Your search keyword '"Shang Dai"' showing total 126 results

1. Effect of cold-rolling and annealing temperature on microstructure, texture evolution and mechanical properties of FeCoCrNiMn high-entropy alloy

Author

Luhai Liao, Yifan Cheng, Shang Dai, Muhammad Abubaker Khan, He Zhang, and Fengguang Li

Subjects

High-entropy alloys, Cold rolling, Annealing, Microstructure and mechanical properties, Mining engineering. Metallurgy, TN1-997

Abstract

This study investigates the effects of cold rolling and annealing on the microstructure, texture, and mechanical properties of FeCoCrNiMn high-entropy alloys. Utilizing vacuum induction melting, the alloy was initially cast into ingots and hot-rolled into plates, which were subsequently cold-rolled to various thicknesses and annealed at different temperatures. Microstructural analyses were conducted using X-ray diffraction and electron backscatter diffraction techniques, revealing a persistent face-centered cubic structure across all conditions. The texture evolution demonstrated a shift from Copper and S components to dominant Goss and Brass components as cold rolling intensified, suggesting the formation of Brass-type texture in FeCoCrNiMn at high deformation. Mechanical testing showed that the alloy's yield and tensile strengths significantly increased with cold rolling, reaching optimum values at ∼66 % reduction. Annealing at 750 °C enhanced both strength and ductility, primarily through grain refinement and the formation of Σ3 annealing twin boundaries, which dominated the microstructure of recrystallized grains. The study confirms that the low stacking fault energy of the alloy facilitates the activation of twinning and transformation-induced plasticity mechanisms, crucial for the observed enhancements in mechanical properties.

Published

2024

2. Editorial: Advanced technologies for remedying environmental pollution in agricultural systems

Author

Zhen Yang, Yaqin Wang, Shang Dai, and Meng Jiang

Subjects

advanced techniques, agriculture, bioremediation, environmental pollution, nanomaterials, Environmental sciences, GE1-350

Published

2024

3. Investigation on microstructures, mechanical properties, and corrosion behavior of novel biodegradable Zn-xCu-xTi alloys after hot rolling fabricated by self-developed newly gradient continuous casting

Author

Shang Dai, Luhai Liao, Yun Feng, Weili Yao, Yuxiang Cai, Jamieson Brechtl, Mohamed A. Afifi, Muhammad Abubaker Khan, Ren Zhiying, and Jingyuan Li

Subjects

Zn-Cu-Ti alloy, Hot rolling, Gradient continuous casting, Mechanical properties, Corrosion resistance, Mining engineering. Metallurgy, TN1-997

Abstract

The poor mechanical properties exhibited by pure Zn effectively prohibit its utilization as a viable material for biodegradable implants. Hence, the primary area of interest has been directed towards alloy design and process strategies of biodegradable Zn alloys. To this end, novel biodegradable Zn-xCu-xTi (Cu: x = 0.001–2.72 and Ti: x = 0.03–1.21) alloys were designed and fabricated using a gradient continuous casting method followed by homogenization and rolling. The fabricated samples were then investigated in terms of their microstructures, mechanical properties, and corrosion behavior. The results showed that the as-cast Zn-0.001Cu-0.037Ti and Zn-1.50Cu-1.06Ti alloys possess better mechanical properties and corrosion resistance. The yield strength, elongation, and highest charge transfer resistance (Rct) of Zn-0.001Cu-0.037Ti were 137 MPa, 60 %, and 2227.9 Ω, respectively. On the other hand, the Zn-1.50Cu-1.06Ti alloy exhibited 250 MPa yield strength, 12.7.% elongation, and 11113.0 Ω Rct, respectively. Higher Cu and Ti content also led to larger second phases. However, as-hot rolled Zn-1.50Cu-1.06Ti alloy displayed better mechanical properties as compared to the Zn-0.001Cu-0.037Ti alloy due to a very fine nanocrystalline structure. Furthermore, the hot-rolled Zn-xCu-xTi alloys demonstrated superior corrosion resistance compared to their as-cast counterparts, as evidenced by the analysis of the potentiodynamic polarization and electrochemical impedance spectroscopy data. This improved corrosion resistance is attributed to the refined grain size, fractured second phases which reduce both the anode and cathode areas, and the formation of protective oxide layers. Lastly, the corrosion products primarily consisted of carbon, phosphorus, calcium, and oxygen, suggesting the presence of Zn(OH)2, carbonates, and phosphates.

Published

2024

4. Structural Evolution of Bacterial Polyphosphate Degradation Enzyme for Phosphorus Cycling

Author

Shang Dai, Binqiang Wang, Rui Ye, Dong Zhang, Zhenming Xie, Ning Yu, Chunhui Cai, Cheng Huang, Jie Zhao, Furong Zhang, Yuejin Hua, Ye Zhao, Ruhong Zhou, and Bing Tian

Subjects

ɑ‐linker, exopolyphosphatase, polyphosphate, structural evolution, Science

Abstract

Abstract Living organisms ranging from bacteria to animals have developed their own ways to accumulate and store phosphate during evolution, in particular as the polyphosphate (polyP) granules in bacteria. Degradation of polyP into phosphate is involved in phosphorus cycling, and exopolyphosphatase (PPX) is the key enzyme for polyP degradation in bacteria. Thus, understanding the structure basis of PPX is crucial to reveal the polyP degradation mechanism. Here, it is found that PPX structure varies in the length of ɑ‐helical interdomain linker (ɑ‐linker) across various bacteria, which is negatively correlated with their enzymatic activity and thermostability – those with shorter ɑ‐linkers demonstrate higher polyP degradation ability. Moreover, the artificial DrPPX mutants with shorter ɑ‐linker tend to have more compact pockets for polyP binding and stronger subunit interactions, as well as higher enzymatic efficiency (kcat/Km) than that of DrPPX wild type. In Deinococcus‐Thermus, the PPXs from thermophilic species possess a shorter ɑ‐linker and retain their catalytic ability at high temperatures (70 °C), which may facilitate the thermophilic species to utilize polyP in high‐temperature environments. These findings provide insights into the interdomain linker length‐dependent evolution of PPXs, which shed light on enzymatic adaption for phosphorus cycling during natural evolution and rational design of enzyme.

Published

2024

5. An inorganic mineral-based protocell with prebiotic radiation fitness

Author

Shang Dai, Zhenming Xie, Binqiang Wang, Rui Ye, Xinwen Ou, Chen Wang, Ning Yu, Cheng Huang, Jie Zhao, Chunhui Cai, Furong Zhang, Damiano Buratto, Taimoor Khan, Yan Qiao, Yuejin Hua, Ruhong Zhou, and Bing Tian

Subjects

Science

Abstract

Abstract Protocell fitness under extreme prebiotic conditions is critical in understanding the origin of life. However, little is known about protocell’s survival and fitness under prebiotic radiations. Here we present a radioresistant protocell model based on assembly of two types of coacervate droplets, which are formed through interactions of inorganic polyphosphate (polyP) with divalent metal cation and cationic tripeptide, respectively. Among the coacervate droplets, only the polyP-Mn droplet is radiotolerant and provides strong protection for recruited proteins. The radiosensitive polyP-tripeptide droplet sequestered with both proteins and DNA could be encapsulated inside the polyP-Mn droplet, and form into a compartmentalized protocell. The protocell protects the inner nucleoid-like condensate through efficient reactive oxygen species’ scavenging capacity of intracellular nonenzymic antioxidants including Mn-phosphate and Mn-peptide. Our results demonstrate a radioresistant protocell model with redox reaction system in response to ionizing radiation, which might enable the protocell fitness to prebiotic radiation on the primitive Earth preceding the emergence of enzyme-based fitness. This protocell might also provide applications in synthetic biology as bioreactor or drug delivery system.

Published

2023

6. Deciphering a cell death-associated signature for predicting prognosis and response to immunotherapy in lung squamous cell carcinoma

Author

Guangxian Mao, Dongyong Yang, Bin Liu, Yu Zhang, Sijia Ma, Shang Dai, Guoqiang Wang, Wenxiang Tang, Huafei Lu, Shangli Cai, Jialiang Zhu, and Huaping Yang

Subjects

Lung squamous cell carcinoma, Cell death, Prognostic signature, Immunotherapeutic response, Cytokines, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Lung squamous cell carcinoma (LUSC) is a subtype of non-small cell carcinoma, accounting for about 30% of all lung cancers. Yet, the evaluation of prognostic outcome and therapy response of patients with LUSC remains to be resolved. This study aimed to explore the prognostic value of cell death pathways and develop a cell death-associated signature for predicting prognosis and guiding treatment in LUSC. Methods Transcriptome profiles and corresponding clinical information of LUSC patients were gathered from The Cancer Genome Atlas (TCGA-LUSC, n = 493) and Gene Expression Omnibus database (GSE74777, n = 107). The cell death-related genes including autophagy (n = 348), apoptosis (n = 163), and necrosis (n = 166) were retrieved from the Kyoto Encyclopedia of Genes and Genomes and Gene Ontology databases. In the training cohort (TCGA-LUSC), LASSO Cox regression was used to construct four prognostic signatures of respective autophagy, apoptosis, and necrosis pathway and genes of three pathways. After comparing the four signatures, the cell death index (CDI), the signature of combined genes, was further validated in the GSE74777 dataset. We also investigated the clinical significance of the CDI signature in predicting the immunotherapeutic response of LUSC patients. Results The CDI signature was significantly associated with the overall survival of LUSC patients in the training cohort (HR, 2.13; 95% CI, 1.62‒2.82; P

Published

2023

7. Distinct lipid membrane interaction and uptake of differentially charged nanoplastics in bacteria

Author

Shang Dai, Rui Ye, Jianxiang Huang, Binqiang Wang, Zhenming Xie, Xinwen Ou, Ning Yu, Cheng Huang, Yuejin Hua, Ruhong Zhou, and Bing Tian

Subjects

Nanoplastics, Differentially charge, Lipid membrane, Uptake, Bacteria, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background Nanoplastics have been recently found widely distributed in our natural environment where ubiquitously bacteria are major participants in various material cycles. Understanding how nanoplastics interact with bacterial cell membrane is critical to grasp their uptake processes as well as to analyze their associated risks in ecosystems and human microflora. However, little is known about the detailed interaction of differentially charged nanoplastics with bacteria. The present work experimentally and theoretically demonstrated that nanoplastics enter into bacteria depending on the surface charges and cell envelope structural features, and proved the shielding role of membrane lipids against nanoplastics. Results Positively charged polystyrene nanoplastics (PS-NH2, 80 nm) can efficiently translocate across cell membranes, while negatively charged PS (PS-COOH) and neutral PS show almost no or much less efficacy in translocation. Molecular dynamics simulations revealed that the PS-NH2 displayed more favourable electrostatic interactions with bacterial membranes and was subjected to internalisation through membrane penetration. The positively charged nanoplastics destroy cell envelope of Gram-positive B. subtilis by forming membrane pore, while enter into the Gram-negative E. coli with a relatively intact envelope. The accumulated positively charged nanoplastics conveyed more cell stress by inducing a higher level of reactive oxygen species (ROS). However, the subsequently released membrane lipid-coated nanoplastics were nearly nontoxic to cells, and like wise, stealthy bacteria wrapped up with artifical lipid layers became less sensitive to the positively charged nanoplastics, thereby illustrating that the membrane lipid can shield the strong interaction between the positively charged nanoplastics and cells. Conclusions Our findings elucidated the molecular mechanism of nanoplastics’ interaction and accumulation within bacteria, and implied the shielding and internalization effect of membrane lipid on toxic nanoplastics could promote bacteria for potential plastic bioremediation. Graphical Abstract

Published

2022

8. One-year spatiotemporal variations of air pollutants in a major chemical-industry park in the Yangtze River Delta, China by 30 miniature air quality monitoring stations

Author

Xiaobing Pang, Yu Lu, Baozhen Wang, Hai Wu, Kangli Shi, Jingjing Li, Bo Xing, Lang Chen, Zhentao Wu, Shang Dai, Wei Zhou, Xuewei Cui, Dongzhi Chen, and Jianmeng Chen

Subjects

fine chemical industrial park, air pollutants, spatiotemporal variation, miniature air monitoring station, human health, Environmental sciences, GE1-350

Abstract

Fine chemical industrial park (FCIP) is a major source of atmospheric pollutants in China. A long-term high spatial resolution monitoring campaign on air pollutants had been firstly conducted in a major FCIP in Yangtze River Delta (YRD) from December 2019 to November 2020. The grid-based monitoring platform consisting of 30 miniature air quality monitoring stations (AQMSs) provided comprehensive coverage of a FCIP, and long-term monitoring studies solved the problem of lack of clarity about pollution sources in industrial parks. Overall, NO2 pollution was particularly high in the pharmaceutical industry, while TVOCs and O3 pollution were most serious in the textile dyeing industry, with PM pollution much higher in the metal smelting industry than in other industries, and in the leather industry, O3 pollution was relatively severe. The spatial and temporal variations of air pollutants showed that higher PM, CO and NO2 concentrations were revealed in winter while lower in summer due to better meteorological diffusion conditions. TVOCs concentrations were higher with an average of 1954 ppb in summer possibly due to their increased volatilization from their sources at higher ambient temperatures. O3 concentrations were at their peaks in spring (88.8 μg m−3) and early fall (78.5 μg m−3). The daily trends of O3 precursors (TVOCs and NO2) were clearly negatively correlated with O3, and they showed bimodal peaks due to anthropogenic activities, plant emissions, lowering of the mixed boundary layer, etc. The O3 formed in FCIP was judged to be NO2-limited during the monitoring period based on the ratios of NO2 to TVOCs. Therefore, the effective strategy to reduce O3 formation in FCIP is to decrease the ambient NO2 concentration. Based on Pearson correlation coefficients, it appeared that WS promoted O3 formation through long-term transport and that high air temperatures also contributed to O3 formation in the environment. It was also stated in the study that the closer the residential area is to the industrial sources, the more significant the correlation. Thus, the results of this study will also be helpful for policymakers to design pollutant control strategies for different industries to mitigate the impact of pollutants on human health.

Published

2022

9. Evidence and Impacts of Nanoplastic Accumulation on Crop Grains

Author

Meng Jiang, Binqiang Wang, Rui Ye, Ning Yu, Zhenming Xie, Yuejin Hua, Ruhong Zhou, Bing Tian, and Shang Dai

Subjects

accumulation, crop grains, nanoplastics, nutritional quality, Science

Abstract

Abstract Nanoplastics are emerging pollutants of global concern. Agricultural soil is becoming a primary sink for nanoplastics generated from plastic debris. The uptake and accumulation of nanoplastics by crops contaminate the food chain and pose unexpected risks to human health. However, whether nanoplastics can enter grains and their impact on the grains of crop grown in contaminated soil is still unknown. Here, the translocation of polystyrene nanoplastics (PS‐NPs) in crops, including peanut (Arachis hypogaea L.) and rice (Oryza sativa L.) is investigated. It is demonstrated PS‐NPs translocation from the root and accumulation in the grains at the maturation stage. The treatment with PS‐NPs (250 mg kg−1) increases the empty‐shell numbers of rice grain by 35.45%, thereby decreasing the seed‐setting rate of rice by 3.02%, and also decreases the average seed weight of peanuts by 3.45%. Moreover, PS‐NPs exerted adverse effects on nutritional quality, such as decreasing the content of mineral elements, amino acids, and unsaturated fatty acids. To the knowledge, this is the first report of the presence of nanoplastics in the grains of crop plants grown in soil containing nanoplastics, and the results highlight the impact of nanoplastics on the yield and nutritional quality of crop grains.

Published

2022

10. Direct Measuring Particulate Matters in Smoke Plumes from Chimneys in a Textile Dyeing Industrial Park by a Self-Developed PM Detector on an UAV in Yangtze River Delta of China

Author

Zhentao Wu, Xiaobing Pang, Zhangliang Han, Kaibin Yuan, Shang Dai, Jingjing Li, Jianmeng Chen, and Bo Xing

Subjects

particulate matter, textile dyeing industry, printing and dyeing process, smoke plume, unmanned aerial vehicle, Chemical technology, TP1-1185

Abstract

Directly measuring particulate matters (PM) from chimneys in an industrial park is difficult due to it being hard to reach the peak heights. A self-developed PM detector on an unmanned aerial vehicle (UAV) had been deployed to directly measure the PM emissions in smoke plumes from chimneys in a textile dyeing industrial park. Compared with a commercial PM device (LD-5R, SIBATA, Kyoto, Japan), the self-developed detector showed similar performance with a good correlation (R2 varying from 0.911 to 0.951) in simultaneously vertical PM measurements on UAV. The PM emissions from chimneys after different textile treating processes, including pigment printing, dyeing process, and digital printing, were investigated. PM mass concentrations and particle number concentrations (PNC) in different sizes were found to be significantly higher in pigment printing than those in dyeing process and digital printing by 2 or 3 times after electrostatic precipitation. The activated carbon adsorption and electrostatic precipitation were the major PM controlling techniques in the park. The PM mass concentrations and PNC were the highest in the process of dyeing after activated carbon adsorption with the concentrations of PM1 (1000 μg·m−3), PM2.5 (1600 μg·m−3), and PM10 (2000 μg·m−3), respectively. According to the results of PM and PNC, PM2.5 was found to be the dominant particles accounting for 99% of the PM emissions. It may be due to the high temperature in thermo-fixing machine, which is beneficial to the PM2.5 generation. This study revealed PM2.5 was the dominant particles to be reduced in textile dyeing enterprises to mitigate PM pollution.

Published

2022

11. N4-Cytosine DNA Methylation Is Involved in the Maintenance of Genomic Stability in Deinococcus radiodurans

Author

Shengjie Li, Jianling Cai, Huizhi Lu, Shuyu Mao, Shang Dai, Jing Hu, Liangyan Wang, Xiaoting Hua, Hong Xu, Bing Tian, Ye Zhao, and Yuejin Hua

Subjects

Deinococcus radiodurans, genomic stability, DNA methylation, M.DraR1 methyltransferase, differential expression genes, Microbiology, QR1-502

Abstract

DNA methylation serves as a vital component of restriction-modification (R-M) systems in bacteria, where it plays a crucial role in defense against foreign DNA. Recent studies revealed that DNA methylation has a global impact on gene expression. Deinococcus radiodurans, an ideal model organism for studying DNA repair and genomic stability, possesses unparalleled resistance to DNA-damaging agents such as irradiation and strong oxidation. However, details on the methylome of this bacterium remain unclear. Here, we demonstrate that N4-cytosine is the major methylated form (4mC) in D. radiodurans. A novel methylated motif, “C4mCGCGG” was identified that was fully attributed to M.DraR1 methyltransferase. M.DraR1 can specifically bind and methylate the second cytosine at N4 atom of “CCGCGG” motif, preventing its digestion by a cognate restriction endonuclease. Cells deficient in 4mC modification displayed higher spontaneous rifampin mutation frequency and enhanced DNA recombination and transformation efficiency. And genes involved in the maintenance of genomic stability were differentially expressed in conjunction with the loss of M.DraR1. This study provides evidence that N4-cytosine DNA methylation contributes to genomic stability of D. radiodurans and lays the foundation for further research on the mechanisms of epigenetic regulation by R-M systems in bacteria.

Published

2019

12. DR1440 is a potential iron efflux protein involved in maintenance of iron homeostasis and resistance of Deinococcus radiodurans to oxidative stress.

Author

Shang Dai, Ye Jin, Tao Li, Yulan Weng, Xiaolin Xu, Genlin Zhang, Jiulong Li, Renjiang Pang, Bing Tian, and Yuejin Hua

Subjects

Medicine, Science

Abstract

Iron acquisition by bacteria is well studied, but iron export from bacteria is less understood. Herein, we identified dr1440 with a P-type ATPase motif as a potential exporter of iron from Deinococcus radiodurans, a bacterium known for its extreme resistance to radiation and oxidants. The DR1440 was located in cell membrane as demonstrated by fluorescence labelling analysis. Mutation of dr1440 resulted in cellular accumulation of iron ions, and expression level of dr1440 was up-regulated significantly under iron ion or hydrogen peroxide stress in the wild-type strain, implicating DR1440 as a potential iron efflux protein. The dr1440 mutant displayed higher sensitivity to iron ions and oxidative stresses including hydrogen peroxide, hypochlorous acid, and gamma-ray irradiation compared with the wild-type strain. The high amount of iron in the mutant strain resulted in severe protein carbonylation, suggesting that DR1440 might contribute to intracellular protein protection against reactive oxygen species (ROS) generated from ferrous ion-mediated Fenton-reaction. Mutations of S297A and C299A led to intracellular accumulation of iron, indicating that S297 and C299 might be important functional residues of DR1440. Thus, DR1440 is a potential iron efflux protein involved in iron homeostasis and oxidative stress-resistance of D. radiodurans.

Published

2018

13. Deinococcus radiodurans Toxin–Antitoxin MazEF-dr Mediates Cell Death in Response to DNA Damage Stress

Author

Tao Li, Yulan Weng, Xiaoqiong Ma, Bing Tian, Shang Dai, Ye Jin, Mengjia Liu, Jiulong Li, Jiangliu Yu, and Yuejin Hua

Subjects

toxin–antitoxin system, MazEF, Deinococcus radiodurans, cell death, DNA damage stress, Microbiology, QR1-502

Abstract

Here we identified a functional MazEF-dr system in the exceptionally stress-resistant bacterium D. radiodurans. We showed that overexpression of the toxin MazF-dr inhibited the growth of Escherichia coli. The toxic effect of MazF-dr was due to its sequence-specific endoribonuclease activity on RNAs containing a consensus 5′ACA3′, and it could be neutralized by MazE-dr. The MazF-dr showed a special cleavage preference for the nucleotide present before the ACA sequence with the order by U>A>G>C. MazEF-dr mediated the death of D. radiodurans cells under sub-lethal dose of stresses. The characteristics of programmed cell death (PCD) including membrane blebbing, loss of membrane integrity and cytoplasm condensation occurred in a fraction of the wild-type population at sub-lethal concentration of the DNA damaging agent mitomycin C (MMC); however, a MazEF-dr mutation relieved the cell death, suggesting that MazEF-dr mediated cell death through its endoribonuclease activity in response to DNA damage stress. The MazEF-dr-mediated cell death of a fraction of the population might serve as a survival strategy for the remaining population of D. radiodurans under DNA damage stress.

Published

2017

14. Expression of PprI from Deinococcus radiodurans Improves Lactic Acid Production and Stress Tolerance in Lactococcus lactis.

Author

Xiangrong Dong, Bing Tian, Shang Dai, Tao Li, Linna Guo, Zhongfang Tan, Zhen Jiao, Qingsheng Jin, Yanping Wang, and Yuejin Hua

Subjects

Medicine, Science

Abstract

PprI is a general switch protein that regulates the expression of certain proteins involved in pathways of cellular resistance in the extremophilic bacterium Deinococcus radiodurans. In this study, we transformed pprI into Lactococcus lactis strain MG1363 using the lactococcal shuttle vector pMG36e and investigated its effects on the tolerance and lactic acid production of L. lactis while under stress. PprI was stably expressed in L. lactis as confirmed by western blot assays. L. lactis expressing PprI exhibited significantly improved resistance to oxidative stress and high osmotic pressure. This enhanced cellular tolerance to stressors might be due to the regulation of resistance-related genes (e.g., recA, recO, sodA, and nah) by pprI. Moreover, transformed L. lactis demonstrated increased lactic acid production, attributed to enhanced lactate dehydrogenase activity. These results suggest that pprI can improve the tolerance of L. lactis to environmental stresses, and this transformed bacterial strain is a promising candidate for industrial applications of lactic acid production.

Published

2015

15. Ferritin Heavy-like subunit is involved in the innate immune defense of the red swamp crayfish Procambarus clarkii.

Author

Si-Pei Zhang, Jie Zhang, Qing-Hao Wang, Yang Ye, Dai-Zhen Zhang, Qiu-Ning Liu, Bo-Ping Tang, and Li-Shang Dai

Subjects

PROCAMBARUS clarkii, GENE expression, PEPTIDES, IMMUNE system, CRAYFISH

Abstract

Iron-binding proteins, known as ferritins, play pivotal roles in immunological response, detoxification, and iron storage. Despite their significance to organisms, little is known about how they affect the immunological system of the red swamp crayfish (Procambarus clarkii). In our previous research, one ferritin subunit was completely discovered as an H-like subunit (PcFeH) from P. clarkii. The full-length cDNA of PcFerH is 1779 bp, including a 5'-UTR (untranslated region, UTR) of 89 bp, 3'-UTR (untranslated region, UTR) of 1180 bp and an ORF (open reading frame, ORF) of 510 bp encoding a polypeptide of 169 amino acids that contains a signal peptide and a Ferritin domain. The deduced PcFerH protein sequence has highly identity with other crayfish. PcFerH protein's estimated tertiary structure is quite comparable to animal structure. The PcFerH is close to Cherax quadricarinatus, according to phylogenetic analysis. All the organs examined showed widespread expression of PcFerH mRNA, with the ovary exhibiting the highest levels of expression. Additionally, in crayfish muscles, intestines, and gills, the mRNA transcript of PcFerH was noticeably up-regulated, after LPS and Poly I:C challenge. The expression of downstream genes in the immunological signaling system was suppressed when the PcFerH gene was knocked down. All of these findings suggested that PcFerH played a vital role in regulating the expression of downstream effectors in the immunological signaling pathway of crayfish. [ABSTRACT FROM AUTHOR]

Published

2024

16. The entity and event recognition method of power dispatching text information based on BERT-CRF

Author

Wenteng Liang, Shang Dai, Yizhen You, Kang Yang, Jianan Zhang, Tai Sun, Ruyi Li, Yue Zhang, and linxi zou

Published

2023

17. Differentially expressed genes in head kidney of Pelteobagrus fulvidraco following Vibrio cholerae challenge

Author

Sen-Hao Jiang, Lin-Xin Wu, Yu-Ting Cai, Rui-Ting Ma, Hua-Bin Zhang, Dai-Zhen Zhang, Bo-Ping Tang, Qiu-Ning Liu, and Li-Shang Dai

Subjects

Immunology, Immunology and Allergy

Abstract

The yellow catfish (Pelteobagrus fulvidraco) is a freshwater fish with high economic value in eastern China. Nevertheless, pathogens causing bacterial diseases in P. fulvidraco have brought about huge economic loss and high mortality in artificial aquaculture. For disease control, it is critical to further understand the immune system of yellow catfish and immune-related genes with which they respond to pathogenic infections. In this study, high-throughput sequencing methods were used to analyze the transcriptomic spectrum of the head kidney from P. fulvidraco challenged by Vibrio cholera. A total of 45,544 unique transcript fragments (unigenes) were acquired after assembly and annotation, with an average length of 1,373 bp. Additionally, 674 differentially expressed genes (DEGs) were identified after stimulation with V. cholerae, 353 and 321 genes were identified as remarkably up- or downregulated, respectively. To further study the immune-related DEGs, we performed KEGG enrichment and GO enrichment. The results showed gene regulation of response to stimulus, immune response, immune system progress, response to external stimuli and cellular response to stimuli. Analysis of KEGG enrichment is important to identify chief immune related pathways. Real-time quantitative reverse transcription-PCR (qRT-PCR) results indicated 10 immune response genes that were found to be upregulated compared to a control group after 6 h of V. cholerae challenging. In summary, the results of our study are helpful to determine the defense mechanisms and immune system responses of yellow catfish in reaction to bacterial challenges.

Published

2023

18. Research on Early Warning Method of Power System Operation Risk Based on Chaos Algorithm

Author

Shang Dai, Tao Zhu, Bo Lun Wang, Yu Yang Wang, and Xiao Xiang Lu

Published

2023

19. A complement factor I (CFI) gene mediates innate immune responses in yellow catfish Pelteobagrus fulvidraco

Author

Yue-Tian Li, Xiao-Han Zha, Dai-Zhen Zhang, Li-Shang Dai, Bo-Ping Tang, Ying-Yu Tang, Jiang Senhao, and Qiu-Ning Liu

Subjects

Fish Proteins, Lipopolysaccharides, 0106 biological sciences, Complement factor I, Kidney, Pelteobagrus, 01 natural sciences, 03 medical and health sciences, Complementary DNA, Genetics, Animals, RNA, Messenger, Gene, Catfishes, 030304 developmental biology, 0303 health sciences, Innate immune system, biology, biology.organism_classification, Molecular biology, Immunity, Innate, Open reading frame, Liver, Complement Factor I, Ictalurus, Spleen, 010606 plant biology & botany, Catfish

Abstract

This study isolated CFI gene from Pelteobagrus fulvidraco and named it PfCFI. The cDNA of PfCFI is 2374 bp long, including a 52 bp 5′ untranslated sequence, a 222 bp 3′ untranslated sequence, and an open reading frame (ORF) of 2100 bp encoding polypeptide consisting of 699 amino acids. Phylogenetic analysis revealed that the PfCFI was closely related to CFI of Ictalurus punctatus. Real-time quantitative reverse transcription-PCR (qRT-PCR) analysis indicate that there is the PfCFI gene which expressed in all the rest of tested tissues in varied levels, and mainly distributed in liver and least in heart. The reseachers induce the expressions level of PfCFI gene in liver, spleen, head kidney and blood at different points in time after challenged with lipopolysaccharide (LPS), and polyriboinosinic polyribocytidylic acid (poly I:C), respectively. Together these results suggested that CFI gene plays an important role in resistance to pathogens in yellow catfish immunity.

Published

2021

20. Gold nanoparticles synthesized using melatonin suppress cadmium uptake and alleviate its toxicity in rice

Author

Shan Li, Zhenming Xie, Bing Tian, Qingyao Shu, Jiulong Li, Liangyan Wang, Binqiang Wang, Shang Dai, Yuanyuan Tan, Jian-Zhong Huang, and Meng Jiang

Subjects

0106 biological sciences, Abiotic component, chemistry.chemical_classification, 0303 health sciences, Cadmium, Materials Science (miscellaneous), food and beverages, chemistry.chemical_element, Oxidative phosphorylation, Absorption (skin), 01 natural sciences, Melatonin, 03 medical and health sciences, Enzyme, chemistry, Toxicity, Gene expression, medicine, Food science, 030304 developmental biology, 010606 plant biology & botany, General Environmental Science, medicine.drug

Abstract

Melatonin is a general organizer that promotes plant development and moderates defense responses to abiotic stresses; e.g., heat, cold, and heavy metals. Cadmium (Cd) is a heavy metal that can be uptaken by cereal crops. It causes toxicity in plants and poses serious health risks due to its accumulation in the human body through the food chain. This study demonstrates that melatonin in the form of gold nanoparticles (Mel-AuNPs) can alleviate Cd toxicity to a greater extent in hydroponically grown rice plants compared to melatonin applied alone. When rice was grown in a medium supplemented with 200 μM Mel-AuNPs, the melatonin content significantly increased in the roots (18.0%) and leaves (20.3%), and the Cd level significantly decreased by 33.0% and 46.2%, respectively. Furthermore, the Mel-AuNP supplement restored chlorophyll biosynthesis and mitigated Cd-induced oxidative stresses, while the anti-oxidant enzyme activities were significantly increased. Further study showed that supplying Mel-AuNPs inhibited the Cd-induced gene expression of metal transporter-related genes (OsHMA2, OsHMA3, OsIRT1, OsIRT2, OsNramp1, OsNramp5, and OsLCT1) in rice roots. Overall, this study suggests that Mel-AuNP application could mitigate Cd toxicity in rice seedlings by enhancing melatonin absorption and suppressing Cd uptake.

Published

2021

21. Melatonin enhances metallic oxide nanoparticle stress tolerance in rice via inducing tetrapyrrole biosynthesis and amino acid metabolism

Author

Shang Dai, Zhenming Xie, Binqiang Wang, Dengying Qiu, Shan Li, Chao Li, Meng Jiang, Yunchao Zheng, Shouling Xu, and Yue Song

Subjects

0106 biological sciences, chemistry.chemical_classification, Tryptamine, Reactive oxygen species, Antioxidant, Chemistry, Materials Science (miscellaneous), medicine.medical_treatment, Tryptophan, food and beverages, medicine.disease_cause, 01 natural sciences, Tetrapyrrole, Melatonin, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Biosynthesis, Biochemistry, medicine, 030217 neurology & neurosurgery, Oxidative stress, 010606 plant biology & botany, General Environmental Science, medicine.drug

Abstract

The overuse of metallic oxide nanoparticles (NPs) has caused a burst of their enrichment in paddy fields. Several findings have reported that the NPs of ZnO and CuO have an adverse impact on plant growth, while the potential mechanism of rice response to the NPs of metallic oxides remains largely unknown. In our research, we found that pretreatment with different concentrations of ZnO and CuO NPs greatly increased the biosynthesis and accumulation of melatonin and its precursors (serotonin, tryptamine, and tryptophan), and induced the transcription of melatonin biosynthetic genes in rice seedlings. Foliage sprayed melatonin greatly enhanced the tolerance to metallic oxide NPs toxicity in rice plants as evidenced by reduced inhibition of plant growth and enhanced biosynthesis of tetrapyrrole in rice seedlings. Exogenous melatonin significantly alleviated metallic oxide NPs-induced oxidative stress with decreased reactive oxygen species (ROS), and increased the activity and gene expression of major antioxidant enzymes. Moreover, the melatonin supplement greatly increased the total amino acid content under metallic oxide NPs treatment in rice leaves. In summary, our findings reveal that melatonin is related to metallic oxide nanoparticle-participated molecular, biochemical, and physiological alterations by accelerating tetrapyrrole biosynthesis and amino acid metabolism in rice.

Published

2021

22. Integrins in the Immunity of Insects: A Review

Author

Saima Kausar, Muhammad Nadeem Abbas, Isma Gul, Yu Liu, Bo-Ping Tang, Iram Maqsood, Qiu-Ning Liu, and Li-Shang Dai

Subjects

Integrins, Insecta, Phagocytosis, Immunology, Immunology and Allergy, Animals, Signal Transduction

Abstract

Integrins are a large group of cell-surface proteins that are classified as transmembrane proteins. Integrins are classified into different types based on sequence variations, leading to structural and functional diversity. They are broadly distributed in animals and have a wide range of biological functions such as cell-to-cell communication, intracellular cytoskeleton organization, cellular signaling, immune responses, etc. Integrins are among the most abundant cell surface proteins in insects, exhibiting their indispensability in insect physiology. Because of their critical biological involvement in physiological processes, they appear to be a novel target for designing effective pest control strategies. In the current literature review, we first discuss the discovery and expression responses of integrins against various types of pathogens. Secondly, we examine the specific biological roles of integrins in controlling microbial pathogens, such as phagocytosis, encapsulation, nodulation, immune signaling, and so on. Finally, we describe the possible uses of integrins to control agricultural insect pests.

Published

2022

23. <scp> 1 H NMR </scp> ‐based metabonomic evaluation of the pesticides camptothecin and matrine against larvae of Spodoptera litura

Author

Ying‐hao Huang, Jing-wei Hu, Li‐shang Dai, Yang Hang, Jia-Ping Xu, Hui‐fei Tian, Chao-wei Wen, Ming-jie Deng, and Bin‐feng Wang

Subjects

0106 biological sciences, endocrine system diseases, Trehalase activity, Spodoptera litura, 01 natural sciences, Malate dehydrogenase, chemistry.chemical_compound, Matrine, Lactate dehydrogenase, Hemolymph, medicine, heterocyclic compounds, neoplasms, biology, fungi, General Medicine, biology.organism_classification, Trehalose, digestive system diseases, 010602 entomology, chemistry, Biochemistry, Insect Science, Agronomy and Crop Science, Camptothecin, 010606 plant biology & botany, medicine.drug

Abstract

Background Camptothecin (CPT) and matrine (MAT) have potential as botanical pesticides against several pest species. However, the mechanisms of metabolic and physiological changes in pests induced by CPT and MAT are unknown. In this study, a toxicological test, an NMR-based metabolomic study, an enzymatic test, and an RT quantitative PCR (RT-qPCR) experiment were all conducted to examine the effect of CPT and MAT on Spodoptera litura. Results CPT (0.5-1%) exerted high toxicity against larvae of S. litura and caused growth stagnation and high mortality of larvae. A variety of metabolites were significantly influenced by 0.5% CPT, including several energy-related metabolites such as trehalose, lactate, succinate, citrate, malate, and fumarate. In contrast, MAT showed low toxicity against larvae and induced almost no changes in hemolymph metabolites of S. litura. Enzymatic tests showed that trehalase activity was significantly decreased in larvae after feeding with 0.5% CPT. RT-qPCR showed that the transcription levels of alanine aminotransferase, malate dehydrogenase, and isocitrate dehydrogenase were decreased while lactate dehydrogenase was increased in the 0.5% CPT-treated group. Conclusions These data indicate that one of the important mechanisms of CPT against S. litura larvae is via the inhibition of trehalose hydrolysis and glycolysis. Our findings also suggest that CPT exhibits a stronger toxicological effect than MAT against S. litura, which provides basic information for the application of CPT in the control of S. litura or other lepidoptera pests.

Published

2020

24. Identification and immunoregulatory role of cathepsin A in the red swamp crayfish, Procambarus clarkii

Author

Zhang Ye, Huang Long, Wu Benli, He Jixiang, Li-Shang Dai, and Chen Jing

Subjects

Cathepsin A, Astacoidea, 02 engineering and technology, Biology, Biochemistry, 03 medical and health sciences, Immune system, Structural Biology, RNA interference, Animals, Immunologic Factors, Amino Acid Sequence, Molecular Biology, 030304 developmental biology, Cathepsin, Procambarus clarkii, 0303 health sciences, Gene knockdown, Innate immune system, Base Sequence, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, Cell biology, Gene Expression Regulation, Hepatopancreas, 0210 nano-technology

Abstract

Cathepsins are a group of lysosomal hydrolytic enzymes, broadly distributed in animals, and regulate various physiological processes. However, the immune functions of cathepsins are poorly understood in invertebrates. Therefore, to further provide information about the importance of cathepsins in the innate immune system of crustaceans, cathepsin A from Procambarus clarkii (Pc-cathepsin A) was characterized and its distribution in different tissues was determined. The immunological functions of the Pc-cathepsin A were also evaluated. The Pc-cathepsin A showed high sequence homology to cathepsins of other species, as it contained serine and histidine active sites. Quantitative RT-PCR analysis revealed that the expression of Pc-cathepsin A was highest in the gill, gut, and the hepatopancreas, with variable amounts in the muscle, stomach, heart, and hemocytes. The mRNA expression of Pc-cathepsin A was significantly increased in hepatopancreas challenged with lipopolysaccharide (LPS), peptidoglycan (PGN), and polycytidylic acid (poly I:C). The results of an in vivo analysis revealed that Pc-cathepsin A knockdown by double-stranded RNA in P. clarkii modulated the expression of immune-pathway associated genes in hepatopancreas. Collectively, these results suggest that Pc-cathepsin A modulates innate immune responses by affecting the expression of immune-pathway associated genes, thus revealing a regulatory link between Pc-cathepsin A and immune pathways in P. clarkii, and that Pc-cathepsin A plays an essential biological role in the immune defence against microbial pathogens.

Published

2020

25. The red swamp crayfish, Procambarus clarkii cathepsin C, participates in the innate immune response to the viral and bacterial pathogens

Author

Hai-Ling Zhou, Isma Gul, Saima Kausar, Li-Shang Dai, Qiu-Ning Liu, and Muhammad Nadeem Abbas

Subjects

Lipopolysaccharides, 0301 basic medicine, DNA, Complementary, Hepatopancreas, Astacoidea, Aquatic Science, Biology, Cathepsin C, Arthropod Proteins, 03 medical and health sciences, Animals, Environmental Chemistry, Peptide sequence, Phylogeny, Procambarus clarkii, Cathepsin, Innate immune system, Bacteria, Gene Expression Profiling, Bacterial Infections, 04 agricultural and veterinary sciences, General Medicine, Crayfish, biology.organism_classification, Cysteine protease, Immunity, Innate, Open reading frame, Poly I-C, 030104 developmental biology, Biochemistry, Virus Diseases, Viruses, 040102 fisheries, 0401 agriculture, forestry, and fisheries

Abstract

The cathepsin C, a lysosomal cysteine protease, involves the modulation of immune and inflammatory responses in living organisms. However, the knowledge on cathepsin C in red swamp crayfish (Procambarus clarkii), a freshwater crustacean with economic values, remained unclear. In the present study, we provide identification and molecular characterization of cathepsin C from P. clarkii. (Hereafter Pc-cathepsin C). The Pc-cathepsin C cDNA contained a 1356 bp open reading frame that encoded a protein of 451 amino acid residues. The deduced amino acid sequence comprised of cathepsin C exclusion domain and pept_C1 domain, and also catalytic residues (Cys248, His395 and Asn417). Analysis of the transcriptional patterns of the Pc-cathepsin C gene revealed that it was broadly distributed in various tissues of P. clarkii, and it was more abundant in the hepatopancreas and gut. Following a challenge with viral and bacterial pathogen-associated molecular patterns, the expression of Pc-cathepsin C was strongly enhanced at different time points. The knockdown of Pc-cathepsin C, altered the expression of immune-responsive genes, suggesting its immunoregulatory role in P. clarkii. This study has identified and provided the immunoregulatory function of Pc-cathepsin C, which will contribute to further investigation of the molecular mechanism of cathepsin C in crustaceans.

Published

2020

26. Functionalized Gold and Silver Bimetallic Nanoparticles Using Deinococcus radiodurans Protein Extract Mediate Degradation of Toxic Dye Malachite Green

Author

Yulan Weng, Jiulong Li, Ding Xingcheng, Yuejin Hua, Renjiang Pang, Hong Xu, Ye Zhao, Yulong Zhou, Shang Dai, Binqiang Wang, and Bing Tian

Subjects

Biophysics, Pharmaceutical Science, Nanoparticle, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Nanomaterials, Biomaterials, chemistry.chemical_compound, Drug Discovery, Benzophenone, Malachite green, Bimetallic strip, biology, Organic Chemistry, Deinococcus radiodurans, General Medicine, Biodegradation, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, chemistry, Degradation (geology), 0210 nano-technology, Nuclear chemistry

Abstract

Background Biodegradation of toxic organic dye using nanomaterial-based microbial biocatalyst is an ecofriendly and promising technique. Materials and Methods Here, we have investigated the novel properties of functionalized Au-Ag bimetallic nanoparticles using extremophilic Deinococcus radiodurans proteins (Drp-Au-AgNPs) and their degradation efficiency on the toxic triphenylmethane dye malachite green (MG). Results and Discussion The prepared Drp-Au-AgNPs with an average particle size of 149.8 nm were capped by proteins through groups including hydroxyl and amide. Drp-Au-AgNPs demonstrated greater degradation ability (83.68%) of MG than D. radiodurans cells and monometallic AuNPs. The major degradation product was identified as 4-(dimethylamino) benzophenone, which is less toxic than MG. The degradation of MG was mainly attributed to the capping proteins on Drp-Au-AgNPs. The bimetallic NPs could be reused and maintained MG degradation ability (>64%) after 2 cycles. Conclusion These results suggest that the easily prepared Drp-Au-AgNPs have potential applications as novel nanomedicine for MG detoxification, and nanomaterial for biotreatment of a toxic polyphenyl dye-containing wastewater.

Published

2020

27. An alanine to valine mutation of glutamyl-tRNA reductase enhances 5-aminolevulinic acid synthesis in rice

Author

Meng Jiang, Shang Dai, Yun-Chao Zheng, Rui-Qing Li, Yuan-Yuan Tan, Gang Pan, Ian Max Møller, Shi-Yong Song, Jian-Zhong Huang, and Qing-Yao Shu

Subjects

Molecular Docking Simulation, Alanine, Arabidopsis Proteins, Mutation, Genetics, Arabidopsis, Oryza, Valine, General Medicine, Aminolevulinic Acid, Agronomy and Crop Science, Aldehyde Oxidoreductases, Biotechnology

Abstract

Key message: An alanine to valine mutation of glutamyl-tRNA reductase’s 510th amino acid improves 5-aminolevulinic acid synthesis in rice. Abstract: 5-aminolevulinic acid (ALA) is the common precursor of all tetrapyrroles and plays an important role in plant growth regulation. ALA is synthesized from glutamate, catalyzed by glutamyl-tRNA synthetase (GluRS), glutamyl-tRNA reductase (GluTR), and glutamate-1-semialdehyde aminotransferase (GSAT). In Arabidopsis, ALA synthesis is the rate-limiting step in tetrapyrrole production via GluTR post-translational regulations. In rice, mutations of GluTR and GSAT homologs are known to confer chlorophyll deficiency phenotypes; however, the enzymatic activity of rice GluRS, GluTR, and GSAT and the post-translational regulation of rice GluTR have not been investigated experimentally. We have demonstrated that a suppressor mutation in rice partially reverts the xantha trait. In the present study, we first determine that the suppressor mutation results from a G → A nucleotide substitution of OsGluTR (and an A → V change of its 510th amino acid). Protein homology modeling and molecular docking show that the OsGluTRA510V mutation increases its substrate binding. We then demonstrate that the OsGluTRA510V mutation increases ALA synthesis in Escherichia coli without affecting its interaction with OsFLU. We further explore homologous genes encoding GluTR across 193 plant species and find that the amino acid (A) is 100% conserved at the position, suggesting its critical role in GluTR. Thus, we demonstrate that the gain-of-function OsGluTRA510V mutation underlies suppression of the xantha trait, experimentally proves the enzymatic activity of rice GluRS, GluTR, and GSAT in ALA synthesis, and uncovers conservation of the alanine corresponding to the 510th amino acid of OsGluTR across plant species.

Published

2022

28. Mitochondrial genome of the yellow catfish Pelteobagrus fulvidraco and insights into Bagridae phylogenetics

Author

Li-Shang Dai, Zhang Huabin, Pei-Dong Wu, Qiu-Ning Liu, Dai-Zhen Zhang, Bo-Ping Tang, and Yu Liu

Subjects

Fish Proteins, 0106 biological sciences, 0303 health sciences, Mitochondrial DNA, biology, Phylogenetic tree, biology.organism_classification, Pelteobagrus, 01 natural sciences, 03 medical and health sciences, Monophyly, RNA, Transfer, Bagridae, RNA, Ribosomal, Evolutionary biology, Molecular evolution, Phylogenetics, Genome, Mitochondrial, Genetics, Animals, Catfishes, Phylogeny, 030304 developmental biology, 010606 plant biology & botany, Catfish

Abstract

The mitochondrial genome (mitogenome) can provide important information for understanding phylogenetic analysis and molecular evolution . Herein, we amplified the complete mitogenome sequence of Pelteobagrus fulvidraco . The mitogenome was 16,526 bp in length and included 13 protein-coding genes (PCGs), 22 transfer RNA genes , two ribosomal RNA genes and a non-coding control region (D-loop). Both the organization and location of genes in the mitogenome were consistent with those from Siluriformes fishes previously published in GenBank . The phylogenetic relationships based on Bayesian inference (BI) and Maximum likelihood (ML) methods showed that P. fulvidraco has close relationships with Pelteobagrus eupogon and Tachysurus intermedius, suggesting that P. fulvidraco belongs to Tachysurus. This study provides evidence that Tachysurus, Pseudobagrus and Leiocassis do not form monophyly , but that these three genera form a monophyletic group. Our results provide reference for further phylogenetic research of the Bagridae species.

Published

2019

29. Characterization and expression analysis of immune-related genes in the red swamp crayfish, Procambarus clarkii in response to lipopolysaccharide challenge

Author

Dong Wang, Jia-Lian Wang, Zhen-Qiu Gao, Bo-Ping Tang, Ting-Ting Yang, Dai-Zhen Zhang, Ting Jiao, Qiu-Ning Liu, and Li-Shang Dai

Subjects

Lipopolysaccharides, 0301 basic medicine, Lipopolysaccharide, Astacoidea, Aquatic Science, Ribosome, 03 medical and health sciences, chemistry.chemical_compound, Immune system, Animals, Environmental Chemistry, KEGG, Gene, Genetics, Procambarus clarkii, biology, Gene Expression Profiling, High-Throughput Nucleotide Sequencing, 04 agricultural and veterinary sciences, General Medicine, Crayfish, biology.organism_classification, Gene Ontology, 030104 developmental biology, chemistry, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Hepatopancreas, Transcriptome

Abstract

To learn more about red swamp crayfish related genes in response to bacterial infections, we investigated immune-related genes induced by lipopolysaccharide (LPS) in the hepatopancreas using high-throughput sequencing method. In present the study, a total of 55,107 unigenes were identified, with an average length of 678 bp. A total of 2215 differentially expressed genes (DEGs) were found, including 669 up-regulated genes and 1546 down-regulated genes. The result of Gene ontology (GO) analysis revealed that 3017 DEGs were enriched in 19 biological process subcategories, 17 cellular component subcategories and 15 molecular function subcategories. The top 20 Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways showed that "ribosome" was the most abundant group, which had 34 DEGs. KEGG enrichment analysis identified several immune response pathways. Real-time quantitative reverse transcription-PCR (qRT-PCR) results exhibited that several immune responsive genes were greatly up-regulated following LPS stimulation as observed in the results of high-throughput sequencing. Overall, this study provides new insight into the immune defense mechanisms of P. clarkii against LPS infection.

Published

2019

30. A non-mammalian Toll-like receptor 26 (TLR26)gene mediates innate immune responses in yellow catfish Pelteobagrus fulvidraco

Author

Ting-Ting Yang, Bao-Ming Ge, Jia-Lian Wang, Bo-Ping Tang, Jiang Senhao, Cheng Wang, Dong Wang, Qiu-Ning Liu, Dai-Zhen Zhang, and Li-Shang Dai

Subjects

Lipopolysaccharides, 0301 basic medicine, Signal peptide, Lipopolysaccharide, Aquatic Science, Biology, Fish Diseases, 03 medical and health sciences, chemistry.chemical_compound, Immune system, Downregulation and upregulation, Animals, Environmental Chemistry, RNA, Messenger, Cloning, Molecular, Receptor, Catfishes, Toll-like receptor, Innate immune system, Gene Expression Profiling, Toll-Like Receptors, 04 agricultural and veterinary sciences, General Medicine, Molecular biology, Immunity, Innate, Open reading frame, Poly I-C, 030104 developmental biology, Gene Expression Regulation, chemistry, 040102 fisheries, 0401 agriculture, forestry, and fisheries

Abstract

In this study, we identified a fish-specific Toll-like receptor (TLR) in Pelteobagrus fulvidraco, an economically important freshwater fish in China. This TLR, PfTLR26, was shown to be encoded by a 3084 bp open reading frame (ORF), producing a polypeptide 1027 amino acids in length. The PfTLR26 protein contains a signal peptide, eight leucine-rich repeat (LRR) domains, two LRR_TYP domains in the extracellular region, and a Toll/interleukin (IL)-1 receptor (TIR) domain in the cytoplasmic region, consistent with the characteristic TLR domain architecture. This predicted 117.1 kDa protein was highly homologous to those of other fish, with phylogenetic analysis revealing the closest relation to TLR26 of Ictalurus punctatus. Real-time quantitative reverse transcription-PCR (qRT-PCR) analysis showed that the PfTLR26 gene was expressed in all tissues tested, with the highest expression levels seen in the head kidney and blood, and the lowest seen in muscle. PfTLR26 exhibited significant upregulation in liver, spleen, head kidney, and blood at different time points following challenge with the common TLR agonists lipopolysaccharide (LPS) and polyriboinosinic polyribocytidylic acid (Poly I:C). Taken together, these results suggest that PfTLR26 may be an important component of the P. fulvidraco innate immune system, participating in the transduction of TLR signaling under pathogen stimulation.

Published

2019

31. Distinct lipid membrane interaction and uptake of differentially charged nanoplastics in bacteria

Author

Shang Dai, Rui Ye, Jianxiang Huang, Binqiang Wang, Zhenming Xie, Xinwen Ou, Ning Yu, Cheng Huang, Yuejin Hua, Ruhong Zhou, and Bing Tian

Subjects

Membrane Lipids, Microplastics, Biomedical Engineering, Escherichia coli, Pharmaceutical Science, Molecular Medicine, Medicine (miscellaneous), Humans, Nanoparticles, Polystyrenes, Bioengineering, Applied Microbiology and Biotechnology, Ecosystem

Abstract

Background Nanoplastics have been recently found widely distributed in our natural environment where ubiquitously bacteria are major participants in various material cycles. Understanding how nanoplastics interact with bacterial cell membrane is critical to grasp their uptake processes as well as to analyze their associated risks in ecosystems and human microflora. However, little is known about the detailed interaction of differentially charged nanoplastics with bacteria. The present work experimentally and theoretically demonstrated that nanoplastics enter into bacteria depending on the surface charges and cell envelope structural features, and proved the shielding role of membrane lipids against nanoplastics. Results Positively charged polystyrene nanoplastics (PS-NH2, 80 nm) can efficiently translocate across cell membranes, while negatively charged PS (PS-COOH) and neutral PS show almost no or much less efficacy in translocation. Molecular dynamics simulations revealed that the PS-NH2 displayed more favourable electrostatic interactions with bacterial membranes and was subjected to internalisation through membrane penetration. The positively charged nanoplastics destroy cell envelope of Gram-positive B. subtilis by forming membrane pore, while enter into the Gram-negative E. coli with a relatively intact envelope. The accumulated positively charged nanoplastics conveyed more cell stress by inducing a higher level of reactive oxygen species (ROS). However, the subsequently released membrane lipid-coated nanoplastics were nearly nontoxic to cells, and like wise, stealthy bacteria wrapped up with artifical lipid layers became less sensitive to the positively charged nanoplastics, thereby illustrating that the membrane lipid can shield the strong interaction between the positively charged nanoplastics and cells. Conclusions Our findings elucidated the molecular mechanism of nanoplastics’ interaction and accumulation within bacteria, and implied the shielding and internalization effect of membrane lipid on toxic nanoplastics could promote bacteria for potential plastic bioremediation. Graphical Abstract

Published

2021

32. Real-time Carbon Flow Algorithm of Electrical Power Systems Based on Network Power Decomposition

Author

Zhaoyang Yan, Ting Zhou, Hao Zhang, Shang Dai, Xiao Li, and Chaoqun Wang

Published

2021

33. Vertical profiles of O3, NO2 and PM in a major fine chemical industry park in the Yangtze River Delta of China detected by a sensor package on an unmanned aerial vehicle

Author

Lang Chen, Xiaobing Pang, Jingjing Li, Bo Xing, Taicheng An, Kaibin Yuan, Shang Dai, Zhentao Wu, Shuaiqi Wang, Qiang Wang, Yiping Mao, and Jianmeng Chen

Subjects

Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal

Published

2022

34. Identification and molecular characterization of a novel anti-lipopolysaccharide factor (ALF) from red swamp crayfish, Procambarus clarkii

Author

Muhammad Nadeem Abbas, Juan-Juan Zhu, Guang-Heng Xiang, Saima Kausar, Xing-Yi Qian, Chang-Sheng Li, Li-Shang Dai, and Zhi-Ze Ye

Subjects

Signal peptide, Staphylococcus aureus, Astacoidea, 02 engineering and technology, Biochemistry, Arthropod Proteins, 03 medical and health sciences, chemistry.chemical_compound, Structural Biology, RNA interference, Escherichia coli, Animals, Amino Acid Sequence, Molecular Biology, Gene, 030304 developmental biology, Procambarus clarkii, 0303 health sciences, Base Sequence, biology, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, Anti-Bacterial Agents, Protein Transport, Gene Expression Regulation, chemistry, Polyclonal antibodies, biology.protein, Hepatopancreas, Peptidoglycan, 0210 nano-technology, Binding domain

Abstract

Anti-lipopolysaccharide factors are a group of small proteins with broad spectrum antiviral property and antibacterial activity. Herein, we obtained the genomic sequence of the Procambarus clarkii anti-lipopolysaccharide factor (PcALF) gene by using polymerase chain reaction to investigate its expression pattern in various tissues and in the immune tissues (Hepatopancreas) following exposure to pathogens. The deduced protein of PcALF was conserved; it displayed the signal peptides and putative lipo-polysaccharide binding domain, particularly the two conserved cysteine amino acid residues at both ends of the domain. The recombinant protein of PcALF was successfully expressed in Escherichia coli and rabbit anti-PcALF polyclonal antibodies were prepared. The qRT-PCR analysis showed unequal distribution of PcALF transcript in the examined tissues, however the transcript level was greatest in hepatopancreas. The challenge with peptidoglycan (PGN), lipo-polysaccharide (LPS) and Poly I:C significantly enhanced expression level of PcALF in hepatopancreas when compared with the PBS control. RNA interference of PcALF affected the mRNA expression levels of immune-related genes. Taken together, our data suggested that PcALF is an inducible protein and could play a key biological role in the innate immune defense of P. clarkii.

Published

2019

35. Peroxiredoxin 6 modulates Toll signaling pathway and protects DNA damage against oxidative stress in red swamp crayfish (Procambarus clarkii)

Author

Zhi-Ze Ye, Li-Shang Dai, Yan-Yan Li, Shenghui Chu, Muhammad Nadeem Abbas, Min Liu, Xing-Yi Qian, Xiao-Min Yu, Saima Kausar, Li Liu, and Xiaokun Li

Subjects

0301 basic medicine, Toll signaling pathway, DNA damage, Astacoidea, Peptidoglycan, Aquatic Science, Biology, medicine.disease_cause, Chromatography, Affinity, Arthropod Proteins, law.invention, 03 medical and health sciences, law, medicine, Animals, Environmental Chemistry, Amino Acid Sequence, Phylogeny, Procambarus clarkii, Messenger RNA, Gene knockdown, Base Sequence, DNA, Superhelical, Gene Expression Profiling, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Immunity, Innate, Recombinant Proteins, Cell biology, Oxidative Stress, Poly I-C, 030104 developmental biology, Gene Expression Regulation, 040102 fisheries, Recombinant DNA, 0401 agriculture, forestry, and fisheries, Peroxiredoxin, Sequence Alignment, Oxidative stress, DNA Damage, Peroxiredoxin VI

Abstract

Peroxiredoxin 6 (Prx6) is an important member of the peroxiredoxin family that plays critical roles in protecting host against the toxicity of oxidative stress and participates in cell signaling. Herein, we report Prx6 gene from red swamp crayfish, Procambarus clarkii. The cDNA fragment of PcPrx6 was 660 bp, encoding a 219 amino acid residues protein. The quantitative real time PCR analysis showed ubiquitous expression of PcPrx6 mRNA in the tested tissues. The challenge with peptidoglycan and Poly I:C remarkably suppressed the mRNA level of PcPrx6 in hepatopancreas at 3, 12, 48 h compared with the PBS control. However, the expression level significantly increased after 36 h of their treatment. The knockdown of PcPrx6 by small interference RNA significantly enhanced the transcript levels of Toll pathway-responsive genes at 24 h. Recombinant PcPrx6 protein was purified using affinity chromatography and analyzed for its biological role. The results revealed that the recombinant PcPrx6 protein manifested the ability to protect supercoiled DNA damage from oxidative stress elicited by mixed function oxidative assay. Altogether, PcPrx6 may have multiple functional roles in the physiology of P. clarkii, since it negatively regulates the Toll signaling transduction and protects supercoiled DNA damage from oxidative stress.

Published

2019

36. A myeloid differentiation factor 88 gene from yellow catfish Pelteobagrus fulvidraco and its molecular characterization in response to polyriboinosinic polyribocytidylic acid and lipopolysaccharide challenge

Author

Dai-Zhen Zhang, Xiao-Hua Chu, Qiu-Ning Liu, Xiao-Ming Zhao, Jiang Senhao, Chun-Lin Zhou, Bo-Ping Tang, Li-Shang Dai, and Yu Liu

Subjects

Lipopolysaccharides, 0301 basic medicine, Untranslated region, Biology, Biochemistry, 03 medical and health sciences, Immune system, Structural Biology, Complementary DNA, Animals, Tissue Distribution, Amino Acid Sequence, Cloning, Molecular, Molecular Biology, Catfishes, Phylogeny, Innate immune system, 030102 biochemistry & molecular biology, General Medicine, biology.organism_classification, Molecular biology, Open reading frame, Poly I-C, 030104 developmental biology, Ictalurus, Myeloid Differentiation Factor 88, Catfish

Abstract

Myeloid differentiation factor 88 (MyD88) is an adaptor protein of Toll-like receptor (TLR) signalling pathways that activates the innate immune system. Herein, MyD88 was identified in the economically important freshwater fish Pelteobagrus fulvidraco. The complete 2156 bp PfMyD88 cDNA includes a 147 bp 5′-untranslated region (UTR), a 1133 bp 3′-UTR, and an open reading frame (ORF) of 876 bp encoding a 291 residue protein containing Death and Toll/interleukin-1 receptor (TIR) domains. The deduced protein sequence shares 88.8%, 73.8% and 59.3% identity with orthologs in Ictalurus punctatus, Danio rerio and Homo sapiens, respectively. qRT-PCR revealed expression in all tested tissues, highest in trunk kidney, followed by spleen, and lowest in muscle. After challenge with lipopolysaccharide (LPS) or polyriboinosinic polyribocytidylic acid (Poly I:C), PfMyD88 expression was up-regulated in blood, liver, head kidney and spleen. Thus, PfMyD88 acts in innate immunity in P. fulvidraco.

Published

2018

37. Dynamic Polyphosphate Metabolism Coordinating with Manganese Ions Defends against Oxidative Stress in the Extreme Bacterium Deinococcus radiodurans

Author

Yuejin Hua, Yulong Zhou, Zhenming Xie, Bing Tian, Binqiang Wang, Shang Dai, Jie Zhao, and Ning Yu

Subjects

Physiology, Oxidative phosphorylation, medicine.disease_cause, Applied Microbiology and Biotechnology, Cofactor, Extremophiles, 03 medical and health sciences, Polyphosphates, medicine, 030304 developmental biology, Exopolyphosphatase, Ions, Manganese, 0303 health sciences, Ecology, biology, 030306 microbiology, Chemistry, Kinase, Deinococcus radiodurans, Metabolism, biology.organism_classification, Oxidative Stress, Biochemistry, biology.protein, Deinococcus, Intracellular, Oxidative stress, Food Science, Biotechnology

Abstract

Deinococcus radiodurans is an extreme bacterium with unparalleled resistance to oxidative stresses. Accumulation of intracellular Mn(2+) complexing with small metabolites is the key contributor to the tolerance of D. radiodurans against oxidative stress. However, the intracellular reservoir of Mn ions and homeostatic regulation of the Mn complex in D. radiodurans remain unclear. We identified an evolutionarily ancient and negatively charged phosphate polymer (polyphosphate [PolyP]) in D. radiodurans. We investigated PolyP metabolism in the response of D. radiodurans to oxidative stress. The genes dr1939, encoding polyphosphatase kinase (PPK(Dr); the subscript “Dr” refers to D. radiodurans), and dra0185, encoding exopolyphosphatase (PPX(Dr)), were identified. PPX(Dr) is a novel exopolyphosphatase with a cofactor preference to Mn(2+), which enhances the dimerization and activity of PPX(Dr) to allow the effective cleavage of PolyP-Mn. PPK(Dr) and PPX(Dr) exhibited different dynamic expression profiles under oxidative stress. First, ppk(Dr) was upregulated leading to the accumulation of PolyP, which chelated large amounts of intracellular Mn ions. Subsequently, the expression level of ppk(Dr) decreased while ppx(Dr) was substantially upregulated and effectively hydrolyzed inactive PolyP-Mn to release phosphate (Pi) and Mn(2+), which could form into Mn-Pi complexes to scavenge O(2)(−) and protect proteins from oxidative damage. Hence, dynamic cellular PolyP metabolites complexed with free Mn ions highlight a defense strategy of D. radiodurans in response to oxidative stress. IMPORTANCE The Mn-phosphate complex (Mn-Pi) plays a key role in the cellular resistance of radioresistant bacteria. The evolutionarily ancient polyphosphate polymers (polyphosphate [PolyP]) could effectively chelate Mn(2+) and donate phosphates. However, the intracellular reservoir of Mn ions and homeostatic regulation of the Mn-Pi complex remain unclear. Here, we investigated the relationship of PolyP metabolites and Mn(2+) homeostasis and how they function to defend against oxidative stress in the radioresistant bacterium Deinococcus radiodurans. We found that PPX(Dr) (the subscript “Dr” refers to D. radiodurans) is a novel exopolyphosphatase with a cofactor preference for Mn(2+), mediating PolyP-Mn degradation into Pi and Mn ions. The formed Mn-Pi complexes effectively protect proteins. The dynamic PolyP metabolism coordinating with Mn ions is a defense strategy of D. radiodurans in response to oxidative stress. The findings not only provide new insights into the resistance mechanism of the extreme bacterium D. radiodurans but also broaden our understanding of the functions of PolyP metabolism in organisms.

Published

2021

38. Study on the evolution of microstructure and mechanical properties of lean duplex stainless steel 2101 with 60 GPa% PSE prepared using a short process

Author

Xinghai Zhang, Jingyuan Li, Wangzhong Mu, Jinbo Gu, Shang Dai, and Zhengxiang Zhao

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science, Condensed Matter Physics

Published

2022

39. Chitinase involved in immune regulation by mediated the toll pathway of crustacea Procambarus clarkii

Author

Li-Shang Dai, Sheng Hui Chu, Min Liu, Chen Chen, Jia-Le Chen, Qi-Cheng Wu, and Qiu-Ning Liu

Subjects

0301 basic medicine, Astacoidea, Aquatic Science, Arthropod Proteins, 03 medical and health sciences, Immune system, Immunity, Environmental Chemistry, Animals, Amino Acid Sequence, Gene, Phylogeny, Procambarus clarkii, Gene knockdown, Innate immune system, biology, Base Sequence, Gene Expression Profiling, Chitinases, Toll-Like Receptors, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Immunity, Innate, Cell biology, 030104 developmental biology, Gene Expression Regulation, Chitinase, 040102 fisheries, biology.protein, 0401 agriculture, forestry, and fisheries, Hepatopancreas, Sequence Alignment

Abstract

Chitinase can degrade chitin and play an essential role in animal immunity and plant defense. The immune functions of Chitinase in Procambarus clarkii (P. clarkii) remain to elucidate. Here, we identified PcChitinase 2 gene sequence from P. clarkii and studied its spatial and temporal expression profiles. The PcChitinase 2 transcribed unequally in different tissues; however, its expression was highest in those of stomach, gut, and hepatopancreas. The challenge with lipolysaccharide or peptidoglycan significantly up-regulated the expression of PcChitinase 2 in hepatopancreas. The knockdown of the PcChitinase 2 gene by double-stranded RNA suppressed most of the Toll-pathway-related immune genes (phospholipase, lectin, sptazle Cactus, serine proteikinase, anti-lipopolysaccharide factor, and Toll) production were significantly increased. Our results suggest PcChitinase 2 may be involved in the innate immune responses of P. clarkii by modulating the toll pathway.

Published

2020

40. Late embryogenesis abundant group3 protein (DrLEA3) is involved in antioxidation in the extremophilic bacterium Deinococcus radiodurans

Author

Huizhi Lu, Yuejin Hua, Hong Xu, Ye Zhao, Kaixuan Gao, Jingli Dai, Miao Guo, Shang Dai, Liangyan Wang, Tao Yao, Bing Tian, and Congli Zhou

Subjects

DNA Repair, DNA repair, DNA damage, Embryonic Development, Gene Expression, medicine.disease_cause, Microbiology, Radiation Tolerance, Antioxidants, Desiccation tolerance, 03 medical and health sciences, Extremophiles, Gene Knockout Techniques, medicine, Homeostasis, Deinococcus, 030304 developmental biology, Plant Proteins, Metal ion homeostasis, 0303 health sciences, Manganese, biology, 030306 microbiology, Deinococcus radiodurans, Hydrogen Peroxide, biology.organism_classification, Cell biology, Oxidative Stress, Intracellular, Oxidative stress, DNA Damage

Abstract

Deinococcus radiodurans is able to survive under extreme conditions, including high doses of ionizing radiation, desiccation and oxidative stress. In addition to enhanced DNA repair capabilities, an effective antioxidation system plays an important role in its robustness. Previous studies have linked the radiation resistance of D. radiodurans to its prolonged desiccation tolerance phenotype, which both cause DNA damage. In the current study, we investigated the roles of dr_1172 in D. radiodurans, the gene encoding a typical group 3 LEA protein (DrLEA3) conserved within Deinococcus species. In addition to the increased transcriptional level under oxidative stress, the inactivation of dr_1172-sensitized cells to H2O2 treatments and the reduced cellular antioxidation activities suggested that dr_1172 is involved in the cellular defense against oxidative stress. Moreover, DrLEA3 was enriched at the cell membrane and bound to various types of metal ions. Cells devoid of DrLEA3 showed a decreased intracellular Mn/Fe concentration ratio, indicating that DrLEA3 also plays a role in maintaining metal ion homeostasis in vivo.

Published

2020

41. Author Correction: Characterization of the Complete Mitochondrial Genome of Leucoma salicis (Lepidoptera: Lymantriidae) and Comparison with Other Lepidopteran Insects

Author

Guoqing Wei, Li-Shang Dai, Chao-Liang Liu, Yu Sun, Muhammad Nadeem Abbas, Cen Qian, Yu-Xuan Sun, Lei Wang, and Baojian Zhu

Subjects

Mitochondrial DNA, lcsh:Medicine, Moths, DNA, Mitochondrial, Lepidoptera genitalia, Open Reading Frames, RNA, Transfer, Animals, lcsh:Science, Author Correction, Phylogeny, Genetics, Likelihood Functions, Multidisciplinary, Leucoma salicis, biology, Base Sequence, lcsh:R, Bayes Theorem, Sequence Analysis, DNA, biology.organism_classification, Lepidoptera, RNA, Ribosomal, Genome, Mitochondrial, Codon, Terminator, Nucleic Acid Conformation, lcsh:Q

Abstract

The complete mitochondrial genome (mitogenome) of Leucoma salicis (Lepidoptera: Lymantriidae) was sequenced and annotated. It is a circular molecule of 15,334 bp, containing the 37 genes usually present in insect mitogenomes. All protein-coding genes (PCGs) are initiated by ATN codons, other than cox1, which is initiated by CGA. Three of the 13 PCGs had an incomplete termination codon, T or TA, while the others terminated with TAA. The relative synonymous codon usage of the 13 protein-coding genes (PCGs) was consistent with those of published lepidopteran sequences. All tRNA genes had typical clover-leaf secondary structures, except for the tRNA

Published

2020

42. Heat shock protein 20 from Procambarus clarkii is involved in the innate immune responses against microbial infection

Author

Cheng-Chun Chen, Xiao-Xiao Yao, Chang-Sheng Li, Saima Kausar, Li-Shang Dai, Isma Gul, Muhammad Nadeem Abbas, and Meng-Yi Li

Subjects

0301 basic medicine, Immunology, Hepatopancreas, Astacoidea, Infections, Arthropod Proteins, 03 medical and health sciences, Immune system, Protein Domains, Stress, Physiological, Heat shock protein, Animals, HSP20 Heat-Shock Proteins, alpha-Crystallins, Cloning, Molecular, Gene, Phylogeny, RNA, Double-Stranded, Procambarus clarkii, Innate immune system, biology, fungi, RNA, 04 agricultural and veterinary sciences, biology.organism_classification, Immunity, Innate, Cell biology, Open reading frame, 030104 developmental biology, 040102 fisheries, 0401 agriculture, forestry, and fisheries, Transcriptome, Sequence Alignment, Developmental Biology

Abstract

Small heat shock proteins (shsps) are conserved across invertebrate species. They are implicated in the modulation of various biological processes, such as immune responses, abiotic stress tolerance metamorphosis, and embryonic development. Herein, we identified a heat shock protein 20 from the red swamp crayfish, Procambarus clarkii (named as Pc-Hsp20), and performed in vivo studies to elucidate its physiological functions in the innate immunity. The open reading frame of Pc-Hsp20 was 609 base pair, encoding a protein of 202 amino acid residues with a hsp20/alpha crystallin family domain. Pc-Hsp20 was ubiquitously expressed in various tissues; however, it was highest in the hepatopancreas. The challenge with immune elicitors remarkably enhanced the transcript level of Pc-Hsp20 in the hepatopancreas when compared with the control. Administration of double-stranded RNA could significantly reduce expression of the Pc-Hsp20 mRNAs, and most of the immune-related genes expression enhanced with a variable concentration in the hepatopancreas. Altogether, these results suggest that Pc-Hsp20 may participate in innate immunity against microbial pathogens.

Published

2020

43. Characterization and expression analysis of differentially expressed genes in the red swamp crayfish Procambarus clarkii in response to Vibrio cholerae challenge

Author

Qiu-Ning Liu, Dai-Zhen Zhang, Ying-Yu Tang, Yue-Tian Li, Hui Yang, Si-Pei Zhang, Jiang Senhao, Gang Wang, Li-Shang Dai, and Bo-Ping Tang

Subjects

Procambarus clarkii, Phagocytosis, Aquatic Science, Biology, biology.organism_classification, medicine.disease_cause, Crayfish, Microbiology, Transcriptome, Immune system, Vibrio cholerae, medicine, Hepatopancreas, Pathogen

Abstract

Procambarus clarkii is an important freshwater aquaculture species. One of the most serious diseases in P. clarkii is rotten shell disease. However, there is few report about the immune response of P. clarkii hepatopancreas to Vibrio cholerae. Using transcriptome analysis, this research investigated the immunological response of P. clarkii to V. cholerae at the gene expression level. It was found that 44,043,166 cleaning readings were present in the treatment group. A total of 34,237 unigenes were discovered, with a mean length of 1507. Moreover, 360 unigenes were found to have significantly altered expression, with 102 of them being considerably up-regulated. According to further annotation and analysis, it was found that DEGs are rich in Glutathione metabolism, Lysosome, Phagosome, Apoptosis, Adherens junction, and Leukocyte transient migration. These pathways are mostly associated with antioxidants, phagocytosis, and pathogen clearance. Furthermore, quantitative real time-PCR (qRT-PCR) confirmed the up-regulation of immune defense genes of DEGs, which supported the RNA-seq data. This study may serve as a foundation for future research on the immunological response of P. clarkii, as well as provide recommendations for P. clarkii against V. cholerae infection.

Published

2022

44. Essential role of the peroxiredoxin 4 in Procambarus clarkii antioxidant defense and immune responses

Author

Muhammad Nadeem Abbas, Chang-Sheng Li, Saima Kausar, Tian-Tian Wang, Sheng-Hui Chu, Li-Shang Dai, and Xiao-Min Yu

Subjects

Lipopolysaccharides, 0301 basic medicine, Lipopolysaccharide, Aquatic Science, medicine.disease_cause, Arthropod Proteins, Microbiology, Random Allocation, 03 medical and health sciences, chemistry.chemical_compound, Penaeidae, Complementary DNA, medicine, Animals, Environmental Chemistry, Amino Acid Sequence, Phylogeny, Procambarus clarkii, Peroxiredoxin-4, Oxidase test, Base Sequence, 030102 biochemistry & molecular biology, biology, Gene Expression Profiling, Peroxiredoxins, General Medicine, biology.organism_classification, Immunity, Innate, Recombinant Proteins, Poly I-C, 030104 developmental biology, Gene Expression Regulation, chemistry, Hepatopancreas, Peroxiredoxin, Sequence Alignment, Oxidative stress

Abstract

Peroxiredoxin (Prx) family members play a key role in host defense against oxidative stress, and modulate immune responses following microbial infection. Here, we cloned and characterized Procambarus clarkii Prx4 (Peroxiredoxin 4) cDNA, a regulator of oxidative stress and its expression analysis upon lipopolysaccharide (LPS) and polyriboinosinic polyribocytidylic acid (Poly I:C) infection. The cDNA fragment of PcPrx4 was 744 bp in length, encoding a putative protein of 248 amino acid residues. Real-time quantitative reverse transcription-PCR (qRT-PCR) analysis showed that the PcPrx4 was expressed in all the examined tissues, and it was highest in the hepatopancreas followed by the hemocytes and gill. The challenge with LPS and Poly I:C significantly up-regulated the expression of PcPrx4 in hepatopancreas, hemocytes and gill when compared with the control. Recombinant PcPrx4 protein was used to investigate the antioxidant function in vitro by mixed-function oxidase assay. The results demonstrated a dose-dependent inhibition of DNA damage by rPcPrx4 protein. Altogether, our results imply that PcPrx4 is implicated in defense against microbial pathogens and oxidants in P. clarkii.

Published

2018

45. Biosynthesis of Au, Ag and Au–Ag bimetallic nanoparticles using protein extracts of Deinococcus radiodurans and evaluation of their cytotoxicity

Author

Shang Dai, Renjiang Pang, Yulan Weng, Bing Tian, Jianjiang Lu, Yuejin Hua, Tao Li, Xiaolin Xu, Jiulong Li, and Ye Jin

Subjects

Biophysics, Pharmaceutical Science, Nanoparticle, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Silver nanoparticle, Biomaterials, Metal, Drug Discovery, Zeta potential, Bimetallic strip, biology, Chemistry, Organic Chemistry, Deinococcus radiodurans, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, 0104 chemical sciences, Colloidal gold, visual_art, visual_art.visual_art_medium, Amine gas treating, 0210 nano-technology, Nuclear chemistry

Abstract

Background Biosynthesis of noble metallic nanoparticles (NPs) has attracted significant interest due to their environmental friendly and biocompatible properties. Methods In this study, we investigated syntheses of Au, Ag and Au-Ag bimetallic NPs using protein extracts of Deinococcus radiodurans, which demonstrated powerful metal-reducing ability. The obtained NPs were characterized and analyzed by various spectroscopy techniques. Results The D. radiodurans protein extract-mediated silver nanoparticles (Drp-AgNPs) were preferably monodispersed and stably distributed compared to D. radiodurans protein extract-mediated gold nanoparticles (Drp-AuNPs). Drp-AgNPs and Drp-AuNPs exhibited spherical morphology with average sizes of 37.13±5.97 nm and 51.72±7.38 nm and zeta potential values of -18.31±1.39 mV and -15.17±1.24 mV at pH 7, respectively. The release efficiencies of Drp-AuNPs and Drp-AgNPs measured at 24 h were 3.99% and 18.20%, respectively. During the synthesis process, Au(III) was reduced to Au(I) and further to Au(0) and Ag(I) was reduced to Ag(0) by interactions with the hydroxyl, amine, carboxyl, phospho or sulfhydryl groups of proteins and subsequently stabilized by these groups. Some characteristics of Drp-AuNPs were different from those of Drp-AgNPs, which could be attributed to the interaction of the NPs with different binding groups of proteins. The Drp-AgNPs could be further formed into Au-Ag bimetallic NPs via galvanic replacement reaction. Drp-AuNPs and Au-Ag bimetallic NPs showed low cytotoxicity against MCF-10A cells due to the lower level of intracellular reactive oxygen species (ROS) generation than that of Drp-AgNPs. Conclusions These results are crucial to understand the biosynthetic mechanism and properties of noble metallic NPs using the protein extracts of bacteria. The biocompatible Au or Au-Ag bimetallic NPs are applicable in biosensing, bioimaging and biomedicine.

Published

2018

46. Transcriptome analysis of hepatopancraes of Procambarus clarkii challenged with polyriboinosinic polyribocytidylic acid (poly I:C)

Author

Muhammad Nadeem Abbas, Yang Zhou, Li-Shang Dai, and Saima Kausar

Subjects

0301 basic medicine, Hepatopancreas, UniGene, Sequence assembly, Astacoidea, Aquatic Science, Arthropod Proteins, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Immune system, Animals, Environmental Chemistry, KEGG, Procambarus clarkii, Genetics, Innate immune system, biology, Gene Expression Profiling, General Medicine, biology.organism_classification, Poly I-C, 030104 developmental biology, 030220 oncology & carcinogenesis

Abstract

Crustacean hepatopancreas regulates metabolic processes, biogenesis and innate immune processes, and the knowledge on its immune genes are crucial to understand antimicrobial mechanisms. In this study, we reported the transcriptomic profile of Procambarus clarkii hepatopancreas after poly I:C administration using high-throughput sequencing. Following de novo assembly 56,716 unigene sequences with an average length of 810 bp was obtained. The unigene sequences were annotated to three ontologies including cellular components, biological processes and molecular functions, further 56,716 unigene sequences were mapped to 25 COG categories. A total of 2497 differentially expressed genes (DEGs) were identified following the comparative analysis between poly I:C treated and control group, and then KEGG enrichment analysis were performed to detect immune related pathways. Quantitative real time polymerase chain reaction showed that the selected DEGs significantly up-regulated following poly I:C administration in comparison to control group. The transcriptomic sequence information will improve the knowledge of this economically important crustacean, and will shed light on its antiviral immune mechanisms.

Published

2017

47. Molecular structure and functional characterization of the peroxiredoxin 5 in Procambarus clarkii following LPS and Poly I:C challenge

Author

Qi Chen, Saima Kausar, Li-Shang Dai, Yang Zhou, Muhammad Nadeem Abbas, Liang Wu, and Cheng-Xi Jiang

Subjects

Lipopolysaccharides, 0301 basic medicine, DNA damage, Hepatopancreas, Astacoidea, Aquatic Science, Biology, medicine.disease_cause, Antioxidants, Arthropod Proteins, law.invention, 03 medical and health sciences, law, Complementary DNA, Escherichia coli, medicine, Animals, Environmental Chemistry, Amino Acid Sequence, Phylogeny, Procambarus clarkii, Oxidase test, Messenger RNA, Base Sequence, Peroxiredoxins, 04 agricultural and veterinary sciences, General Medicine, biology.organism_classification, Molecular biology, Immunity, Innate, Recombinant Proteins, Poly I-C, 030104 developmental biology, Gene Expression Regulation, Biochemistry, 040102 fisheries, Recombinant DNA, 0401 agriculture, forestry, and fisheries, Transcriptome, Peroxiredoxin, Sequence Alignment

Abstract

Peroxiredoxin (Prx) family members play a critical role in host defense against oxidative stress, and are also involved in immune responses following microbial infection. In the present study, we firstly cloned the cDNA of Peroxiredoxin 5 from Procambarus clarkii (denoted as PcPrx5) and investigated its immune functions towards LPS and Poly I:C exposure. The PcPrx5 cDNA was composed of 564 bp and consisting of 187 amino acid residues which included Prx5-like subfamily domain, AHP1 domain and Redoxin domain. The recombinant protein was expressed in Escherichia coli (Transetta DE3), and anti-Prx5 antibodies were prepared. Tissue specific expression analysis showed that PcPrx5 was ubiquitously expressed in all examined tissues. Further, its mRNA transcript was greatest in hepatopancrease, haemocyte followed by gut and stomach, and was weak in muscle. The LPS and Poly I:C exposure could both significantly up-regulate the transcript level of PcPrx5, however the expression trends were different following LPS and Poly I: C treatments. Further, we investigated the antioxidant role of recombinant PcPrx5 protein in vitro by mixed-function oxidase assay; the results demonstrated a dose-dependent inhibition of DNA damage by PcPrx5. Our results implicate PcPrx5 as an important defense against microbial pathogens and oxidants in P. clarkii.

Published

2017

48. Colonized extremophile Deinococcus radiodurans alleviates toxicity of cadmium and lead by suppressing heavy metal accumulation and improving antioxidant system in rice

Author

Yuejin Hua, Liangyan Wang, Zhenming Xie, Bing Tian, Shang Dai, Binqiang Wang, Qi Chen, Shan Li, Yulong Zhou, Ning Yu, and Meng Jiang

Subjects

Antioxidant, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, medicine.medical_treatment, chemistry.chemical_element, Metal toxicity, 010501 environmental sciences, Toxicology, 01 natural sciences, Antioxidants, Extremophiles, Soil, Bioremediation, Metals, Heavy, medicine, Humans, Soil Pollutants, Extremophile, Food science, 0105 earth and related environmental sciences, Cadmium, biology, food and beverages, Oryza, Deinococcus radiodurans, General Medicine, biology.organism_classification, Pollution, Lead, chemistry, Shoot, Toxicity, Deinococcus

Abstract

Cadmium (Cd) and lead (Pb) are the major toxic heavy metals accumulated in rice and pose a serious threat to human health. The most important remediation strategy is to reduce the translocation of these heavy metals from polluted soil to rice. Bioremediation using microorganisms had been widely used for preventing environmental heavy metal pollution, and the interaction between microorganisms and plants is critical to reduce the heavy metal stress. In this study, we demonstrated that an extremophile Deinococcus radiodurans, especially its mutant strain-Δdr2577 which is deficient in cell surface-layer, could efficiently prevent the translocation and damages of Cd or Pb in rice. The bacterial cells efficiently removed Cd or Pb from culture medium. Following colonization of Δdr2577 cells in rice root, Cd level decreased to 71.6% in root and 60.9% in shoot, comparing to the plants treated with Cd alone; Pb level decreased to 73.3% in root and 56.9% in shoot, comparing to the plants treated with Pb alone. Meanwhile, the bacterial cells released their intracellular antioxidant-related molecules including glutamate and manganese ions into culture medium. Accumulation of glutamate and manganese ions detected in rice root and shoot ameliorate Cd/Pb-induced oxidative stress as indicated by reduced levels of ROS and enhanced activities of antioxidant enzymes in rice. Our results provide a potential application of an extremophile bacterium in alleviating heavy metal toxicity in rice. The main findings of the work reveal the interaction between the D. radiodurans and rice, as well as the alleviating mechanism of Cd and Pb toxicity through suppressing heavy metal accumulation and improving the antioxidant system in rice by the extremophile bacterium.

Published

2021

49. Astaxanthin and its gold nanoparticles mitigate cadmium toxicity in rice by inhibiting cadmium translocation and uptake

Author

Zhenming Xie, Yan Huang, Yue Song, Binqiang Wang, Shan Li, Chao Li, Shang Dai, and Meng Jiang

Subjects

Environmental Engineering, Antioxidant, 010504 meteorology & atmospheric sciences, medicine.medical_treatment, Metal Nanoparticles, chemistry.chemical_element, Xanthophylls, 010501 environmental sciences, Plant Roots, 01 natural sciences, Antioxidants, Superoxide dismutase, chemistry.chemical_compound, Astaxanthin, medicine, Humans, Environmental Chemistry, Food science, Waste Management and Disposal, 0105 earth and related environmental sciences, Cadmium, biology, Superoxide Dismutase, Superoxide, food and beverages, Oryza, Hydrogen Peroxide, Glutathione, Ascorbic acid, Pollution, Oxidative Stress, chemistry, Seedlings, Catalase, biology.protein, Gold

Abstract

Cadmium (Cd) is one of the main heavy metal in rice, Cd uptake by cereal crops from soil leads to toxicity in plants and pose serious health risks due to human body's accumulation through the food chain. Astaxanthin, a natural and anti-oxidative oxycarotenoid, is widely distributed in various microorganisms and seafood. In this study, we demonstrated that astaxanthin in the form of gold nanoparticles (Ast-AuNPs) can efficiently alleviate Cd toxicity to a greater extent in hydroponically grown rice plants than single astaxanthin. When supplemented with 100 μg/mL Ast-AuNPs in medium, the Cd level of rice was significantly reduced by 26.2% (in roots) and 85.9% (in leaves), respectively. We also found Ast-AuNPs supplement restores chlorophyll biosynthesis and mitigate Cd-induced oxidative stresses: the contents of superoxide anion (O2-), hydrogen peroxide (H2O2), and malondialdehyde (MDA) were significantly reduced while the activity of the antioxidant enzymes (superoxide dismutase, peroxidase, and catalase) was significantly elevated. Further study showed that the supplement of Ast-AuNPs inhibited Cd-induced gene expression of the metal transporter genes (OsHMA2, OsHMA3, OsIRT1, OsIRT2, OsNramp1, and OsNramp5) in rice roots. Moreover, Ast-AuNPs regulated the metabolism of free amino acids and increased the level of non-enzymatic antioxidants such as glutathione and ascorbic acid. Therefore, this study demonstrates that Ast-AuNPs could mitigate the Cd toxicity in rice seedlings by suppressing Cd uptake, scavenging of ROS, and enhancing the activity of antioxidants, and also expands the application of functional gold nanoparticles in the alleviation of heavy metal pollution in plants.

Published

2021

50. Suppressor of cytokine signaling 2-12 regulates antimicrobial peptides and ecdysteroid signaling pathways in Bombyx mori (Dazao)

Author

Muhammad Nadeem Abbas, Saima Kausar, Baojian Zhu, Chao-Liang Liu, Li-Shang Dai, Ji Wu Tian, and Yu-Xuan Sun

Subjects

0301 basic medicine, medicine.medical_specialty, Physiology, Antimicrobial peptides, Gene Expression, Suppressor of Cytokine Signaling Proteins, Biology, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Bombyx mori, Internal medicine, medicine, Animals, Amino Acid Sequence, SOCS2, Gene, Phylogeny, Ecdysteroid, Gene knockdown, JAK-STAT signaling pathway, Bombyx, biology.organism_classification, Cell biology, Ecdysterone, 030104 developmental biology, Endocrinology, Gene Expression Regulation, chemistry, 030220 oncology & carcinogenesis, Insect Science, Signal transduction, Antimicrobial Cationic Peptides

Abstract

Suppressors of cytokine signaling (SOCS) are a potent negative regulator of diverse cytokine-related responses to maintain various physiological processes in animals. Here, we obtained the SOCS2-12 gene sequence of Bombyx mori (Dazao) (BmSOCS2-12) from the National Center for Biotechnology Information (NCBI) to study its expression profile in different tissues, as well as in the immune tissues following larval exposure to pathogens. Further, we investigated the role of BmSOCS2-12 in producing antimicrobial peptides (AMPs) and as a regulator of ecdysteroid signaling transduction. The quantitative real-time PCR analysis revealed unequal transcript levels of BmSOCS2-12 in the different tissues, however the gene’s expression was highest in those of fat body and hemocyte. The challenge with pathogens significantly upregulated the transcript level of BmSOCS2-12 in both fat body and hemocyte when compared with the control. By contrast, recombinant BmSOCS2-12 protein injections strongly suppressed the expression of AMPs, while the knockdown of BmSOCS2-12 by double-stranded RNA enhanced their production. Administration of 20-hydroxyecdysone significantly downregulated the BmSOCS2-12 expression in fat body, and the depletion of BmSOCS2-12 enhanced the transcript levels of 20-hydroxyecdysone-responsive genes at 48 h. Altogether, BmSOCS2-12 may have multiple functional roles in the physiology of B. mori (Dazao), since it negatively regulates the expression of AMPs and ecdysteroid signaling transduction.

Published

2017