang

Abstract

Using optical injection locking enabled self-homodyne coherent detection, we demonstrated the first 2.46Tb/s real-time cost-efficient ultra-dense WSDM PON with filterless ONU, which can tolerate up to ~10MHz transmitter laser linewidth and 1024MHz frequency offset.

Published
2022

49. Mechanisms of Upconversion Luminescence of Er3+-Doped NaYF4 via 980 and 1530 nm Excitation

Author

Lu Liu, Jing Ren, Jianzhong Zhang, Shaojian Zhang, Yu Liu, Enming Zhao, and Ziwen Zhou

Subjects
Lanthanide, upconversion, mechanisms, Materials science, business.industry, General Chemical Engineering, Upconversion luminescence, 980 and 1530 nm excitation, Doping, Rate equation, NaYF4, Photon upconversion, Wavelength, Chemistry, Optoelectronics, General Materials Science, Er3+, business, QD1-999, Excitation
Abstract

To date, the mechanisms of Er3+ upconversion luminescence via 980 and 1530 nm excitation have been extensively investigated, however, based on discussions, they either suffer from the lack of convincing evidence or require elaborated and time-consuming numerical simulations. In this work, the steady-state and time-resolved upconversion luminescence data of Er3+-doped NaYF4 were measured, we therefore investigated the upconversion mechanisms of Er3+ on the basis of the spectroscopic observations and the simplified rate equation modeling. This work provides a relatively simple strategy to reveal the UCL mechanisms of Er3+ upon excitation with various wavelengths, which may also be used in other lanthanide ion-doped systems.

Published
2021
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50. K-solubilizing bacteria (Bacillus) promote theanine synthesis in tea roots (Camellia sinensis) by activating CsTSI activity

Author

Ziwen Zhou, Na Chang, Yaning Lv, Hong Jiang, Cheng Yao, Xiaochun Wan, Yeyun Li, and Xianchen Zhang

Subjects
Plant Leaves, Bacteria, Glutamates, Tea, Physiology, fungi, Potassium, food and beverages, Bacillus, Plant Science, Camellia sinensis
Abstract

Theanine is an important quality parameter referring to tea quality. Applying nitrogen fertilizers is one strategy to improve the level of theanine; however, the effect of plant growth-promoting rhizobacteria on theanine synthesis in tea roots has been less studied. In this study, the bacteria isolated from Qimen County with the maximum potassium (K) solubilization were identified as Bacillus by biochemical and molecular analyses. We show that tartaric and pyruvic acids produced by Bacillus were important components related to K solubilization in vitro. Pot experiments and enzymatic assays in vitro showed that inoculation with Bacillus-secreted organic acids increased the level of available potassium in the soil. The increased K level activated recombinant CsTSI activity (theanine biosynthesis enzyme) and increased ethylamine content (the synthesis precursor of theanine), resulting in promoted theanine synthesis in tea roots. Therefore, our study indicates that Bacillus can be a potential bioinoculant for biofortification of tea.

Published
2021

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