Your search keyword '"Shan Zha"' showing total 580 results

201. PAXX promotes KU accumulation at DNA breaks and is essential for end-joining in XLF-deficient mice

Author

Brian J. Lee, Wenxia Jiang, Zhengping Shao, Xiangyu Liu, and Shan Zha

Subjects

0301 basic medicine, Genome instability, Male, DNA End-Joining Repair, DNA repair, DNA damage, Structural similarity, Science, Primary Cell Culture, General Physics and Astronomy, LIG4, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, chemistry.chemical_compound, DNA Ligase ATP, Mice, Animals, DNA Breaks, Double-Stranded, Kinase activity, Ku Autoantigen, Cells, Cultured, Genetics, Mice, Knockout, Multidisciplinary, fungi, General Chemistry, Fibroblasts, Embryonic stem cell, 3. Good health, Cell biology, DNA-Binding Proteins, enzymes and coenzymes (carbohydrates), 030104 developmental biology, chemistry, Female, DNA

Abstract

Non-homologous end-joining (NHEJ) is the most prominent DNA double strand break (DSB) repair pathway in mammalian cells. PAXX is the newest NHEJ factor, which shares structural similarity with known NHEJ factors—XRCC4 and XLF. Here we report that PAXX is dispensable for physiological NHEJ in otherwise wild-type mice. Yet Paxx−/− mice require XLF and Xlf−/− mice require PAXX for end-ligation. As such, Xlf−/−Paxx−/− mice display severe genomic instability and neuronal apoptosis, which eventually lead to embryonic lethality. Despite their structural similarities, only Xlf−/− cells, but not Paxx−/− cells require ATM/DNA-PK kinase activity for end-ligation. Mechanistically, PAXX promotes the accumulation of KU at DSBs, while XLF enhances LIG4 recruitment without affecting KU dynamics at DNA breaks in vivo. Together these findings identify the molecular functions of PAXX in KU accumulation at DNA ends and reveal distinct, yet critically complementary functions of PAXX and XLF during NHEJ., Non-homologous end-joining is the key pathway for repairing double-stranded DNA breaks in mammalian cells. Here the authors show that PAXX promotes the accumulation of KU at DNA breaks and is essential for end-joining in cells lacking XLF.

Published

2017

202. Enhancing Multi-Spectral Fingerprint Sensing for Trace Explosive Molecules with All-Silicon Metasurfaces

Author

Jie Lin, Ying Xue, Weijin Wang, Mingjun Sun, Shengnan Shi, Shan Zhang, and Yanpeng Shi

Subjects

fingerprint sensing, terahertz, mid-infrared, angle-scanning strategy, Chemistry, QD1-999

Abstract

Spectroscopy is a powerful tool to identify the specific fingerprints of analytes in a label-free way. However, conventional sensing methods face unavoidable barriers in analyzing trace-amount target molecules due to the difficulties of enhancing the broadband molecular absorption. Here, we propose a sensing scheme to achieve strong fingerprint absorption based on the angular-scanning strategy on an all-silicon metasurface. By integrating the mid-infrared and terahertz sensing units into a single metasurface, the sensor can efficiently identify 2,4-DNT with high sensitivity. The results reveal that the fingerprint peak in the enhanced fingerprint spectrum is formed by the linked envelope. It exhibits a significant enhancement factor exceeding 64-fold in the terahertz region and more than 55-fold in the mid-infrared region. Particularly, the corresponding identification limit of 2,4-DNT is 1.32 µg cm−2, respectively. Our study will provide a novel research idea in identifying trace-amount explosives and advance practical applications of absorption spectroscopy enhancement identification in civil and military security industries.

Published

2024

203. Molecular Correlates of Diapause in Aphidoletes aphidimyza

Author

Xiaoyan Dai, Yu Wang, Yan Liu, Ruijuan Wang, Long Su, Zhenjuan Yin, Shan Zhao, Hao Chen, Li Zheng, Xiaolin Dong, and Yifan Zhai

Subjects

Aphidoletes aphidimyza, diapause induction, sensitive stage, transcriptome, carbohydrate metabolism, Science

Abstract

The aphidophagous gall midge, Aphidoletes aphidimyza (Rondani) (Diptera: Cecidomyiidae), a dominant natural enemy of aphids, has been used as a biological control agent in many countries to control aphids in greenhouses. To identify key factors that induce diapause in A. aphidimyza, we evaluated the effects of photoperiod and temperature on the incidence of diapause in A. aphidimyza under laboratory conditions. The results showed that temperature and photoperiod had significant impacts on development and diapause in A. aphidimyza. Low temperatures and a short photoperiod inhibited development, while high temperatures and a long photoperiod promoted development. Temperatures above 20 °C and a photoperiod greater than 14 h prevented diapause in A. aphidimyza. However, the highest diapause rate was recorded at under 15 °C and 10L:14D photoperiod conditions. At 15 °C, the first to third larvae were sensitive to a short photoperiod at any stage, and a short photoperiod had a cumulative effect on diapause induction. The longer the larvae received short light exposure, the higher the diapause rate appeared to be. Transcriptome sequencing analysis at different stages of diapause showed that differentially expressed genes were mainly enriched in the glucose metabolism pathway. Physiological and biochemical analyses showed that diapausing A. aphidimyza reduced water content; accumulated glycogen, trehalose, sorbitol, and triglycerides; and gradually reduced trehalose and triglyceride contents in the body with the extension of diapause time. Glycogen may be used as a source of energy, but sorbitol is usually used as a cryoprotectant. This study provided results on aspects of diapause in A. aphidimyza, providing data and theoretical support for promoting its commercial breeding and in-depth research on the molecular mechanisms underlying diapause regulation.

Published

2024

204. YOLOv7-TS: A Traffic Sign Detection Model Based on Sub-Pixel Convolution and Feature Fusion

Author

Shan Zhao, Yang Yuan, Xuan Wu, Yunlei Wang, and Fukai Zhang

Subjects

object detection, traffic sign detection, YOLOv7, sub-pixel convolution, feature fusion, Chemical technology, TP1-1185

Abstract

In recent years, significant progress has been witnessed in the field of deep learning-based object detection. As a subtask in the field of object detection, traffic sign detection has great potential for development. However, the existing object detection methods for traffic sign detection in real-world scenes are plagued by issues such as the omission of small objects and low detection accuracies. To address these issues, a traffic sign detection model named YOLOv7-Traffic Sign (YOLOv7-TS) is proposed based on sub-pixel convolution and feature fusion. Firstly, the up-sampling capability of the sub-pixel convolution integrating channel dimension is harnessed and a Feature Map Extraction Module (FMEM) is devised to mitigate the channel information loss. Furthermore, a Multi-feature Interactive Fusion Network (MIFNet) is constructed to facilitate enhanced information interaction among all feature layers, improving the feature fusion effectiveness and strengthening the perception ability of small objects. Moreover, a Deep Feature Enhancement Module (DFEM) is established to accelerate the pooling process while enriching the highest-layer feature. YOLOv7-TS is evaluated on two traffic sign datasets, namely CCTSDB2021 and TT100K. Compared with YOLOv7, YOLOv7-TS, with a smaller number of parameters, achieves a significant enhancement of 3.63% and 2.68% in the mean Average Precision (mAP) for each respective dataset, proving the effectiveness of the proposed model.

Published

2024

205. Effect of Guanylate Cyclase-22-like on Ovarian Development of Orius nagaii (Hemiptera: Anthocoridae)

Author

Huiling Du, Ruijuan Wang, Xiaoyan Dai, Zhenjuan Yin, Yan Liu, Long Su, Hao Chen, Shan Zhao, Li Zheng, Xiaolin Dong, and Yifan Zhai

Subjects

Orius nagaii, receptor-type guanylate cyclase-22-like (GCY-22), vitellogenin (Vg), RNA interference, reproduction, Science

Abstract

This study identified and characterized the gene encoding recep tor-type guanylate cyclase-22-like (GCY-22; OnGCY) from the pirate bug Orius nagaii, an important biological control agent. The full-length cDNA of the GCY of O. nagaii was obtained by rapid amplification of cDNA ends (RACE); it had a total length of 4888 base pairs (bp), of which the open reading frame (ORF) was 3750 bp, encoding a polypeptide of 1249 amino acid residues. The physicochemical properties of OnGCY were predicted and analyzed by using relevant ExPASy software, revealing a molecular formula of C6502H10122N1698O1869S57, molecular weight of ~143,811.57 kDa, isoelectric point of 6.55, and fat index of 90.04. The resulting protein was also shown to have a signal peptide, two transmembrane regions, and a conserved tyrosine kinase (tyrkc). Silencing OnGCY by RNA interference significantly inhibited ovarian development and decreased fertility in female O. nagaii in the treated versus the control group. Additionally, OnGCY silencing significantly decreased the expression levels of other GCY and Vg genes. Thus, these results clarify the structure and biological function of OnGCY, which has an important role in insect fecundity. The results also provide a reference for agricultural pest control and future large-scale breeding of biological control agents.

Published

2024

206. SPC25 Functions as a Prognostic-Related Biomarker, and Its High Expression Correlates with Tumor Immune Infiltration and UCEC Progression

Author

Li-xin Liao, Meng Zhang, Xin Xu, Shan Zhang, and Yu-zhen Guo

Subjects

spc25, ucec, prognosis, coexpression, methylation, immune, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

Background: Most tumor tissues expressed spindle pole body component 25 (SPC25), one of the four subunits of the NDC80 complex, at greater levels compared to surrounding normal tissues. According to earlier researches, this subunit strongly encouraged tumor cell proliferation and tumor growth, which resulted in worse prognoses in patients with hepatocellular, breast, lung, and prostate cancer. Precisely because SPC25’s role in uterine corpus endometrial carcinoma (UCEC) is understudied, we chose to concentrate on UCEC for gaining a more scientific and thorough understanding of SPC25. Methods: Along with examining SPC25’s differential expression, prognostic significance, and biological function in UCEC, our research sought to clarify the underlying mechanism by which SPC25 influences the course of UCEC and patient prognosis from the viewpoints of methylation and immune infiltration. Results: We observed differential expression of SPC25 gene in different clinicopathological features of UCEC and identified SPC25 as a hazard factor for poorer overall survival (OS), disease-specific survival (DSS), and progress free interval (PFI) in UCEC, particularly in its multiple clinical subtypes. In addition, we also discovered that SPC25 and its co-expressed genes mostly engaged in biological processes and signal transduction routes linked to cell cycle and cell division in UCEC. After investigating SPC25’s methylation status, we discovered that patients with UCEC had elevated SPC25 expression and a poor prognosis due to hypomethylation of CpG sites in the SPC25 gene sequence. Finally, we investigated SPC25’s potential role in immunotherapy and discovered that SPC25 might alter the major immune cell infiltration levels in the tumor microenvironment (TME) by regulating the expression of immunoregulatory molecules and chemokines, which would be beneficial for SPC25 to control the progression of UCEC. Conclusions: In conclusion, SPC25 was a useful predictive biomarker as well as a possible therapeutic target for UCEC.

Published

2024

207. Functional redundancy between the XLF and DNA-PKcs DNA repair factors in V(D)J recombination and nonhomologous DNA end joining

Author

Frederick W. Alt, Chunguang Guo, Valentyn Oksenych, Shan Zha, Xiangyu Liu, Vipul Kumar, and Bjoern Schwer

Subjects

DNA End-Joining Repair, Ku80, DNA repair, DNA-Activated Protein Kinase, LIG4, Biology, Genomic Instability, Recombination-activating gene, Cell Line, Mice, Genetics, Animals, Recombination signal sequences, DNA-PKcs, Mice, Knockout, Multidisciplinary, Precursor Cells, B-Lymphoid, fungi, V(D)J recombination, Nuclear Proteins, Biological Sciences, Immunoglobulin Class Switching, V(D)J Recombination, DNA-Binding Proteins, Non-homologous end joining, enzymes and coenzymes (carbohydrates), Oncology, FOS: Biological sciences, Medicine

Abstract

Classical nonhomologous end joining (C-NHEJ) is a major mammalian DNA double-strand break (DSB) repair pathway that is required for assembly of antigen receptor variable region gene segments by V(D)J recombination. Recombination activating gene endonuclease initiates V(D)J recombination by generating DSBs between two V(D)J coding gene segments and flanking recombination signal sequences (RS), with the two coding ends and two RS ends joined by C-NHEJ to form coding joins and signal joins, respectively. During C-NHEJ, recombination activating gene factor generates two coding ends as covalently sealed hairpins and RS ends as blunt 5′-phosphorylated DSBs. Opening and processing of coding end hairpins before joining by C-NHEJ requires the DNA-dependent protein kinase catalytic subunit (DNA-PKcs). However, C-NHEJ of RS ends, which do not require processing, occurs relatively normally in the absence of DNA-PKcs. The XRCC4-like factor (XLF) is a C-NHEJ component that is not required for C-NHEJ of chromosomal signal joins or coding joins because of functional redundancy with ataxia telangiectasia mutated kinase, a protein that also has some functional overlap with DNA-PKcs in this process. Here, we show that XLF has dramatic functional redundancy with DNA-PKcs in the V(D)J SJ joining process, which is nearly abrogated in their combined absence. Moreover, we show that XLF functionally overlaps with DNA-PKcs in normal mouse development, promotion of genomic stability in mouse fibroblasts, and in IgH class switch recombination in mature B cells. Our findings suggest that DNA-PKcs has fundamental roles in C-NHEJ processes beyond end processing that have been masked by functional overlaps with XLF.

Published

2013

208. Author response: Kinase-dead ATM protein is highly oncogenic and can be preferentially targeted by Topo-isomerase I inhibitors

Author

Jiguang Wang, Brian J. Lee, Chen Li, Wenxia Jiang, Christopher J. Haddock, Jun Xu, Alessandro Vindigni, Denis G Loredan, Dong Wang, Kenta Yamamoto, Lisa Sprinzen, Raul Rabadan, and Shan Zha

Subjects

Kinase, Chemistry, ATM Protein, Isomerase, Cell biology

Published

2016

209. 3. T-cell development

Author

Jennifer L. Crowe and Shan Zha

Subjects

medicine.anatomical_structure, business.industry, T cell, Cancer research, Medicine, business

Published

2016

210. Kinase-dead ATM protein causes genomic instability and early embryonic lethality in mice

Author

Wenxia Jiang, Thomas Ludwig, Christopher J. Bakkenist, Kenta Yamamoto, Shan Zha, Richard L. Dubois, Xiangyu Liu, Chyuan Sheng Lin, and Yunyue Wang

Subjects

Genome instability, Cell cycle checkpoint, DNA Repair, Cell Cycle Proteins, Ataxia Telangiectasia Mutated Proteins, medicine.disease_cause, Mice, 0302 clinical medicine, Lymphocytes, Promoter Regions, Genetic, Research Articles, 0303 health sciences, Mutation, musculoskeletal, neural, and ocular physiology, Homozygote, Gene Expression Regulation, Developmental, Exons, 3. Good health, DNA-Binding Proteins, Non-homologous end joining, 030220 oncology & carcinogenesis, Female, DNA repair, DNA damage, Molecular Sequence Data, Reviews, Mice, Transgenic, macromolecular substances, Protein Serine-Threonine Kinases, Biology, Catalysis, Gene Expression Regulation, Enzymologic, 03 medical and health sciences, Report, medicine, Animals, Humans, Alleles, 030304 developmental biology, Base Sequence, Models, Genetic, Tumor Suppressor Proteins, Comment, Cell Biology, medicine.disease, Molecular biology, nervous system, Ataxia-telangiectasia, DNA Damage

Abstract

Expression of a kinase-deficient ATM protein leads to severe genomic instability and embryonic lethality., Ataxia telangiectasia (A-T) mutated (ATM) kinase orchestrates deoxyribonucleic acid (DNA) damage responses by phosphorylating numerous substrates implicated in DNA repair and cell cycle checkpoint activation. A-T patients and mouse models that express no ATM protein undergo normal embryonic development but exhibit pleiotropic DNA repair defects. In this paper, we report that mice carrying homozygous kinase-dead mutations in Atm (AtmKD/KD) died during early embryonic development. AtmKD/− cells exhibited proliferation defects and genomic instability, especially chromatid breaks, at levels higher than Atm−/− cells. Despite this increased genomic instability, AtmKD/− lymphocytes progressed through variable, diversity, and joining recombination and immunoglobulin class switch recombination, two events requiring nonhomologous end joining, at levels comparable to Atm−/− lymphocytes. Together, these results reveal an essential function of ATM during embryogenesis and an important function of catalytically inactive ATM protein in DNA repair.

Published

2012

211. Robust chromosomal DNA repair via alternative end-joining in the absence of X-ray repair cross-complementing protein 1 (XRCC1)

Author

Michel C. Nussenzweig, Hua Chai, Valentyn Oksenych, Jing Wang, Cheng-Sheng Lee, Yu Zhang, Peter J. McKinnon, Mila Jankovic, Bjoern Schwer, Shan Zha, Liz-Marie Albertorio Saez, Frederick W. Alt, Cristian Boboila, and Monica Gostissa

Subjects

chemistry.chemical_classification, B-Lymphocytes, DNA ligase, Multidisciplinary, DNA Repair, fungi, LIG3, Biological Sciences, LIG4, DNA repair protein XRCC4, Biology, LIG1, Molecular biology, Translocation, Genetic, DNA-Binding Proteins, Mice, XRCC1, chemistry.chemical_compound, X-ray Repair Cross Complementing Protein 1, chemistry, Extrachromosomal DNA, Animals, Cell Lineage, DNA

Abstract

Classical nonhomologous DNA end-joining (C-NHEJ), which is a major DNA double-strand break (DSB) repair pathway in mammalian cells, plays a dominant role in joining DSBs during Ig heavy chain (IgH) class switch recombination (CSR) in activated B lymphocytes. However, in B cells deficient for one or more requisite C-NHEJ factors, such as DNA ligase 4 (Lig4) or XRCC4, end-joining during CSR occurs by a distinct alternative end-joining (A-EJ) pathway. A-EJ also has been implicated in joining DSBs found in oncogenic chromosomal translocations. DNA ligase 3 (Lig3) and its cofactor XRCC1 are widely considered to be requisite A-EJ factors, based on biochemical studies or extrachromosomal substrate end-joining studies. However, potential roles for these factors in A-EJ of endogenous chromosomal DSBs have not been tested. Here, we report that Xrcc1 inactivation via conditional gene-targeted deletion in WT or XRCC4-deficient primary B cells does not have an impact on either CSR or IgH/c-myc translocations in activated B lymphocytes. Indeed, homozygous deletion of Xrcc1 does not impair A-EJ of I-SceI–induced DSBs in XRCC4-deficient pro–B-cell lines. Correspondingly, substantial depletion of Lig3 in Lig4-deficient primary B cells or B-cell lines does not impair A-EJ of CSR-mediated DSBs or formation of IgH/c-myc translocations. Our findings firmly demonstrate that XRCC1 is not a requisite factor for A-EJ of chromosomal DSBs and raise the possibility that DNA ligase 1 (Lig1) may contribute more to A-EJ than previously considered.

Published

2012

212. ATM damage response and XLF repair factor are functionally redundant in joining DNA breaks

Author

Duane R. Wesemann, Richard L. Dubois, Valentyn Oksenych, Yu Zhang, Hwei-Ling Cheng, Harin Patel, Cristian Boboila, Chunguang Guo, Peter H. Goff, Frederick W. Alt, Grace J. Yuen, and Shan Zha

Subjects

DNA Repair, DNA repair, Cell Cycle Proteins, Ataxia Telangiectasia Mutated Proteins, Protein Serine-Threonine Kinases, LIG4, DNA-binding protein, Article, Histones, Mice, 03 medical and health sciences, 0302 clinical medicine, Animals, DNA Breaks, Double-Stranded, Gene Rearrangement, B-Lymphocyte, Cell Line, Transformed, 030304 developmental biology, Recombination, Genetic, 0303 health sciences, Multidisciplinary, biology, Precursor Cells, B-Lymphoid, Tumor Suppressor Proteins, DNA repair protein XRCC4, Embryo, Mammalian, Chromosomes, Mammalian, Molecular biology, Chromatin, DNA-Binding Proteins, Non-homologous end joining, enzymes and coenzymes (carbohydrates), Histone, Immunoglobulin class switching, 030220 oncology & carcinogenesis, biology.protein

Abstract

The loss of a classical non-homologous end-joining (NHEJ) repair factor, XLF, shows strong effects in non-lymphoid cells, but in lymphoid cells its absence surprisingly has only modest effects on V(D)J recombination. Frederick Alt and colleagues show that in lymphoid cells, two other repair factors — ATM kinase and histone protein H2AX — have functional redundancy with XLF. Thus, mice that are deficient in both ATM and XLF have compromised conventional NHEJ, although alternative end-joining is retained. The results hint that the redundant function in end-joining that XLF has with both ATM and H2AX may be related to a role for ATM in chromatin accessibility. Although loss of XLF, a classical non-homologous DNA end-joining (NHEJ) repair factor, shows strong effects in non-lymphoid cells, in lymphoid cells its absence has only modest effects on V(D)J recombination. This study now shows that in lymphoid cells, two other repair factors — ATM kinase and histone protein H2AX — have functional redundancy with XLF. Thus, mice deficient in both ATM and XLF have compromised conventional NHEJ, although alternative end-joining is retained. The results hint that the redundant function in end-joining that XLF has with both ATM and H2AX may have to do with an ATM role in chromatin accessibility. Classical non-homologous DNA end-joining (NHEJ) is a major mammalian DNA double-strand-break (DSB) repair pathway. Deficiencies for classical NHEJ factors, such as XRCC4, abrogate lymphocyte development, owing to a strict requirement for classical NHEJ to join V(D)J recombination DSB intermediates1,2. The XRCC4-like factor (XLF; also called NHEJ1) is mutated in certain immunodeficient human patients and has been implicated in classical NHEJ3,4,5,6; however, XLF-deficient mice have relatively normal lymphocyte development and their lymphocytes support normal V(D)J recombination5. The ataxia telangiectasia-mutated protein (ATM) detects DSBs and activates DSB responses by phosphorylating substrates including histone H2AX7. However, ATM deficiency causes only modest V(D)J recombination and lymphocyte developmental defects, and H2AX deficiency does not have a measurable impact on these processes7,8,9. Here we show that XLF, ATM and H2AX all have fundamental roles in processing and joining DNA ends during V(D)J recombination, but that these roles have been masked by unanticipated functional redundancies. Thus, combined deficiency of ATM and XLF nearly blocks mouse lymphocyte development due to an inability to process and join chromosomal V(D)J recombination DSB intermediates. Combined XLF and ATM deficiency also severely impairs classical NHEJ, but not alternative end-joining, during IgH class switch recombination. Redundant ATM and XLF functions in classical NHEJ are mediated by ATM kinase activity and are not required for extra-chromosomal V(D)J recombination, indicating a role for chromatin-associated ATM substrates. Correspondingly, conditional H2AX inactivation in XLF-deficient pro-B lines leads to V(D)J recombination defects associated with marked degradation of unjoined V(D)J ends, revealing that H2AX has a role in this process.

Published

2010

213. Dark current modeling of thick perovskite X-ray detectors

Author

Shan Zhao, Xinyuan Du, Jincong Pang, Haodi Wu, Zihao Song, Zhiping Zheng, Ling Xu, Jiang Tang, and Guangda Niu

Subjects

Perovskite, X-ray detection, Dark current, Semiconductor simulation, Junction device, Applied optics. Photonics, TA1501-1820

Abstract

Abstract Metal halide perovskites (MHPs) have demonstrated excellent performances in detection of X-rays and gamma-rays. Most studies focus on improving the sensitivity of single-pixel MHP detectors. However, little work pays attention to the dark current, which is crucial for the back-end circuit integration. Herein, the requirement of dark current is quantitatively evaluated as low as 10−9 A/cm2 for X-ray imagers integrated on pixel circuits. Moreover, through the semiconductor device analysis and simulation, we reveal that the main current compositions of thick perovskite X-ray detectors are the thermionic-emission current (J T) and the generation-recombination current (J g-r). The typical observed failures of p–n junctions in thick detectors are caused by the high generation-recombination current due to the band mismatch and interface defects. This work provides a deep insight into the design of high sensitivity and low dark current perovskite X-ray detectors. Graphical Abstract

Published

2022

214. A centenary tale: population genetic insights into the introduction history of the oriental fire-bellied toad (Bombina orientalis) in Beijing

Author

Shan Zhang, Meixi Lin, Jiawei Liu, Jiangce Chen, Dong Liu, Jindong Zhao, and Meng Yao

Subjects

Amphibian, Founder effect, Founder size, Genetic bottleneck, Introduction success, Propagule pressure, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Background The successful establishment of a species population following a single introduction of a few individuals to a non-native area has been limited. Nevertheless, the oriental fire-bellied toad (Bombina orientalis) population in Beijing is purportedly descended from a single introduction of about 200 individuals translocated from Yantai, Shandong Province, China, in 1927. Results To resolve the introduction process and to understand the genetic consequences since that introduction approximately 90 years ago, we investigated the population’s genetic diversity and structure using 261 toads from Beijing and two native Shandong populations and inferred the species’ introduction history using simulation-based approaches. Analysis of mitochondrial DNA (mtDNA) sequences showed the two haplotypes found in Beijing nested within Yantai haplotypes, thus corroborating the historical record of the translocation source. The mtDNA and 11 nuclear microsatellite markers revealed both considerably lower genetic diversity in Beijing than in the source population and strong genetic differentiation between them. Although the current census population in Beijing may be in the range of a few thousand, the effective population size was estimated at only 20–57. Simulations also suggest that this population may have descended from 40–60 founders. Conclusions The Beijing population’s genetic patterns were consistent with the consequences of a severe bottleneck during introduction followed by genetic drift. The introduction trajectory constructed for this B. orientalis population reveals the genetic footprints of a small population sustained in isolation for nearly a century. Our results provide an intriguing example of establishment success from limited founders and may inform ex situ conservation efforts as well as the management of biological invasions.

Published

2022

215. A hybrid spectral clustering simulated annealing algorithm for the street patrol districting problem

Author

Yirui Jiang, Shan Zhao, Hongwei Li, Yulu Qin, and Xiaoyue Yang

Subjects

Street patrol, The districting problem, Road network, Spectral clustering algorithm, Simulated annealing algorithm, Electronic computers. Computer science, QA75.5-76.95, Information technology, T58.5-58.64

Abstract

Abstract Reasonable districting plays an important role in the patrolling process. In this paper, workload attributes are considered, and a mixed integer programming model is developed to solve the street patrol districting problem (SPDP). The improved spectral clustering algorithm named spectral clustering algorithm based on the road network (SCRn) and simulated annealing algorithm (SA) are combined. This results in a hybrid algorithm called SCRn-SA. The SCRn-SA algorithm is tested on small examples and real instances in Zhengzhou, China. The experimental results show that the proposed algorithm is effective for solving SPDP. It has better performance when compared to other advanced algorithms.

Published

2022

216. Supplementing the early diet of broilers with soy protein concentrate can improve intestinal development and enhance short-chain fatty acid-producing microbes and short-chain fatty acids, especially butyric acid

Author

Qianyun Zhang, Shan Zhang, Shu Wu, Marianne Hjøllund Madsen, and Shourong Shi

Subjects

Broiler, Caecal microbiota, Intestinal development, Short-chain fatty acids, Soy protein concentrate, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Research on nutrition in early-life commonly focuses on the maturation of the intestine because the intestinal system is crucial for ensuring continued growth. To explore the importance of early nutrition regulation in animals, soy protein concentrate (SPC) was added to the early diet of broilers to investigate its effects on amino acid digestibility, intestinal development, especially intestinal microorganisms, and broiler metabolites. A total of 192 one-day-old Arbor Acres (AA) male broilers were randomly assigned to two experimental treatments with 8 replicates of 12 birds. The control group was fed a basal diet (control), and the treatment group was fed a basal diet supplemented with 12% SPC (SPC12) during the first 10 d (starter phase). From d 11 to 21 (grower phase) and d 22 to 42 (finisher phase), a basal diet was fed to both treatment groups. Results SPC reduced the pH value and acid-binding capacity of the starter diet (P

Published

2022

217. MRI Is a DNA Damage Response Adaptor during Classical Non-homologous End Joining

Author

Shruthi Deivasigamani, Michael L. Gross, Gaya K. Amarasinghe, Shan Zha, John J.H. Petrini, Barry P. Sleckman, Nima Mosammaparast, Bo-Ruei Chen, Brian J. Lee, Putzer J Hung, David J. Pisapia, Jayanta Chaudhuri, Jessica K. Tyler, Tanya E. Johnson, Britney Johnson, Parmeshwar Amatya, Andrea K. Byrum, Andrea L. Bredemeyer, Issa Hindi, William T. Yewdell, and Tanya T. Paull

Subjects

0301 basic medicine, DNA End-Joining Repair, Ku80, DNA Repair, DNA damage, Cell Cycle Proteins, Biology, Article, DNA Ligase ATP, Mice, 03 medical and health sciences, Animals, Humans, DNA Breaks, Double-Stranded, Ku Autoantigen, Molecular Biology, chemistry.chemical_classification, DNA ligase, Ku70, 030102 biochemistry & molecular biology, Signal transducing adaptor protein, Cell Biology, DNA repair protein XRCC4, Chromatin, Cell biology, DNA-Binding Proteins, Non-homologous end joining, DNA Repair Enzymes, 030104 developmental biology, chemistry

Abstract

The modulator of retrovirus infection (MRI or CYREN) is a 30-kDa protein with a conserved N-terminal Ku-binding motif (KBM) and a C-terminal XLF-like motif (XLM). We show that MRI is intrinsically disordered and interacts with many DNA damage response (DDR) proteins, including the kinases ataxia telangiectasia mutated (ATM) and DNA-PKcs and the classical non-homologous end joining (cNHEJ) factors Ku70, Ku80, XRCC4, XLF, PAXX, and XRCC4. MRI forms large multimeric complexes that depend on its N and C termini and localizes to DNA double-strand breaks (DSBs), where it promotes the retention of DDR factors. Mice deficient in MRI and XLF exhibit embryonic lethality at a stage similar to those deficient in the core cNHEJ factors XRCC4 or DNA ligase IV. Moreover, MRI is required for cNHEJ-mediated DSB repair in XLF-deficient lymphocytes. We propose that MRI is an adaptor that, through multivalent interactions, increases the avidity of DDR factors to DSB-associated chromatin to promote cNHEJ.

Published

2018

218. ATM-deficient thymic lymphoma is associated with aberrant tcrd rearrangement and gene amplification

Author

Frederick W. Alt, James W. Brush, Craig H. Bassing, Richard A. Gatti, Harin Patel, A. Thomas Look, Michael M. Murphy, Shan Zha, Peter H. Goff, Takaomi Sanda, and Suprawee Tepsuporn

Subjects

Lymphoma, T cell, Immunology, Gene Rearrangement, delta-Chain T-Cell Antigen Receptor, Molecular Sequence Data, Chromosomal translocation, Locus (genetics), Cell Cycle Proteins, Ataxia Telangiectasia Mutated Proteins, Biology, Protein Serine-Threonine Kinases, Article, Translocation, Genetic, 03 medical and health sciences, Mice, 0302 clinical medicine, Gene duplication, medicine, Immunology and Allergy, Animals, Chromosome 12, 030304 developmental biology, Genetics, 0303 health sciences, Base Sequence, Tumor Suppressor Proteins, Gene Amplification, Chromosome, Receptors, Antigen, T-Cell, gamma-delta, Gene rearrangement, Thymus Neoplasms, Molecular biology, Chromosomes, Mammalian, 3. Good health, Clone Cells, DNA-Binding Proteins, medicine.anatomical_structure, Enhancer Elements, Genetic, Genetic Loci, Cytogenetic Analysis, 030215 immunology

Abstract

Ataxia telangiectasia mutated (ATM) deficiency predisposes humans and mice to T lineage lymphomas with recurrent chromosome 14 translocations involving the T cell receptor α/δ (Tcra/d) locus. Such translocations have been thought to result from aberrant repair of DNA double-strand breaks (DSBs) during Tcra locus V(D)J recombination, and to require the Tcra enhancer (Eα) for Tcra rearrangement or expression of the translocated oncogene. We now show that, in addition to the known chromosome 14 translocation, ATM-deficient mouse thymic lymphomas routinely contain a centromeric fragment of chromosome 14 that spans up to the 5′ boundary of the Tcra/d locus, at which position a 500-kb or larger region centromeric to Tcra/d is routinely amplified. In addition, they routinely contain a large deletion of the telomeric end of one copy of chromosome 12. In contrast to prior expectations, the recurrent translocations and amplifications involve V(D)J recombination–initiated breaks in the Tcrd locus, as opposed to the Tcra locus, and arise independently of the Eα. Overall, our studies reveal previously unexpected mechanisms that contribute to the oncogenic transformation of ATM-deficient T lineage cells.

Published

2010

219. Development of immunoglobulin λ-chain–positive B cells, but not editing of immunoglobulin κ-chain, depends on NF-κB signals

Author

J. Christoph Vahl, Geert van Loo, Marc Schmidt-Supprian, Emmanuel Derudder, Jing Wang, Casey J Fox, Shan Zha, Mark S. Schlissel, Klaus Rajewsky, Manolis Pasparakis, and Emily J. Cadera

Subjects

biology, Chemistry, Cellular differentiation, Immunology, I-Kappa-B Kinase, Receptor editing, Immunoglobulin lambda-Chains, Immunoglobulin kappa-Chains, Cell biology, medicine.anatomical_structure, medicine, biology.protein, Immunology and Allergy, Antibody, Transcription factor, B cell

Abstract

By genetically ablating IkappaB kinase (IKK)-mediated activation of the transcription factor NF-kappaB in the B cell lineage and by analyzing a mouse mutant in which immunoglobulin lambda-chain-positive B cells are generated in the absence of rearrangements in the locus encoding immunoglobulin kappa-chain, we define here two distinct, consecutive phases of early B cell development that differ in their dependence on IKK-mediated NF-kappaB signaling. During the first phase, in which NF-kappaB signaling is dispensable, predominantly kappa-chain-positive B cells are generated, which undergo efficient receptor editing. In the second phase, predominantly lambda-chain-positive B cells are generated whose development is ontogenetically timed to occur after rearrangements of the locus encoding kappa-chain. This second phase of development is dependent on NF-kappaB signals, which can be substituted by transgenic expression of the prosurvival factor Bcl-2.

Published

2009

220. Essential Role for DNA-PKcs in DNA Double-Strand Break Repair and Apoptosis in ATM-Deficient Lymphocytes

Author

Michela Di Virgilio, Simone Difilippantonio, Frederick W. Alt, Hua-Tang Chen, André Nussenzweig, Michel C. Nussenzweig, Gordon F. Heidkamp, Mila Jankovic, Nancy Wong, Elsa Callen, and Shan Zha

Subjects

Genome instability, DNA Repair, DNA repair, Molecular Sequence Data, Apoptosis, Cell Cycle Proteins, Ataxia Telangiectasia Mutated Proteins, DNA-Activated Protein Kinase, Thymus Gland, Protein Serine-Threonine Kinases, Tripartite Motif-Containing Protein 28, Biology, Genomic Instability, Article, Mice, chemistry.chemical_compound, Animals, DNA Breaks, Double-Stranded, Lymphocytes, Fragmentation (cell biology), Molecular Biology, Cells, Cultured, DNA-PKcs, Mice, Knockout, Base Sequence, Tumor Suppressor Proteins, Nuclear Proteins, Cell Biology, Fibroblasts, DNA repair protein XRCC4, Immunoglobulin Class Switching, Molecular biology, Double Strand Break Repair, DNA-Binding Proteins, Repressor Proteins, enzymes and coenzymes (carbohydrates), chemistry, Tumor Suppressor Protein p53, biological phenomena, cell phenomena, and immunity, DNA, Nucleotide excision repair

Abstract

The DNA double-strand break (DSB) repair protein DNA-PKcs and the signal transducer ATM are both activated by DNA breaks and phosphorylate similar substrates in vitro, yet appear to have distinct functions in vivo. Here, we show that ATM and DNA-PKcs have overlapping functions in lymphocytes. Ablation of both kinase activities in cells undergoing immunoglobulin class switch recombination leads to a compound defect in switching and a synergistic increase in chromosomal fragmentation, DNA insertions, and translocations due to aberrant processing of DSBs. These abnormalities are attributed to a compound deficiency in phosphorylation of key proteins required for DNA repair, class switching, and cell death. Notably, both kinases are required for normal levels of p53 phosphorylation in B and T cells and p53-dependent apoptosis. Our experiments reveal a DNA-PKcs-dependent pathway that regulates DNA repair and activation of p53 in the absence of ATM.

Published

2009

221. Complementary functions of ATM and H2AX in development and suppression of genomic instability

Author

Craig H. Bassing, Frederick W. Alt, Shan Zha, JoAnn Sekiguchi, and James W. Brush

Subjects

Genome instability, DNA Repair, DNA repair, DNA damage, Cell Cycle Proteins, Context (language use), Ataxia Telangiectasia Mutated Proteins, Protein Serine-Threonine Kinases, environment and public health, Genomic Instability, Histones, Mice, Pregnancy, Animals, Gene, Embryonic Stem Cells, Cell Proliferation, Multidisciplinary, biology, Kinase, Tumor Suppressor Proteins, Biological Sciences, Fibroblasts, Embryo, Mammalian, Cell biology, DNA-Binding Proteins, Histone, Embryo Loss, biology.protein, Female, Reactive Oxygen Species, DNA Damage

Abstract

Upon DNA damage, histone H2AX is phosphorylated by ataxia-telangiectasia mutated (ATM) and other phosphoinositide 3-kinase-related protein kinases. To elucidate further the potential overlapping and unique functions of ATM and H2AX, we asked whether they have synergistic functions in the development and maintenance of genomic stability by inactivating both genes in mouse germ line. Combined ATM/H2AX deficiency caused embryonic lethality and dramatic cellular genomic instability. Mechanistically, severe genomic instability in the double-deficient cells is associated with a requirement for H2AX to repair oxidative DNA damage resulting from ATM deficiency. We discuss these findings in the context of synergies between ATM and other repair factors.

Published

2008

222. Kinase-dead ATM protein is highly oncogenic and can be preferentially targeted by Topo-isomerase I inhibitors

Author

Jiguang Wang, Brian J. Lee, Lisa Sprinzen, Wenxia Jiang, Denis G Loredan, Raul Rabadan, Kenta Yamamoto, Jun Xu, Dong Wang, Christopher J. Haddock, Shan Zha, Chen Li, and Alessandro Vindigni

Subjects

0301 basic medicine, Genome instability, Lymphoma, Mouse, Carcinogenesis, Ataxia Telangiectasia Mutated Proteins, Neurodegenerative, medicine.disease_cause, Mice, cell biology, Missense mutation, 2.1 Biological and endogenous factors, Biology (General), Cancer, Kinase, General Neuroscience, General Medicine, Hematology, 3. Good health, 5.1 Pharmaceuticals, Topo-isomerase I, Medicine, Research Article, Human, DNA damage, QH301-705.5, Science, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Ataxia Telangiectasia, Rare Diseases, medicine, Genetics, PTEN, Animals, human, mouse, General Immunology and Microbiology, Animal, missense mutation, Cell Biology, Molecular biology, Disease Models, Animal, 030104 developmental biology, Protein kinase domain, ATM, Disease Models, biology.protein, replication fork, Biochemistry and Cell Biology, Topoisomerase I Inhibitors

Abstract

Missense mutations in ATM kinase, a master regulator of DNA damage responses, are found in many cancers, but their impact on ATM function and implications for cancer therapy are largely unknown. Here we report that 72% of cancer-associated ATM mutations are missense mutations that are enriched around the kinase domain. Expression of kinase-dead ATM (AtmKD/-) is more oncogenic than loss of ATM (Atm-/-) in mouse models, leading to earlier and more frequent lymphomas with Pten deletions. Kinase-dead ATM protein (Atm-KD), but not loss of ATM (Atm-null), prevents replication-dependent removal of Topo-isomerase I-DNA adducts at the step of strand cleavage, leading to severe genomic instability and hypersensitivity to Topo-isomerase I inhibitors. Correspondingly, Topo-isomerase I inhibitors effectively and preferentially eliminate AtmKD/-, but not Atm-proficientor Atm-/- leukemia in animal models. These findings identify ATM kinase-domain missense mutations as a potent oncogenic event and a biomarker for Topo-isomerase I inhibitor based therapy. DOI: http://dx.doi.org/10.7554/eLife.14709.001, eLife digest Cancer is a genetic disease. To remain healthy, therefore, it is essential that cells do not accrue too many dangerous mutations in their DNA that allow cancers to grow and develop. An enzyme called ATM helps to do just that. DNA damage activates ATM, which, in turn, adds phosphate groups to other proteins. These newly tagged proteins then stop cells dividing until the DNA has been repaired. Human cancers often switch off ATM, either by completely deleting the enzyme or mutating it. This renders ATM unable to add phosphate groups to proteins, and so allows the cancer cells to continue proliferating even in the face of DNA damage. Yamamoto et al. wanted to know whether cancers that completely lack ATM behave differently from cancers that contain an inactive version of the enzyme. Studying mice that were engineered to have an inactive version of ATM in their blood cells showed that such mice developed blood cancers faster than mice have no ATM in their blood cells. In particular, cancer cells with the inactive form of the ATM enzyme accumulated more DNA damage than cells that lacked the enzyme completely. Using biochemical techniques, Yamamoto et al. then showed that the inactive form of ATM can prevent other enzymes from repairing DNA. Drugs that inhibit one of these repair enzymes – called topo-isomerase I – are already used in cancer treatments. These drugs were particularly effective on tumors with the inactive version of the ATM enzyme. As ATM is commonly mutated in human cancers, the next steps that follow on from this research are to develop methods to test which cancers contain the inactive form of the ATM enzyme. Clinical trials could then investigate how effectively topo-isomerase I inhibitors treat these specific types of cancer. DOI: http://dx.doi.org/10.7554/eLife.14709.002

Published

2016

223. KMT2D Deficiency Promotes Myeloid Leukemias which Is Vulnerable to Ribosome Biogenesis Inhibition

Author

Jing Xu, Ailing Zhong, Shan Zhang, Mei Chen, Lanxin Zhang, Xiaohang Hang, Jianan Zheng, Baohong Wu, Xintong Deng, Xiangyu Pan, Zhongwang Wang, Lu Qi, Kaidou Shi, Shujun Li, Yiyun Wang, Manli Wang, Xuelan Chen, Qi Zhang, Pengpeng Liu, Robert Peter Gale, Chong Chen, Yu Liu, and Ting Niu

Subjects

acute myeloid leukemia, epigenetics, KMT2D, mTOR, ribosome biogenesis, Science

Abstract

Abstract KMT2C and KMT2D are the most frequently mutated epigenetic genes in human cancers. While KMT2C is identified as a tumor suppressor in acute myeloid leukemia (AML), the role of KMT2D remains unclear in this disease, though its loss promotes B cell lymphoma and various solid cancers. Here, it is reported that KMT2D is downregulated or mutated in AML and its deficiency, through shRNA knockdown or CRISPR/Cas9 editing, accelerates leukemogenesis in mice. Hematopoietic stem and progenitor cells and AML cells with Kmt2d loss have significantly enhanced ribosome biogenesis and consistently, enlarged nucleolus, increased rRNA and protein synthesis rates. Mechanistically, it is found that KMT2D deficiency leads to the activation of the mTOR pathway in both mouse and human AML cells. Kmt2d directly regulates the expression of Ddit4, a negative regulator of the mTOR pathway. Consistent with the abnormal ribosome biogenesis, it is shown that CX‐5461, an inhibitor of RNA polymerase I, significantly restrains the growth of AML with Kmt2d loss in vivo and extends the survival of leukemic mice. These studies validate KMT2D as a de facto tumor suppressor in AML and reveal an unprecedented vulnerability to ribosome biogenesis inhibition.

Published

2023

224. Virtual reality: a promising instrument to promote sail education

Author

Fa Ji, Xingjian Zhang, Shan Zhao, and Qun Fang

Subjects

virtual reality, sailing, skill transfer, physical education, pedagogy, Psychology, BF1-990

Abstract

Sailing has gained an increasing attention among children and adolescents in China, which raised a strong need for sail courses through physical education (PE). However, challenges in teaching practice arise with rapid development of the sport. In the current study, we proposed a perspective that virtual reality (VR) technology makes high-quality sail education accessible for students. Critical analysis summarized the prominent features that enhance sail education, including immersive experience, interactive learning, the first-person view, and practice under well-controlled conditions. Further, research on VR sport training indicated successful transfer from virtual environment to real situation. Specifically, significant improvement in skill performance and tactical behaviors were identified, which was attributed to the enhanced perception-action coupling after VR training. Additionally, VR-based coding programs provide students with affordances of designing the virtual environment. The content design education promotes comprehension and application of knowledge and theories when students develop the simulated environment with a high level of presence. Therefore, VR technology is a promising instrument to meet the increasing demand on sail education. While VR enriches educational resources for a large class size, the interdisciplinary feature of VR-based sail course can attract students with different study interests and backgrounds to the class.

Published

2023

225. Schistosoma japonicum-derived peptide SJMHE1 ameliorates allergic symptoms and responses in mice with allergic rhinitis

Author

Xuerong Gao, Chaoming Mao, Tingting Zheng, Xiaowei Xu, Xinkai Luo, Shan Zhang, Jiameng Liu, Xuefeng Wang, Xiaojun Chen, and Liyang Dong

Subjects

Schistosoma japonicum peptide SJMHE1, allergic rhinitis, spleen, CD19 cells, Bregs, Microbiology, QR1-502

Abstract

Helminth derived excretory/secretory molecules have shown efficacy in the treatment of allergic asthma in mice, but their roles in allergic rhinitis (AR) are little known. In this study, we aimed to determine the intervention effect of SJMHE1, a Schistosoma japonicum derived small molecular peptide, on ovalbumin (OVA)-induced AR mice and investigate its possible mechanism. AR was induced in BALB/c mice, following which the mice were treated with phosphate-buffered saline (PBS), OVA323-339 and SJMHE1 respectively. SJMHE1 treatment improved clinical symptoms (rubbing and sneezing), suppressed infiltrates of inflammatory cells and eosinophils in nasal mucosa, modulated the production of type-2 (IL-4 and IL-13) and anti-inflammatory (IL-10) cytokines in the nasal lavage fluids (NLF), spleen, and serum. To investigate the underlying mechanism, fluorescein isothiocyanate (FITC)-labeled SJMHE1 was subcutaneously injected into AR mice, and we found that the FITC-SJMHE1 could accumulate in spleen, but not in nasal mucosa. FITC-SJMHE1 mainly bound to CD19 positive cells (B cells), and the SJMHE1 treatment significantly increased the proportion of regulatory B cells (Bregs) and B10 cells, along with the enhancement of PR domain containing protein 1 (Prdm1) protein levels. SJMHE1 may alleviate AR by upregulating Bregs, and has great potential as a new avenue for the AR treatment.

Published

2023

226. Cognitive dysfunction in diabetes: abnormal glucose metabolic regulation in the brain

Author

Shan Zhang, Yueying Zhang, Zhige Wen, YaNan Yang, Tianjie Bu, Xiangwei Bu, and Qing Ni

Subjects

cerebral glucose metabolism, diabetes, cognitive dysfunction, insulin signal, molecular mechanism, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Cognitive dysfunction is increasingly recognized as a complication and comorbidity of diabetes, supported by evidence of abnormal brain structure and function. Although few mechanistic metabolic studies have shown clear pathophysiological links between diabetes and cognitive dysfunction, there are several plausible ways in which this connection may occur. Since, brain functions require a constant supply of glucose as an energy source, the brain may be more susceptible to abnormalities in glucose metabolism. Glucose metabolic abnormalities under diabetic conditions may play an important role in cognitive dysfunction by affecting glucose transport and reducing glucose metabolism. These changes, along with oxidative stress, inflammation, mitochondrial dysfunction, and other factors, can affect synaptic transmission, neural plasticity, and ultimately lead to impaired neuronal and cognitive function. Insulin signal triggers intracellular signal transduction that regulates glucose transport and metabolism. Insulin resistance, one hallmark of diabetes, has also been linked with impaired cerebral glucose metabolism in the brain. In this review, we conclude that glucose metabolic abnormalities play a critical role in the pathophysiological alterations underlying diabetic cognitive dysfunction (DCD), which is associated with multiple pathogenic factors such as oxidative stress, mitochondrial dysfunction, inflammation, and others. Brain insulin resistance is highly emphasized and characterized as an important pathogenic mechanism in the DCD.

Published

2023

227. Gut microbiota composition and gene expression changes induced in the Apis cerana exposed to acetamiprid and difenoconazole at environmentally realistic concentrations alone or combined

Author

Wensu Han, Zheyuan Ye, Yifan Gu, Yihai Zhong, Jinglin Gao, Shan Zhao, and Shijie Wang

Subjects

Apis cerana, acetamiprid, difenoconazole, gut microbiota, gene expression, Physiology, QP1-981

Abstract

Apis cerana is an important pollinator of agricultural crops in China. In the agricultural environment, A. cerana may be exposed to acetamiprid (neonicotinoid insecticide) and difenoconazole (triazole fungicide), alone or in combination because they are commonly applied to various crops. At present, our understanding of the toxicological effects of acetamiprid and difenoconazole on honey bee gut microbiomes is limited. The primary objective of this study was to explore whether these two pesticides affect honey bees’ gut microbiota and to analyze the transcriptional effects of these two pesticides on honey bees’ head and gut. In this study, adults of A. cerana were exposed to acetamiprid and/or difenoconazole by contaminated syrup at field-realistic concentrations for 10 days. Results indicated that acetamiprid and/or difenoconazole chronic exposure did not affect honey bees’ survival and food consumption, whereas difenoconazole decreased the weight of honey bees. 16S rRNA sequencing suggested that difenoconazole and the mixture of difenoconazole and acetamiprid decreased the diversity index and shaped the composition of gut bacteria microbiota, whereas acetamiprid did not impact the gut bacterial community. The ITS sequence data showed that neither of the two pesticides affected the fungal community structure. Meanwhile, we also observed that acetamiprid or difenoconazole significantly altered the expression of genes related to detoxification and immunity in honey bees’ tissues. Furthermore, we observed that the adverse effect of the acetamiprid and difenoconazole mixture on honey bees’ health was greater than that of a single mixture. Taken together, our study demonstrates that acetamiprid and/or difenoconazole exposure at field-realistic concentrations induced changes to the honey bee gut microbiome and gene expression.

Published

2023

228. Xylocopa caerulea and Xylocopa auripennis harbor a homologous gut microbiome related to that of eusocial bees

Author

Yifan Gu, Wensu Han, Yuquan Wang, Danlei Liang, Jinglin Gao, Yihai Zhong, Shan Zhao, and Shijie Wang

Subjects

carpenter bees, gut microbiota, bacteria symbiosis, Candidatus Schmidhempelia, Bombiscardovia, eusocial bees, Microbiology, QR1-502

Abstract

BackgroundEusocial bees, such as bumblebees and honey bees, harbor host-specific gut microbiota through their social behaviors. Conversely, the gut microbiota of solitary bees is erratic owing to their lack of eusocial activities. Carpenter bees (genus Xylocopa) are long-lived bees that do not exhibit advanced eusociality like honey bees. However, they often compete for nests to reproduce. Xylocopa caerulea and Xylocopa auripennis are important pollinators of wild plants on Hainan Island. Whether they have host-specific bacteria in their guts similar to eusocial bees remains unknown.MethodsWe targeted the bacterial 16S rRNA V3-V4 region to investigate the diversity of bacterial symbionts in the fore-midgut and hindgut of two carpenter bees, X. caerulea and X. auripennis.ResultsA maximum of 4,429 unique amplicon sequence variants (ASVs) were detected from all samples, belonging to 10 different phyla. X. caerulea and X. auripennis shared similar bacterial community profiles, with Lactobacillaceae, Bifidobacteriaceae, and Orbaceae being dominant in their entire guts. X. caerulea and X. auripennis harbor a highly conserved core set of bacteria, including the genera Candidatus Schmidhempelia and Bombiscardovia. These two bacterial taxa from carpenter bees are closely related to those isolated from bumblebees. The LEfSe analysis showed that Lactobacillaceae, Bifidobacteriaceae, and the genus Bombilactobacillus were significantly enriched in the hindguts of both carpenter bees. Functional prediction suggested that the most enriched pathways were involved in carbohydrate and lipid metabolism.ConclusionsOur results revealed the structure of the gut microbiota in two carpenter bees and confirmed the presence of some core bacterial taxa that were previously only found in the guts of social bees.

Published

2023

229. Epidemiological characteristics and trends of hand-foot-mouth disease in Shanghai, China from 2011 to 2021

Author

Jing Wang and Shan Zhang

Subjects

HFMD, epidemiology, EV71 vaccine, vaccination status, seasonal trend, Public aspects of medicine, RA1-1270

Abstract

Hand, foot and mouth disease (HFMD) is a kind of infectious disease caused by enterovirus infection. In this study we analysed the epidemiological characteristics and time trends of HFMD, vaccination status and vaccine protection effect assessment of EV71 vaccine from 2011 to 2021 in Huangpu District, Shanghai, China. HFMD cases showed a decreasing trend year by year from 2011 to 2021, from 122 cases reported in 2012 to 7 cases in 2020, and 12 cases in 2021. Etiological diagnosis was CV-A6 in 185 cases (29.8%), CV-A16 in 209 cases (33.7%), EV-A71 in 118 cases (19.0%) and other enteroviruses in 109 cases (17.6%). After the launch of EV71 vaccine, a total of 32,221 doses of EV71 vaccine were administered between 2016 and 2021. The case–control results showed that there was no evidence to support the effectiveness of EV71 vaccine, OR (95% CI) =0.52 (0.12 ~ 2.3), p = 0.37. The epidemic strains have changed. Surveillance and management of HFMD remain very important in the future and EV71 vaccine is considered to be included in National Immunization Program.

Published

2023

230. Haploinsufficiency of Bcl11b suppresses the progression of ATM-deficient T cell lymphomas

Author

Brian J. Lee, Denis G Loredan, Govind Bhagat, Chen Li, Wenxia Jiang, Kerice A. Pinkney, and Shan Zha

Subjects

Cancer Research, medicine.medical_specialty, T cell, BCL11B, Haploinsufficiency, Biology, Lymphoma, T-Cell, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, hemic and lymphatic diseases, Internal medicine, medicine, Animals, Humans, Letter to the Editor, Molecular Biology, Transcription factor, 030304 developmental biology, Thymic Lymphoma, 0303 health sciences, Hematology, Tumor Suppressor Proteins, medicine.disease, 3. Good health, Lymphoma, Repressor Proteins, medicine.anatomical_structure, Gene Expression Regulation, Oncology, 030220 oncology & carcinogenesis, Disease Progression, Cancer research

Abstract

Bcl11b is a transcription factor important for T cell development and also a tumor-suppressor gene that is hemizygously inactivated in ~10 % human T cell acute lymphoblastic leukemia (T-ALL) and several murine T-ALL models, including ATM−/− thymic lymphomas. Here we report that heterozygous loss of Bcl11b (Bcl11b+/−) unexpectedly reduced lethal thymic lymphoma in ATM−/− mice by suppressing lymphoma progression, but not initiation. The suppression was associated with a T cell-mediated immune response in ATM−/−Bcl11b+/− mice, revealing a haploid insufficient function of Bcl11b in immune modulation against lymphoma and offering an explanation for the complex relationship between Bcl11b status with T-ALL prognosis. Electronic supplementary material The online version of this article (doi:10.1186/s13045-015-0191-8) contains supplementary material, which is available to authorized users.

Published

2015

231. H2AX Prevents DNA Breaks from Progressing to Chromosome Breaks and Translocations

Author

Shan Zha, Suprawee Tepsuporn, Zhenkun Lou, Craig H. Bassing, John P. Manis, Catherine T. Yan, Michael M. Murphy, Frederick W. Alt, Julio C. Morales, Melissa M. Adams, Ali A. Zarrin, Monica Gostissa, Junjie Chen, David B. Lombard, Sonia Franco, and Phillip B. Carpenter

Subjects

DNA Repair, DNA damage, chemical and pharmacologic phenomena, Chromosomal translocation, Biology, In Vitro Techniques, Immunoglobulin Class Switch Recombination, Translocation, Genetic, Histones, chemistry.chemical_compound, Mice, Cytidine Deaminase, Animals, Molecular Biology, In Situ Hybridization, Fluorescence, Mice, Knockout, B-Lymphocytes, Chromosome Breakage, Cytidine deaminase, Cell Biology, Molecular biology, Immunoglobulin Class Switching, Cell biology, MDC1, enzymes and coenzymes (carbohydrates), Immunoglobulin class switching, chemistry, biological phenomena, cell phenomena, and immunity, Chromosome breakage, Tumor Suppressor Protein p53, Immunoglobulin Heavy Chains, DNA, DNA Damage

Abstract

Histone H2AX promotes DNA double-strand break (DSB) repair and immunoglobulin heavy chain (IgH) class switch recombination (CSR) in B-lymphocytes. CSR requires activation-induced cytidine deaminase (AID) and involves joining of DSB intermediates by end joining. We find that AID-dependent IgH locus chromosome breaks occur at high frequency in primary H2AX-deficient B cells activated for CSR and that a substantial proportion of these breaks participate in chromosomal translocations. Moreover, activated B cells deficient for ATM, 53BP1, or MDC1, which interact with H2AX during the DSB response, show similarly increased IgH locus breaks and translocations. Thus, our findings implicate a general role for these factors in promoting end joining and thereby preventing DSBs from progressing into chromosomal breaks and translocations. As cellular p53 status does not markedly influence the frequency of such events, our results also have implications for how p53 and the DSB response machinery cooperate to suppress generation of lymphomas with oncogenic translocations.

Published

2006

232. Roles of mushroom polysaccharides in chronic disease management

Author

Shan ZHANG, Lin LEI, Yun ZHOU, Fa-yin YE, and Guo-hua ZHAO

Subjects

mushroom polysaccharide, chronic diseases, structural feature, biological performance, molecular mechanism, Agriculture (General), S1-972

Abstract

Chronic diseases have drawn much attention as the primary cause of death and disability. In exploring novel side-effect-free agents against chronic diseases, significant efforts have been devoted to mushroom polysaccharides due to their diverse biological activities. This work reviewed the structural features, biological performances and molecular mechanisms of mushroom polysaccharides in managing cancers, diabetes mellitus and cardiovascular diseases. The potentials of mushroom polysaccharides against chronic diseases highly depend on their structural features, including monosaccharide composition, molecular weight, the type and configuration of glycosidic bonds, degree of branching, the type of substituent pattern and chain conformation. Regarding their working mechanisms, shared and disease-specific pathways were found. The three chronic diseases shared the regulation of specific signalling pathways and the adjustment of gut microbiota. In addition, the roles of transcription factors, receptors, enzymes, hormones and other functional proteins involved in the molecular mechanisms of mushroom polysaccharides against chronic diseases are first elaborated herein. The present review describes the state of the art of mushroom polysaccharides in treating chronic diseases and addresses the perspectives, and will further promote research on this topic.

Published

2022

233. Interconnection and coexistence of heterogeneous network:requirements, challenges, and architecture

Author

Hongbin LUO, Shan ZHANG, and Zhiyuan WANG

Subjects

heterogeneous network, internetworking, network architecture, security, efficiency, Telecommunication, TK5101-6720, Technology

Abstract

With the rapid development of the network technology and applications, many networks with different types of topologies and services have been emerging, such as Internet, satellite Internet, industrial Internet, unmanned aerial vehicle swarm network, and vehicle Internet, forming a situation in which many differentiated network systems coexist, to this end, the requirements and challenges were elaborated for heterogeneous networks to be integrated and coexist.Then CoLoR, an architecture for securely and efficiently interconnect heterogeneous networks was introduced.Based on the consistent function (i.e., information transmission) among heterogeneous network systems, CoLoR introduces multi-dimensional namespace for the universal representation.Moreover, CoLoR decouples the intra-domain routing and the inter-domain routing to ensure the evolution ability.Finally, CoLoR also constructs an efficient cross-domain communication mode and a security guarantee mechanism.

Published

2022

234. Alterations of monoamine neurotransmitters, HPA-axis hormones, and inflammation cytokines in reserpine-induced hyperalgesia and depression comorbidity rat model

Author

Jingjie Zhao, Wei Shi, Yujia Lu, Xuesong Gao, Anna Wang, Shan Zhang, Yi Du, Yongzhi Wang, and Li Li

Subjects

Monoamine neurotransmitters, HPA-axis hormones, Inflammation cytokines, Pain and depression comorbidity, Psychiatry, RC435-571

Abstract

Abstract Background Pain and depression often occur simultaneously, but the mechanism of this condition is still unclear. Methods The aim of this study was to examine the alterations of monoamine neurotransmitters, hypothalamic–pituitary–adrenal (HPA) axis hormones, and inflammation cytokines in hyperalgesia and depression comorbidities. The reserpine-induced “Sprague Dawley” (SD) rat models were used, and the concentrations of monoamine neurotransmitters serotonin (5-HT), norepinephrine (NE), dopamine (DA), and their metabolic products 5-hydroxyindoleacetic acid (5-HIAA), Homovanillic acid (HVA), 3,4-Dihydroxyphenylacetic acid (DOPAC) in raphe nucleus region were tested by High Performance Liquid Chromatography (HPLC). Serum levels of Adrenocorticotropic Hormone (ACTH), Cortisol (CORT), and inflammatory cytokines interleukin (IL)-1β, IL-6, tumor necrosis factor (TNF)-α, interferon (IFN)-γ, IL-4, IL-10 were assessed by enzyme linked immunosorbent assay. Results Repeated reserpine injection induced hyperalgesia and depressive behaviors with decreased sucrose preference and horizontal movement distance, and increased immobility time in forced swimming test. The concentrations of 5-HT and NE in raphe nucleus, and ACTH and CORT in serum were elevated in the model group. And the model group showed increases in serum IL-1β and IL-6, and decrease in serum IL-10. Conclusion More research in these areas is needed to understand the pathogenesis of the disease, so as to find more and better therapeutic targets.

Published

2022

235. Insights into methionine S-methylation in diverse organisms

Author

Ming Peng, Chun-Yang Li, Xiu-Lan Chen, Beth T. Williams, Kang Li, Ya-Nan Gao, Peng Wang, Ning Wang, Chao Gao, Shan Zhang, Marie C. Schoelmerich, Jillian F. Banfield, J. Benjamin Miller, Nick E. Le Brun, Jonathan D. Todd, and Yu-Zhong Zhang

Subjects

Science

Abstract

S-methyl methionine (SMM) is a key molecule in production of dimethylsulfoniopropionate (DMSP), an important marine anti-stress compound, with roles in global nutrient cycling. Here, the authors determine the mechanism of SMM synthesis and uncover unexpected roles for SMM in archaea, CPR bacteria and animals.

Published

2022

236. A Nonclassic CCAAT Enhancer Element Binding Protein Binding Site Contributes to α-Methylacyl-CoA Racemase Expression in Prostate Cancer

Author

William B. Isaacs and Shan Zha

Subjects

Male, Cancer Research, Transcription, Genetic, DNA Mutational Analysis, Racemases and Epimerases, Biology, medicine.disease_cause, Gene Expression Regulation, Enzymologic, Enhancer binding, Tumor Cells, Cultured, Transcriptional regulation, medicine, Humans, Epigenetics, Binding site, Promoter Regions, Genetic, Enhancer, Molecular Biology, Mutation, Binding Sites, CCAAT-Enhancer-Binding Protein-beta, Prostatic Neoplasms, AMACR Gene, DNA Methylation, Molecular biology, Gene Expression Regulation, Neoplastic, Enhancer Elements, Genetic, Oncology, CCAAT-Enhancer-Binding Proteins, Cancer research, Ectopic expression

Abstract

α-Methylacyl-CoA racemase (AMACR), an enzyme involved in branched-chain fatty acid β-oxidation that is normally expressed at high levels in human liver, is specifically and consistently overexpressed at both mRNA and protein levels in human prostate cancer and potentially other cancer types. To characterize the mechanisms underlying transcriptional regulation of AMACR at the genetic and epigenetic levels, we performed a series of methylation and reporter assays in prostate cancer tissues and cell lines. The results ruled out altered methylation patterns as the cause of overexpression in prostate cancer cells. However, promoter deletion analysis identified an 8-bp nonclassic CCAAT enhancer element located ∼80 bp upstream of the transcriptional initiation site that is responsible for AMACR expression in both prostate cancer cell lines and cell lines of liver origin. Deletion or mutation of this element completely abolished AMACR promoter activity. Ectopic expression of CCAAT/enhancer binding protein β increased luciferase activity driven by a wild-type AMACR promoter sequence but not by the sequence in which the putative CCAAT/enhancer binding protein binding element had been mutated. These results implicate a nonclassic CCAAT enhancer element in the AMACR gene promoter as playing a critical role in the regulation of AMACR gene expression.

Published

2005

237. Correction: Control of two-spotted spider mite, Tetranychus urticae, on strawberry by integrating with cyetpyrafen and Phytoseiulus persimilis

Author

Shan Zhao, Qiuyu Zhao, Xiaoyan Dai, Bing Lv, Ruijuan Wang, Zhenjuan Yin, Feng Zhang, Yan Liu, Long Su, Hao Chen, Li Zheng, Hongmei Li, Lixia Xie, and Yifan Zhai

Subjects

Agriculture (General), S1-972

Published

2024

238. A Self-Powered Broadband Photodetector with High Photocurrent Based on Ferroelectric Thin Film Using Energy Band Structure Design

Author

Xing Gao, Xin Song, Shan Zhang, Xinxiang Yang, Pei Han, Liwen Zhang, Chunxiao Lu, Xihong Hao, and Yong Li

Subjects

ferroelectric, thin-film, photodetector, self-powered, band gap, Crystallography, QD901-999

Abstract

Self-powered photodetectors have the advantages of high sensitivity, sustainability, and small size and have become a research hotspot in advanced optoelectronic systems. However, the low output photocurrent density seriously hinders the practical application of ferroelectric self-powered photodetectors. Herein, the high-efficiency photoelectric detection performance of the Bi1-xHoxFeO3 ferroelectric self-powered photodetector is realized by doping Ho. The responsivity (R) and detectivity (D*) can reach 0.0159 A/W and 1.94 × 1011 Jones under monochromatic light with a wavelength of 900 nm. Meanwhile, the R and D* can reach 0.022 A/W and 2.65 × 1011 Jones under sunlight. These excellent photodetection performances are attributed to the high short-circuit current density (Jsc). When the Ho content is 6%, the output photocurrent reaches up to 0.81 mA/cm2. The systematic structure and photo-electric characteristic analysis suggest that the decrease in the band gap leads to the generation of a larger photocurrent while the ferroelectric polarization is reduced slightly. This work provides a new way to obtain high-performance self-powered photodetectors.

Published

2024

239. Tigecycline Sensitivity Reduction in Escherichia coli Due to Widely Distributed tet(A) Variants

Author

Shan Zhang, Mingquan Cui, Dejun Liu, Bo Fu, Tingxuan Shi, Yang Wang, Chengtao Sun, and Congming Wu

Subjects

tet(A) variants, tigecycline resistance, Escherichia coli, Biology (General), QH301-705.5

Abstract

Despite scattered studies that have reported mutations in the tet(A) gene potentially linked to tigecycline resistance in clinical pathogens, the detailed function and epidemiology of these tet(A) variants remains limited. In this study, we analyzed 64 Escherichia coli isolates derived from MacConkey plates supplemented with tigecycline (2 μg/mL) and identified five distinct tet(A) variants that account for reduced sensitivity to tigecycline. In contrast to varied tigecycline MICs (0.25 to 16 μg/mL) of the 64 tet(A)-variant-positive E. coli isolates, gene function analysis confirmed that the five tet(A) variants exhibited a similar capacity to reduce tigecycline sensitivity in DH5α carrying pUC19. Among the observed seven non-synonymous mutations, the V55M mutation was unequivocally validated for its positive role in conferring tigecycline resistance. Interestingly, the variability in tigecycline MICs among the E. coli strains did not correlate with tet(A) gene expression. Instead, a statistically significant reduction in intracellular tigecycline concentrations was noted in strains displaying higher MICs. Genomic analysis of 30 representative E. coli isolates revealed that tet(A) variants predominantly resided on plasmids (n = 14) and circular intermediates (n = 13). Within China, analysis of a well-characterized E. coli collection isolated from pigs and chickens in 2018 revealed the presence of eight tet(A) variants in 103 (4.2%, 95% CI: 3.4–5.0%) isolates across 13 out of 17 tested Chinese provinces or municipalities. Globally, BLASTN analysis identified 21 tet(A) variants in approximately 20.19% (49,423/244,764) of E. coli genomes in the Pathogen Detection database. These mutant tet(A) genes have been widely disseminated among E. coli isolates from humans, food animals, and the environment sectors, exhibiting a growing trend in tet(A) variants over five decades. Our findings underscore the urgency of addressing tigecycline resistance and the underestimated role of tet(A) mutations in this context.

Published

2023

240. Tracking the Vegetation Change Trajectory over Large-Surface Coal Mines in the Jungar Coalfield Using Landsat Time-Series Data

Author

Yanfang Wang, Shan Zhao, Hengtao Zuo, Xin Hu, Ying Guo, Ding Han, and Yuejia Chang

Subjects

LandTrendr algorithm, vegetation greenness, Heidaigou open-pit coal mine, Haerwusu open-pit coal mine, disturbance and restoration, Science

Abstract

Coal mining and ecological restoration activities significantly affect land surfaces, particularly vegetation. Long-term quantitative analyses of vegetation disturbance and restoration are crucial for effective mining management and ecological environmental supervision. In this study, using the Google Earth Engine and all available Landsat images from 1987 to 2020, we employed the Landsat-based Detection of Trends in Disturbance and Recovery (LandTrendr) algorithm and Support Vector Machine (SVM) to conduct a comprehensive analysis of the year, intensity, duration, and pattern of vegetation disturbance and restoration in the Heidaigou and Haerwusu open-pit coal mines (H-HOCMs) in the Jungar Coalfield of China. Our findings indicate that the overall accuracy for extractions of disturbance and restoration events in the H-HOCMs area is 83% and 84.5%, respectively, with kappa coefficients of 0.82 for both. Mining in Heidaigou has continued since its beginning in the 1990s, advancing toward the south and then eastward directions, and mining in the Haerwusu has advanced from west to east since 2010. The disturbance magnitude of the vegetation greenness in the mining area is relatively low, with a duration of about 4–5 years, and the restoration magnitude and duration vary considerably. The trajectory types show that vegetation restoration (R, 44%) occupies the largest area, followed by disturbance (D, 31%), restoration–disturbance (RD, 16%), disturbance–restoration (DR, 8%), restoration–disturbance–restoration (RDR), and no change (NC). The LandTrendr algorithm effectively detected changes in vegetation disturbance and restoration in H-HOCMs. Vegetation disturbance and restoration occurred in the study area, with a cumulative disturbance-to-restoration ratio of 61.79% since 1988. Significant restoration occurred primarily in the external dumps and continued ecological recovery occurred in the surrounding area.

Published

2023

241. Human prostate cancer precursors and pathobiology

Author

William G. Nelson, Masashi Nakayama, Elizabeth A. Platz, Shan Zha, Alan K. Meeker, Jun Luo, Angelo M. De Marzo, and William B. Isaacs

Subjects

Male, Urology, Racemases and Epimerases, Prostatitis, Adenocarcinoma, medicine.disease_cause, Prostate cancer, GSTP1, Prostate, medicine, Humans, Gene Silencing, Telomerase, Glutathione Transferase, Prostatic Intraepithelial Neoplasia, business.industry, Prostatic Neoplasms, Cancer, DNA Methylation, Telomere, medicine.disease, Isoenzymes, Oxidative Stress, medicine.anatomical_structure, Glutathione S-Transferase pi, Immunology, DNA methylation, Disease Progression, Cancer research, CpG Islands, business, Carcinogenesis

Abstract

Prostate cancer is among the most common malignancies. It is estimated that 1 in 6 men in the United States will be diagnosed with this disease. Despite the high prevalence and importance of prostate cancer, the molecular mechanisms underlying its development and progression remain poorly understood. This article reviews new information about the roles of oxidants and electrophiles in prostate cancer; the potential importance of chronic inflammation and atrophy in prostate carcinogenesis, and implications for chemoprevention; evidence supporting telomere shortening and genetic instability in the etiology of prostate cancer; and alpha-methylacyl-coenzyme A racemase (AMACR) as a potential marker for prostate carcinogenesis. These new results show that at least some high-grade prostatic intraepithelial neoplasias (PIN) and early adenocarcinomas appear to arise from proliferative inflammatory atrophy (PIA). Inflammation and other environmental factors may lead to the destruction of prostate epithelial cells, and increased proliferation may occur as a response to this cell death. Such proliferation may be mechanistically related to decreased p27(Kip1) observed in PIA. The decreased apoptosis associated with these events may also be related to increased expression of Bcl-2. Increased oxidant and electrophile stress in the setting of increased proliferation associated with these events may lead to elevated glutathione S-transferase P1 (GSTP1) expression as a genomic-protective measure. However, aberrant methylation of the CpG island of the GSTP1 gene promoter silences GSTP1 gene expression and protein levels, setting the stage for additional genetic damage and accelerated progression toward PIN and carcinoma. Additional results show that AMACR may be an important new marker of prostate cancer, and its use in combination with p63 staining may provide the basis for an improved method for identification of prostate cancer.

Published

2003

242. Architecture and mechanisms for secure and efficient internetworking of heterogeneous network

Author

Hongbin LUO, Shan ZHANG, and Zhiyuan WANG

Subjects

heterogeneous network, internetworking, network architecture, security, efficiency, Telecommunication, TK5101-6720

Abstract

An architecture named CoLoR (coupling service location and inter-domain routing) was introduced to securely and efficiently interconnect networks with different architectures (called heterogeneous networks below).First, the fundamental challenges and scientific problems that have to be addressed by CoLoR were raised.Then, the core aspects of CoLoR were described, including how to characterize and represent the cyberphysical system comprised by heterogeneous networks, the network architecture, the basic communication model and how secure internetworking was achieved.After that, results from prototype implementation were presented to demonstrate the feasibility and capability of CoLoR, including defending against attacks and preventing data leakage.Finally, some open issues were outlined for future studies.

Published

2022

243. Vertical matrix perovskite X-ray detector for effective multi-energy discrimination

Author

Jincong Pang, Shan Zhao, Xinyuan Du, Haodi Wu, Guangda Niu, and Jiang Tang

Subjects

Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467

Abstract

The vertical matrix perovskite X-ray detectors for multi-energy detection is reported, providing a new generation of X-ray detectors with features of multi-energy discrimination, density differentiation and contrast-enhanced.

Published

2022

244. Improved remediation of co-contaminated soils by heavy metals and PAHs with biosurfactant-enhanced soil washing

Author

Xu Zhang, Xiaodong Zhang, Shuguang Wang, and Shan Zhao

Subjects

Medicine, Science

Abstract

Abstract Due to the huge toxicity of co-contaminated soil with PAHs and heavy metals and the complexity of their remediation, it is thus critical to take effective remediation actions to remove heavy metals and PAHs simultaneously from the co-contaminated soil. Biosurfactant-enhanced soil washing (BESW) were investigated in this study for remediation of soil co-contaminated with phenanthrene (PHE) and cadmium (Cd). The co-existence of PHE and Cd caused the change of the structure of soil and rhamnolipid micelle, which lead to different removal rate of PHE and Cd from co-contaminated soil compared with single contaminated soil. The results of FT-IR and NMR showed that PHE entered micelles of rhamnolipid and Cd formed the complexation with the external carboxyl groups of rhamnolipid micelle. We also found that pH, concentration of rhamnolipid solution, temperature and ionic strength had influence on co-contaminated soil remediation. The effects of above mentioned four factors on co-contaminated soil remediation in BESW processes were analyzed by using Taguchi design of experiment method. Taguchi based Grey Relational Analysis was conducted to identify the optimal remediation conditions, which included pH = 9, concentration of rhamnolipid = 5 g/L, temperature = 15 °C and ionic strength = 0.01 M. Under the optimal conditions for BESW, removal rates of cadmium and phenanthrene reached 72.4% and 87.8%, respectively in co-contaminated soil.

Published

2022

245. 1Hz rTMS over left DLPFC rewired the coordination with hippocampus in insomnia patients: A pilot study

Author

Minpeng Li, Yifei Zhu, Xiaozi Zhang, Haiqing Yang, Shan Zhang, Jiayi Liu, Xumeng Zhao, Jun Li, Jixin Liu, Xiaona Sheng, Dahua Yu, and Kai Yuan

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2022

246. Elevated blood urea nitrogen-to-creatinine ratio increased the risk of Coronary Artery Disease in patients living with type 2 diabetes mellitus

Author

Feng Liu, Guanhui Ma, Chao Tong, Shan Zhang, Xinghua Yang, Cong Xu, Weihao Yang, Guobao Xia, and Mingliang Li

Subjects

UCR, T2DM, CAD, Cox regression, Cubic spline function, Kaplan–Meier survival, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Abstract Background High Blood Urea Nitrogen (BUN) and high Serum Creatinine (SCr) levels are risk factors for Coronary Artery Disease (CAD). However, the relationship between the Blood Urea Nitrogen to Creatinine (BUN/SCr) ratio (UCR) and the risk of CAD in patients living with new-onset diabetes is unclear. This study aimed to examine the relationship between blood UCR and the risk of CAD in patients living with new-onset type 2 diabetes mellitus (T2DM). Methods We analyzed the data from the cohort of 12,299 patients living with type 2 diabetes mellitus. Primary endpoints were the events of CAD. The ANOVA test (continuous indicators) and χ2 test (categorical indicators) were used to assess the differences of baseline characteristics across the groups of UCR. In order to understand the correlation between variables, we performed correlation analysis on variables that have significant differences between CAD group and non-CAD group. Multivariate-adjusted Cox proportional hazard regression models were applied to estimate the association of the blood UCR with the risk of CAD in patients living with T2DM. The Kaplan–Meier survival function plotting and the log-rank test were used to evaluate the event-free survival according to the groups of UCR. The restricted cubic spline model was used to show the adjusted association between blood UCR and risk of CAD in patients living with T2DM. Results During a median follow-up of 2.66 years, 1173 CAD were recorded with an event rate of 28.49 events per 1000 person-years. In multivariate-adjusted Cox regression models, elevated blood urea nitrogen to creatinine ratio (UCR) was associated with higher risk of CAD in patients living with T2DM [hazard ratio (HR), 1.782; 95% confidence interval (CI), 1.237–2.567]. The Kaplan–Meier survival curves indicated that the high group of UCR tended to have a lower event-free survival than the low group and medium group. There was a nonlinear trend toward increasing risk of CAD across the groups of UCR. And cubic spline function graph suggested that the influence of UCR level on HR for CAD increased significantly at UCR levels above 6.67. Conclusions An elevated UCR was significantly associated with an increased risk for CAD in patients living with T2DM.

Published

2022

247. Comparative metabolomic analysis reveals shared and unique chemical interactions in sponge holobionts

Author

Shan Zhang, Weizhi Song, Louis-Félix Nothias, Sneha P. Couvillion, Nicole Webster, and Torsten Thomas

Subjects

Sponge, Metabolomics, Symbionts, Antioxidants, Antagonist, Microbial ecology, QR100-130

Abstract

Abstract Background Sponges are ancient sessile metazoans, which form with their associated microbial symbionts a complex functional unit called a holobiont. Sponges are a rich source of chemical diversity; however, there is limited knowledge of which holobiont members produce certain metabolites and how they may contribute to chemical interactions. To address this issue, we applied non-targeted liquid chromatography tandem mass spectrometry (LC-MS/MS) and gas chromatography mass spectrometry (GC-MS) to either whole sponge tissue or fractionated microbial cells from six different, co-occurring sponge species. Results Several metabolites were commonly found or enriched in whole sponge tissue, supporting the notion that sponge cells produce them. These include 2-methylbutyryl-carnitine, hexanoyl-carnitine and various carbohydrates, which may be potential food sources for microorganisms, as well as the antagonistic compounds hymenialdisine and eicosatrienoic acid methyl ester. Metabolites that were mostly observed or enriched in microbial cells include the antioxidant didodecyl 3,3′-thiodipropionate, the antagonistic compounds docosatetraenoic acid, and immune-suppressor phenylethylamide. This suggests that these compounds are mainly produced by the microbial members in the sponge holobiont, and are potentially either involved in inter-microbial competitions or in defenses against intruding organisms. Conclusions This study shows how different chemical functionality is compartmentalized between sponge hosts and their microbial symbionts and provides new insights into how chemical interactions underpin the function of sponge holobionts. Video abstract

Published

2022

248. Some issues and thoughts on the study of pure shale-type shale oil in the 7th Member of Yanchang Formation in Ordos Basin, China

Author

Shutong Li, Shixiang Li, Jiangyan Liu, Mingyi Yang, Junlin Chen, Shan Zhang, Deyi Cui, and Jiacheng Li

Subjects

Shale oil, Tuff, Paleoenvironment, Simulation experiment, Ordos Basin, Gas industry, TP751-762

Abstract

The 7th Member of the Yanchang Formation (Chang 7 Member) in the Ordos Basin contains rich shale oil resources in which the exploration and development of the Chang 7 Member sandstone interbedded shale oil has made substantial breakthroughs. The exploration and development potential of the shale oil, an inevitableoil and gas replacement for Changqing Oilfield Company in the future, is immense. Its related geological basic research, however, is relatively weak. This paper provides elaborations and analyzation on basic science issue, including the characteristics of mud shale, the significance of shale oil exploration, the restoration of the formation of paleoenvironment, the organic matter enrichment effect of tuff, the catalysis of hydrocarbon generation, and more. It is presumed that enduring geological basic research, such as pure mud shale-type shale oil and modern lacustrine semi-deep lake-deep lake facies sedimentation investigations can provide valuable ideas and methods for the study of mud shale formation, paleoenvironment restoration, and formation mechanism. Meanwhile, we should pay close attention to research on the catalysis of tuff on the hydrocarbon generation of source rocks, and conduct a series of thermal simulation experiments on the catalysis of enriched elements in the tuff, which will provide important basic geological parameters for the exploration and development of Chang 7 Member pure mud shale-type shale oil.

Published

2022

249. TLR7 modulates extramedullary splenic erythropoiesis in P. yoelii NSM-infected mice through the regulation of iron metabolism of macrophages with IFN-γ

Author

Jiajie Li, Lin Liu, Junmin Xing, Dianhui Chen, Chao Fang, Feng Mo, Yumei Gong, Zhengrong Tan, Guikuan Liang, Wei Xiao, Shanni Tang, Haixia Wei, Shan Zhao, Hongyan Xie, Xingfei Pan, Xiaomao Yin, and Jun Huang

Subjects

malaria, TLR7, extramedullary splenic erythropoiesis, IFN-γ, macrophages, iron metabolism, Immunologic diseases. Allergy, RC581-607

Abstract

Splenomegaly is a prominent clinical manifestation of malaria and the causes remain incompletely clear. Anemia is induced in malaria and extramedullary splenic erythropoiesis is compensation for the loss of erythrocytes. However, the regulation of extramedullary splenic erythropoiesis in malaria is unknown. An inflammatory response could facilitate extramedullary splenic erythropoiesis in the settings of infection and inflammation. Here, when mice were infected with rodent parasites, Plasmodium yoelii NSM, TLR7 expression in splenocytes was increased. To explore the roles of TLR7 in splenic erythropoiesis, we infected wild-type and TLR7-/- C57BL/6 mice with P. yoelii NSM and found that the development of splenic erythroid progenitor cells was impeded in TLR7-/- mice. Contrarily, the treatment of the TLR7 agonist, R848, promoted extramedullary splenic erythropoiesis in wild-type infected mice, which highlights the implication of TLR7 on splenic erythropoiesis. Then, we found that TLR7 promoted the production of IFN-γ that could enhance phagocytosis of infected erythrocytes by RAW264.7. After phagocytosis of infected erythrocytes, the iron metabolism of RAW264.7 was upregulated, evidenced by higher iron content and expression of Hmox1 and Slc40a1. Additionally, the neutralization of IFN-γ impeded the extramedullary splenic erythropoiesis modestly and reduced the iron accumulation in the spleen of infected mice. In conclusion, TLR7 promoted extramedullary splenic erythropoiesis in P. yoelii NSM-infected mice. TLR7 enhanced the production of IFN-γ, and IFN-γ promoted phagocytosis of infected erythrocytes and the iron metabolism of macrophages in vitro, which may be related to the regulation of extramedullary splenic erythropoiesis by TLR7.

Published

2023

250. Alpha1-antitrypsin protects the immature mouse brain following hypoxic-ischemic injury

Author

Shan Zhang, Wendong Li, Yiran Xu, Tao Li, Joakim Ek, Xiaoli Zhang, Yafeng Wang, Juan Song, Changlian Zhu, and Xiaoyang Wang

Subjects

alpha1-antitrypsin, neuroprotection, hypoxia-ischemia, neonatal brain injury, immature brain, motor dysfunction, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Introduction: Preterm brain injury often leads to lifelong disabilities affecting both cognitive and motor functions, and effective therapies are limited. Alpha1-antitrypsin (AAT), an endogenous inhibitor of serine proteinases with anti-inflammatory, anti-apoptotic, and cytoprotective properties, might be beneficial in treating preterm brain injury. The aim of this study was to investigate whether AAT has neuroprotective effects in a mouse preterm brain injury model.Methods: Preterm brain injury was induced on postnatal day 5, and mouse pups’ right common carotid arteries were cut between two ligations followed by hypoxia induction. Brain injury was evaluated through immunohistochemistry staining and magnetic resonance imaging. Fluoro-Jade B and immunohistochemistry staining were performed to investigate the neuronal cell death and blood-brain barrier (BBB) permeability. The motor function and anxiety-like behaviors were revealed by CatWalk gait analysis and the open field test.Results: After hypoxia-ischemia (HI) insult, brain injury was alleviated by AAT treatment, and this was accompanied by reduced BBB permeability, reduced neuronal cell death and caspase-3 activation, and inhibition of microglia activation. In addition, AAT administration significantly improved HI-induced motor function deficiencies in mice. The neuroprotective effect of AAT was more pronounced in male mice.Conclusion: AAT treatment is neuroprotective against preterm brain injury in neonatal mice, and the effect is more pronounced in males.

Published

2023