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基于Nanopore平台的测序试剂QzTGS HLA MX9在HLA基因分型中的评价研究
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作者 廉雪 张丹 +4 位作者 温玉洁 范成艳 刘娜 张荣芳 王东梅 《北京医学》 CAS 2024年第6期510-512,518,共4页
目的 探讨基于Nanopore平台的测序试剂QzTGS HLA MX9(TGS测序)在人类白细胞抗原(human leukocyte antigen, HLA)基因分型中应用的性能。方法 选取北京市红十字血液中心实验室常规HLA分型检测样本48份,采用PCR-SBT和TGS两种测序法分别对... 目的 探讨基于Nanopore平台的测序试剂QzTGS HLA MX9(TGS测序)在人类白细胞抗原(human leukocyte antigen, HLA)基因分型中应用的性能。方法 选取北京市红十字血液中心实验室常规HLA分型检测样本48份,采用PCR-SBT和TGS两种测序法分别对全部样本进行HLA基因分型,比较两种方法的基因分型结果及性能。结果 TGS法和PCR-SBT法对48份样本的HLA-A、-B、-C、-DRB1和-DQB1的基因检测结果,在高分辨水平上完全一致,TGS法可以对全部样本进行直接指定新基因及单一组合分型结果。TGS法在耗时、新基因判定、读长、机器维护、模棱两可结果和实时数据等性能方面优势更明显。结论 与PCR-SBT测序技术相比,基于Nanopore平台的测序试剂QzTGS HLA MX9在指定HLA基因结果方面准确性更高、耗时更短。 展开更多
关键词 人类白细胞抗原 nanopore测序 PCR-SBT 基因分型
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基于Nanopore测序技术的非洲猪瘟病毒全基因组测序方法建立
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作者 周扬 吴炜姿 +6 位作者 曹伟胜 王福广 许秀琼 钟文霞 吴立炀 叶健 卢受昇 《畜牧兽医学报》 CAS CSCD 北大核心 2024年第5期2080-2089,共10页
非洲猪瘟(ASF)是由非洲猪瘟病毒(ASFV)引起的一种高度传染性和致死性疫病,近年来给我国生猪产业的健康发展造成了沉重打击。ASFV庞大的基因组导致人们难以及时掌握流行毒株的全基因组序列。本研究旨在利用Nanopore三代测序技术建立一种... 非洲猪瘟(ASF)是由非洲猪瘟病毒(ASFV)引起的一种高度传染性和致死性疫病,近年来给我国生猪产业的健康发展造成了沉重打击。ASFV庞大的基因组导致人们难以及时掌握流行毒株的全基因组序列。本研究旨在利用Nanopore三代测序技术建立一种简便可靠的ASFV全基因组测序方法。设计覆盖ASFV全基因组的31对引物并分为4个引物池对样本进行扩增,通过Nanopore测序技术对扩增产物进行测序,进一步优化相关生物信息学分析方法,最终成功建立了ASFV全基因组测序方法。应用该方法成功从某环境拭子样本中获取一株全长为189 416 bp的ASFV全基因组测序。经一代测序验证表明,在B646L、EP402R、E183L、MGF_360-12L、MGF_505-3R和I177L等关键基因及部分变异位点上,本方法结果与一代测序结果一致性100%;在全基因组水平上,本方法结果与二代测序结果一致性为99.94%。此外,在这项研究中,采用Nanopore测序技术发现了NP1450L基因与NP419L基因间区存在56 bp的重复序列插入(通过一代测序技术进行了验证),但是二代测序未能发现这一显著的变异特征。本研究成功建立了基于Nanopore技术的ASFV全基因组测序方法,该方法具有良好的简便性和可靠性,为当前ASF的防控和分子流行病学研究提供了一个重要手段。 展开更多
关键词 nanopore测序 非洲猪瘟病毒 生物信息学分析
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基于Nanopore测序技术分析广东地区1株PRRSV-2的基因组特征
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作者 周扬 卢受昇 +3 位作者 宫焕宇 陈瑞旭 吴炜姿 曹伟胜 《中国兽医杂志》 CAS 北大核心 2024年第9期14-22,共9页
为促进Nanopore测序技术在美洲型猪繁殖与呼吸综合征病毒(PRRSV-2)全基因组测序中的应用并进一步了解当前广东地区PRRSV-2全基因组特征,本试验从广东地区某屠宰场采集1份PRRSV-2阳性样本,提取核酸进行靶向扩增,对扩增产物进行文库构建... 为促进Nanopore测序技术在美洲型猪繁殖与呼吸综合征病毒(PRRSV-2)全基因组测序中的应用并进一步了解当前广东地区PRRSV-2全基因组特征,本试验从广东地区某屠宰场采集1份PRRSV-2阳性样本,提取核酸进行靶向扩增,对扩增产物进行文库构建和测序,使用Samtools和Medaka等软件对测序数据进行生物信息学分析和拼接,得到样本的全基因组序列。选取5′端1~4 500核苷酸位点和开放阅读框5(ORF5)基因进行一代测序验证,评估本试验的准确性。进一步使用MEGA 11软件对所得的序列进行全基因组遗传进化分析、核苷酸相似性分析和NSP2蛋白氨基酸变异分析;使用RDP4软件和SimPlot软件进行重组分析。结果显示,本试验完成1份PRRSV-2阳性样本的全基因组测序,序列命名为GDYJ0718-7。2Samtools软件分析结果显示,本试验的平均测序深度为1 838×,覆盖PRRSV-2所有编码区。本试验Nanopore测序结果与一代测序结果一致性为100%。全基因组遗传进化分析结果显示,GDYJ0718-7属于QYYZ-like毒株,与参考株QYYZ(JQ308798)的核苷酸相似性仅为86.3%。NSP2蛋白氨基酸变异分析结果显示,GDYJ0718-7呈现1 aa+36 aa+29 aa的独特缺失模式。重组分析发现,GDYJ0718-7可能由QYYZ-like毒株和JXA1-like毒株重组形成。本试验通过Nanopore测序技术发现了广东地区QYYZ-like毒株变异的复杂性和新特点,为PRRSV-2的防控提供了技术和分子信息支持。 展开更多
关键词 nanopore测序 猪繁殖与呼吸综合征病毒(PRRSV) 重组
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Voltage-modulated polymer nanopore field-effect transistor for multi-sized nanoparticle detection
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作者 Feng Zhou Lin Li Qiannan Xue 《Nanotechnology and Precision Engineering》 EI CAS CSCD 2024年第3期79-89,共11页
Solid-state nanopores offer a range of distinct advantages over biological nanopores,such as structural diversity and greater stability and durability;this makes them highly promising for high-resolution nanoparticle ... Solid-state nanopores offer a range of distinct advantages over biological nanopores,such as structural diversity and greater stability and durability;this makes them highly promising for high-resolution nanoparticle sensing.Biological nanopores can exhibit gating characteristics with stress-responsive switches and can demonstrate specificity toward particular molecules.Drawing inspiration from biological nanopores,this paper introduces a novel polymer nanopore with field-effect characteristics,leveraging a conductive polymer in its construction to showcase intriguing gating behavior.Notably,in this device,the polymer layer serves as the gate,enabling precise control over the source–drain current response inside and outside the pore by simply adjusting the gate voltage.This unique feature allows fine-tuning of the nanopore’s sensitivity to nanoparticles of varying sizes and facilitates its operation in multiple modes.Experimental results reveal that the developed polymer nanopore field-effect transistor demonstrates remarkable selectivity in detecting nanoparticles of various sizes under different applied voltages.The proposed single device demonstrates the exceptional ability to detect multiple types of nanoparticle,showcasing its immense potential for a wide range of applications in biological-particle analysis and medical diagnostics. 展开更多
关键词 Nanopipette Polymer nanopore Voltage modulation Nanoparticle detection
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Formation mechanism of nanopores in dense films of anodic alumina
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作者 Peng-ze LI Yu ZHANG +5 位作者 Jia-zheng ZHANG Lin LIU Shi-yi WANG Rui LIU Ye SONG Xu-fei ZHU 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2024年第9期2918-2927,共10页
Constant-current anodization of pure aluminum was carried out in non-corrosive capacitor working electrolytes to study the formation mechanism of nanopores in the anodic oxide films.Through comparative experiments,nan... Constant-current anodization of pure aluminum was carried out in non-corrosive capacitor working electrolytes to study the formation mechanism of nanopores in the anodic oxide films.Through comparative experiments,nanopores are found in the anodic films formed in the electrolytes after high-temperature storage(HTS)at 130°C for 240 h.A comparison of the voltage-time curves suggests that the formation of nanopores results from the decrease in formation efficiency of anodic oxide films rather than the corrosion of the electrolytes.FT-IR and UV spectra analysis shows that carboxylate and ethylene glycol in electrolytes can easily react by esterification at high temperatures.Combining the electronic current theory and oxygen bubble mold effect,the change in electrolyte composition could increase the electronic current in the anodizing process.The electronic current decreases the formation efficiency of anodic oxide films,and oxygen bubbles accompanying electronic current lead to the formation of nanopores in the dense films.The continuous electronic current and oxygen bubbles are the prerequisites for the formation of porous anodic oxides rather than the traditional field-assisted dissolution model. 展开更多
关键词 anodic alumina formation mechanism nanoporeS formation efficiency electronic current oxygen bubble
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Diagnosis and treatment of refractory infectious diseases using nanopore sequencing technology:Three case reports
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作者 Qing-Mei Deng Jian Zhang +5 位作者 Yi-Yong Zhang Min Jia Du-Shan Ding Yu-Qin Fang Hong-Zhi Wang Hong-Cang Gu 《World Journal of Clinical Cases》 SCIE 2024年第22期5208-5216,共9页
BACKGROUND Infectious diseases are still one of the greatest threats to human health,and the etiology of 20%of cases of clinical fever is unknown;therefore,rapid identification of pathogens is highly important.Traditi... BACKGROUND Infectious diseases are still one of the greatest threats to human health,and the etiology of 20%of cases of clinical fever is unknown;therefore,rapid identification of pathogens is highly important.Traditional culture methods are only able to detect a limited number of pathogens and are time-consuming;serologic detection has window periods,false-positive and false-negative problems;and nucleic acid molecular detection methods can detect several known pathogens only once.Three-generation nanopore sequencing technology provides new options for identifying pathogens.CASE SUMMARY Case 1:The patient was admitted to the hospital with abdominal pain for three days and cessation of defecation for five days,accompanied by cough and sputum.Nanopore sequencing of the drainage fluid revealed the presence of orallike bacteria,leading to a clinical diagnosis of bronchopleural fistula.Cefoperazone sodium sulbactam treatment was effective.Case 2:The patient was admitted to the hospital with fever and headache,and CT revealed lung inflammation.Antibiotic treatment for Streptococcus pneumoniae,identified through nanopore sequencing of cerebrospinal fluid,was effective.Case 3:The patient was admitted to our hospital with intermittent fever and an enlarged neck mass that had persisted for more than six months.Despite antibacterial treatment,her symptoms worsened.The nanopore sequencing results indicate that voriconazole treatment is effective for Aspergillus brookii.The patient was diagnosed with mixed cell type classical Hodgkin's lymphoma with infection.CONCLUSION Three-generation nanopore sequencing technology allows for rapid and accurate detection of pathogens in human infectious diseases. 展开更多
关键词 nanopore sequencing technology Third-generation sequencing technology INFECTION PATHOGEN Case report
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Adsorption behavior of CO_(2)/H_(2)S mixtures in calcite slit nanopores for CO_(2) storage:An insight from molecular perspective
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作者 Cheng Qian Zhen-Hua Rui +4 位作者 Yue-Liang Liu Kai Du Chen Liu Yang Zhao Xiao-Min Ma 《Petroleum Science》 SCIE EI CAS CSCD 2024年第4期2444-2456,共13页
It is acknowledged that injecting CO_(2) into oil reservoirs and saline aquifers for storage is a practical and affordable method for CO_(2) sequestration.Most CO_(2) produced from industrial exhaust contains impurity... It is acknowledged that injecting CO_(2) into oil reservoirs and saline aquifers for storage is a practical and affordable method for CO_(2) sequestration.Most CO_(2) produced from industrial exhaust contains impurity gases such as H_(2)S that might impact CO_(2) sequestration due to competitive adsorption.This study makes a commendable effort to explore the adsorption behavior of CO_(2)/H_(2)S mixtures in calcite slit nanopores.Grand Canonical Monte Carlo(GCMC)simulation is employed to reveal the adsorption of CO_(2),H_(2)S as well as their binary mixtures in calcite nanopores.Results show that the increase in pressure and temperature can promote and inhibit the adsorption capacity of CO_(2) and H_(2)S in calcite nanopores,respectively.CO_(2)exhibits stronger adsorption on calcite surface than H_(2)S.Electrostatic energy plays the dominating role in the adsorption behavior.Electrostatic energy accounts for 97.11%of the CO_(2)-calcite interaction energy and 56.33%of the H_(2)S-calcite interaction energy at 10 MPa and 323.15 K.The presence of H_(2)S inhibits the CO_(2) adsorption in calcite nanopores due to competitive adsorption,and a higher mole fraction of H_(2)S leads to less CO_(2) adsorption.The quantity of CO_(2) adsorbed is lessened by approximately 33%when the mole fraction of H_(2)S reaches 0.25.CO_(2) molecules preferentially occupy the regions near the po re wall and H_(2)S molecules tend to reside at the center of nanopore even when the molar ratio of CO_(2) is low,indicating that CO_(2) has an adsorption priority on the calcite surface over H_(2)S.In addition,moisture can weaken the adsorption of both CO_(2) and H_(2)S,while CO_(2) is more affected.More interestingly,we find that pure CO_(2) is more suitable to be sequestrated in the shallower formations,i.e.,500-1500 m,whereas CO_(2)with H_(2)S impurity should be settled in the deeper reservoirs. 展开更多
关键词 Adsorption behavior CO_(2)/H_(2)S binary mixtures Molecular perspective Calcite slit nanopores CO_(2)sequestration
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Nanopore测序揭示m6A修饰铁死亡相关基因在中晚期头颈部鳞状细胞癌中的表达及临床意义
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作者 庄黎明 丁雅婷 +2 位作者 蔡成福 叶辉 蔡耿明 《中国耳鼻咽喉颅底外科杂志》 CAS CSCD 2023年第5期60-70,共11页
目的研究N6-甲基腺苷(m6A)修饰在中晚期头颈部鳞状细胞癌(HNSCC)的作用和基因相关通路,为头颈部HNSCC患者的个体化精准治疗提出新的观点及研究参考。方法选取3对临床中晚期HNSCC患者的癌及其癌旁组织(6个样本)进行测序,从癌和癌旁组织... 目的研究N6-甲基腺苷(m6A)修饰在中晚期头颈部鳞状细胞癌(HNSCC)的作用和基因相关通路,为头颈部HNSCC患者的个体化精准治疗提出新的观点及研究参考。方法选取3对临床中晚期HNSCC患者的癌及其癌旁组织(6个样本)进行测序,从癌和癌旁组织的转录组、m6A相关差异基因中筛选出两者共同的差异基因,通过基因本体(GO)分析、pathway分析及蛋白相互作用(PPI)分析,找出其中的枢纽(hub)基因,随后对网络中的基因进行基因集变异分析(GSVA),从而得到m6A修饰影响的基因及通路。结果从癌与癌旁组织的差异基因中筛选出96个转录组m6A相关的上调基因、159个m6A相关下调基因;信号通路分析发现PPAR通路、免疫相关通路下调,代谢通路上调;构建PPI后发现,CDK1呈现上调趋势,而DCN及ARG2均呈现下调趋势;GSVA分析发现PI3K/AKT信号通路在癌组织中上调;PPI中的hub基因共表达分析发现AGR2和CDK1在m6A调控下,与铁死亡相关基因联系很密切。结论m6A修饰与FOXA1、RPL8、DNC、CDK1、ApoE、POSTN、YWHAZ、MMP13等铁死亡相关基因紧密相关,m6A修饰可能通过铁死亡相关基因影响免疫、代谢相关通路,从而在中晚期HNSCC中起重要作用。 展开更多
关键词 nanopore测序 N6-甲基腺苷 AGR2 头颈部鳞状细胞癌
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Shale gas transport in nanopores with mobile water films and water bridge 被引量:1
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作者 Ran Li Zhangxin Chen +1 位作者 Keliu Wu Jinze Xu 《Petroleum Science》 SCIE EI CAS CSCD 2023年第2期1068-1076,共9页
Gas flow properties in nanopores are significantly determined by the flow patterns. Slug flow pattern is a potential water–gas two phase flow pattern, in which gas molecules flow in form of gas slugs and water molecu... Gas flow properties in nanopores are significantly determined by the flow patterns. Slug flow pattern is a potential water–gas two phase flow pattern, in which gas molecules flow in form of gas slugs and water molecules separate gas slugs. Considering water slippage, a portion of water molecules accumulates at the wall with lower mobility, while the remaining water molecules take the shape of a water bridge. Adopting foam apparent viscosity model to represent slug rheological behavior, how water bridge disturbs on gas flow capacity is estimated. The results are compared with the water–gas two phase flow model that assumes annular flow pattern as well as the single gas flow model without the consideration of water. The comparison illustrates that gas molecular movement is significantly hindered by flow space reduction and loss of gas slippage. The impact from water phase of slug flow pattern is more significant than that of annular flow pattern on gas flow capacity. It is discovered that larger nanopores improve gas flow capacity while maintaining bulk water layer thickness and increasing water bridge thickness tend to reduce gas transport ability. A better understanding of the structure and transport of water and gas molecules is conducive to figure out the specific gas–water flow behavior and predict shale gas production. 展开更多
关键词 Shale gas Water bridge Water film nanopore
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Surveillance of emerging SARS-CoV-2 variants by nanopore technology-based genome sequencing 被引量:1
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作者 J.I.Abeynayake G.P.Chathuranga +1 位作者 M.A.Y.Fernando M.K.Sahoo 《Asian Pacific Journal of Tropical Medicine》 SCIE CAS 2023年第7期313-320,共8页
Objective:To surveill emerging variants by nanopore technology-based genome sequencing in different COVID-19 waves in Sri Lanka and to examine the association with the sample characteristics,and vaccination status.Met... Objective:To surveill emerging variants by nanopore technology-based genome sequencing in different COVID-19 waves in Sri Lanka and to examine the association with the sample characteristics,and vaccination status.Methods:The study analyzed 207 RNA positive swab samples received to sequence laboratory during different waves.The N gene cut-off threshold of less than 30 was considered as the major inclusion criteria.Viral RNA was extracted,and elutes were subjected to nanopore sequencing.All the sequencing data were uploaded in the publicly accessible database,GISAID.Results:The Omicron,Delta and Alpha variants accounted for 58%,22%and 4%of the variants throughout the period.Less than 1%were Kappa variant and 16%of the study samples remained unassigned.Omicron variant was circulated among all age groups and in all the provinces.Ct value and variants assigned percentage was 100%in Ct values of 10-15 while only 45%assigned Ct value over 25.Conclusions:The present study examined the emergence,prevalence,and distribution of SARS-CoV-2 variants locally and has shown that nanopore technology-based genome sequencing enables whole genome sequencing in a low resource setting country. 展开更多
关键词 Emerging SARS-CoV-2 variants Laboratory surveillance nanopore technology Genome sequencing Bioinformatics analysis and phylogeny Sociodemographic and sample cutoff(Ct)threshold Global sharing of genomic data/GISAID
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Preliminary study on nanopores,nanofissures,and in situ accumulation of Gulong shale oil
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作者 HE Wenyuan 《地学前缘》 EI CAS CSCD 北大核心 2023年第1期260-280,共21页
The Qingshankou Formation shale oil in the Gulong Sag is an important oil and gas reservoir in the Daqing oilfield,with geological resources of 15.1 billion tons.The fabric of shale can reflect not only its genesis bu... The Qingshankou Formation shale oil in the Gulong Sag is an important oil and gas reservoir in the Daqing oilfield,with geological resources of 15.1 billion tons.The fabric of shale can reflect not only its genesis but also the nature of the reservoir space,its physical properties,oil content,and development value.Here,the characteristics of clay minerals in the Gulong shale oil reservoir were studied via electron microscopy,with the primary focus on the microfabrics and reservoir space;thereafter,the in situ accumulation was studied and discussed.Electron backscattering patterns revealed that nanometer pores and fissures were well developed in the Gulong shale oil reservoir.The nano pores were mostly 20-50 nm in diameter(median 20-30 nm),irregularly shaped,mostly,polygonal,and connected with nanofissures.The widths of nanofissures ranged mostly between 10-50 nm(median 20-30 nm);moreover,these fissures were mainly formed by F-F condensation of clay sheets(clay domains).The coagulation of clays was closely related to organic matter,especially algae.The clay colloids were negatively charged due to isocrystalline replacement;hence,metal cations were absorbed around the clay,forming a positive clay group.The positively charged clays subsequently adsorbed negatively charged humic acid(organic matter)and initially degraded algae to form an organic clay flocculant.When the organic clay flocculates reached the threshold for hydrocarbon generation and expulsion,the volume of organic matter decreased by 87%;thereafter,the generated and expelled hydrocarbon filled the nearby pores formed by this contraction.Moreover,the discharged hydrocarbon could not migrate due to capillary resistance(~12 MPa)of the nanopores;hence,the nanopores formed a unique continuous in situ reservoir within the Gulong shale oil.This study demonstrated that the Gulong shale oil reservoir is an actual clay-type shale reservoir with numerous nanopore and fissures.During coagulation,a large amount of organic matter(including layered algae)was absorbed by the clay,forming an organic clay condensate that could have provided the material foundation for hydrocarbon generation at a later stage.Thermal simulation experiments revealed that the volume of organic matter decreased sharply after hydrocarbon generation and expulsion. 展开更多
关键词 SHALE clay organic matter nanoporeS nanofissures in situ accumulation Gulong Sag
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A transient model integrating the nanoconfinement effect and pore structure characteristics of oil transport through nanopores
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作者 Cheng Cao Bin Chang +1 位作者 Zhao Yang Chao Gao 《Petroleum Science》 SCIE EI CAS CSCD 2023年第6期3461-3477,共17页
Understanding the integrated transport behavior of oil in shale nanopores is critical to efficient shale oil development. In this paper, based on the time-dependent Poiseuille flow momentum equation, we present a nove... Understanding the integrated transport behavior of oil in shale nanopores is critical to efficient shale oil development. In this paper, based on the time-dependent Poiseuille flow momentum equation, we present a novel transient model to describe oil transport in unsteady and steady states. The model incorporates the effect of the critical shift density, apparent viscosity, slip length, and alkane property, as well as pore tortuosity and surface roughness. We evaluated our model through a comparison with other models, experiments, and molecular dynamics simulations. The results show that the development rates of the volume flows of C_(6)–C_(12) alkane confined in inorganic nanopores and C_(12) alkane confined in organic nanopores were faster than that of the corresponding bulk alkane. In addition, the critical drift density positively promoted the volume flow development rate in the unsteady state and negatively inhibited the mass flow rate in the steady state. This effect was clearest in pores with a smaller radius and lower-energy wall and in alkane with shorter chain lengths. Furthermore, both the nanoconfinement effect and pore structure determined whether the volume flow enhancement rate was greater than or less than 1. The rate increased or decreased with time and was controlled mainly by the nanoconfinement effect. Moreover, as the wall energy increased, the flow inhibition effect increased;as the carbon number of alkane increased, the flow promotion effect increased. The results indicate that the proposed model can accurately describe oil transport in shale nanopores. 展开更多
关键词 nanoporeS Transient transport Nanoconfinement effect TORTUOSITY ROUGHNESS Allkane properties
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Pressure-driven membrane inflation through nanopores on the cell wall
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作者 钟祺 吴晨旭 马锐 《Chinese Physics B》 SCIE EI CAS CSCD 2023年第8期15-24,共10页
Walled cells,such as in plants and fungi,compose an important part of the model systems in biology.The cell wall primarily prevents the cell from over-expansion when exposed to water,and is a porous material distribut... Walled cells,such as in plants and fungi,compose an important part of the model systems in biology.The cell wall primarily prevents the cell from over-expansion when exposed to water,and is a porous material distributed with nanosized pores on it.In this paper,we study the deformation of a membrane patch by an osmotic pressure through a nanopore on the cell wall.We find that there exists a critical pore size or a critical pressure beyond which the membrane cannot stand against the pressure and would inflate out through the pore and further expand.The critical pore size scales linearly with the membrane tension and quadratically with the spontaneous curvature.The critical pressure is inversely proportional to the pore radius.Our results also show that the fluid membrane expansion by pressure is mechanically different from the solid balloon expansion,and predict that the bending rigidity of the membrane in walled cells should be much larger than that of the mammalian cells so as to prevent membrane inflation through the pores on the cell wall. 展开更多
关键词 membrane mechanics ENDOCYTOSIS osmotic pressure nanoporeS
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Molecular insight into the oil displacement mechanism of CO_(2) flooding in the nanopores of shale oil reservoir
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作者 Xiao-Hu Dong Wen-Jing Xu +2 位作者 Hui-Qing Liu Zhang-Xing Chen Ning Lu 《Petroleum Science》 SCIE EI CAS CSCD 2023年第6期3516-3529,共14页
With the increasing demand for petroleum,shale oil with considerable reserves has become an important part of global oil resources.The shale oil reservoir has a large number of nanopores and a complicated mineral comp... With the increasing demand for petroleum,shale oil with considerable reserves has become an important part of global oil resources.The shale oil reservoir has a large number of nanopores and a complicated mineral composition,and the effect of nanopore confinement and pore type usually makes the effective development of shale oil challenging.For a shale oil reservoir,CO_(2) flooding can effectively reduce the oil viscosity and improve the reservoir properties,which can thus improve the recovery performance.In this study,the method of non-equilibrium molecular dynamics(NEMD)simulation is used to simulate the CO_(2) flooding process in the nanoscale pores of shale oil reservoir.The performance difference between the organic kerogen slit nanopore and four types of inorganic nanopores is discussed.Thus,the effects of nanopore type and displacement velocity on the nanoscale displacement behavior of CO_(2) are analyzed.Results indicate that the CO_(2) flooding process of different inorganic pores is different.In comparison,the displacement efficiency of light oil components is higher,and the transport distance is longer.The intermolecular interaction can significantly affect the CO_(2) displacement behavior in nanopores.The CO_(2) displacement efficiency is shown as montmorillonite,feldspar>quartz>calcite>kerogen.On the other hand,it is found that a lower displacement velocity can benefit the miscibility process between alkane and CO_(2),which is conducive to the overall displacement process of CO_(2).The displacement efficiency can significantly decrease with the increase in displacement velocity.But once the displacement velocity is very high,the strong driving force can promote the alkane to move forward,and the displacement efficiency will recover slightly.This study further reveals the microscopic oil displacement mechanism of CO_(2) in shale nanopores,which is of great significance for the effective development of shale oil reservoirs by using the method of CO_(2) injection. 展开更多
关键词 Displacement behavior nanoporeS NEMD simulation Shale oil CO_(2) KEROGEN
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Application of Nanopore Sequencing Technology in the Clinical Diagnosis of Infectious Diseases 被引量:7
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作者 ZHANG Lu Lu ZHANG Chi PENG Jun Ping 《Biomedical and Environmental Sciences》 SCIE CAS CSCD 2022年第5期381-392,共12页
Infectious diseases are an enormous public health burden and a growing threat to human health worldwide.Emerging or classic recurrent pathogens,or pathogens with resistant traits,challenge our ability to diagnose and ... Infectious diseases are an enormous public health burden and a growing threat to human health worldwide.Emerging or classic recurrent pathogens,or pathogens with resistant traits,challenge our ability to diagnose and control infectious diseases.Nanopore sequencing technology has the potential to enhance our ability to diagnose,interrogate,and track infectious diseases due to the unrestricted read length and system portability.This review focuses on the application of nanopore sequencing technology in the clinical diagnosis of infectious diseases and includes the following:(i)a brief introduction to nanopore sequencing technology and Oxford Nanopore Technologies(ONT)sequencing platforms;(ii)strategies for nanopore-based sequencing technologies;and(iii)applications of nanopore sequencing technology in monitoring emerging pathogenic microorganisms,molecular detection of clinically relevant drug-resistance genes,and characterization of disease-related microbial communities.Finally,we discuss the current challenges,potential opportunities,and future outlook for applying nanopore sequencing technology in the diagnosis of infectious diseases. 展开更多
关键词 nanopore sequencing Infectious diseases PATHOGEN Oxford nanopore Technologies
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Electrophoresis of poly(dT)_(20) through α-hemolysin nanopore in high concentration potassium chloride solution
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作者 司伟 杨浩杰 +4 位作者 纪安平 李堃 沙菁 刘磊 陈云飞 《Journal of Southeast University(English Edition)》 EI CAS 2016年第4期496-501,共6页
Experiments of poly(dT)20 electrophoresis throughα-hemolysin nanopores were performed to unveil the electrophoretic transport mechanism of DNA through nanopores in high concentration potassium chloride solution. It... Experiments of poly(dT)20 electrophoresis throughα-hemolysin nanopores were performed to unveil the electrophoretic transport mechanism of DNA through nanopores in high concentration potassium chloride solution. It is found that there are two obvious current blockades induced by poly(dT)20 translocation and collision events. Both blockade currents increase linearly with the applied bias voltage. However, the normalized blockade currents are almost kept the same although variable bias voltages are applied. The collision time of poly(dT)20 in the luminal site of the pore remains constant for different voltages. The translocation speed of poly(dT)20through the nanopore decreases with the increase of bias voltage. It is because as the potential increases, the drag force on the homopolymer helps it to crumple into a cluster much easier due to the poor stacking of thymine residues compared with homopolymers consisting of other nucleotides. Molecular dynamics simulations further confirm the experimental results. Increasing the applied bias voltage can slowdown the translocation velocity of the flexible poly(dT)20, which favors increasing the precision of single molecule detection by using nanopores. 展开更多
关键词 nanopore transport speed ionic current ELECTROPHORESIS
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宏基因组Nanopore测序在儿童呼吸道病原微生物快速检测中的应用价值 被引量:6
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作者 甘明宇 李刚 +2 位作者 俞惠 吴冰冰 周文浩 《中国循证儿科杂志》 CSCD 北大核心 2020年第5期378-381,共4页
目的探索宏基因组Nanopore(三代)测序在儿童呼吸道病原微生物快速检测中的应用价值。方法对收集的1例重症肺炎患儿的肺泡灌洗液标本,传统方法检测为腺病毒抗原阳性,肺炎支原体和EB病毒PCR检测阳性,患儿经治疗痊愈出院。以此肺泡灌洗液... 目的探索宏基因组Nanopore(三代)测序在儿童呼吸道病原微生物快速检测中的应用价值。方法对收集的1例重症肺炎患儿的肺泡灌洗液标本,传统方法检测为腺病毒抗原阳性,肺炎支原体和EB病毒PCR检测阳性,患儿经治疗痊愈出院。以此肺泡灌洗液标本提取DNA后,分别行宏基因组三代和二代测序。建立微生物参考基因组数据库,建立三代测序数据实时分析流程,分别将三代和二代测序数据和参考数据库比对,检测并鉴定病原微生物。结果三代、二代测序和传统方法检测从收到样本至检出腺病毒用时分别为3.2 h、55.5 h和48 h,检测费用人民币4200、3600和1790元。三代测序在开始后的12 min即检出1093条腺病毒序列,测序完成后,共得到4920000条序列,检出腺病毒99284条序列,占总序列数的2.02%;检出肺炎支原体和EB病毒序列各1条。二代测序检出的微生物组成和三代类似。结论宏基因组三代测序能实现对所有潜在儿童呼吸道病原微生物的快速实时检测。 展开更多
关键词 nanopore测序 宏基因组测序 腺病毒 儿童呼吸道感染
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A Combination of N2 and CO2 Adsorption to Characterize Nanopore Structure of Organic-Rich Lower Silurian Shale in the Upper Yangtze Platform, South China: Implications for Shale Gas Sorption Capacity 被引量:21
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作者 CHEN Lei JIANG Zhenxue +2 位作者 LIU Keyu GAO Fenglin WANG Pengfei 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2017年第4期1380-1394,共15页
The pores in shales are mainly of nanometer-scale, and their pore size distribution is very important for the preservation and exploitation of shale gas. This study focused on the organic-rich Lower Silurian black sha... The pores in shales are mainly of nanometer-scale, and their pore size distribution is very important for the preservation and exploitation of shale gas. This study focused on the organic-rich Lower Silurian black shale from four wells in the Upper Yangtze Platform, and their TOC, mineralogical composition and pore characterization were investigated. Low pressure N2 and CO2 adsorption were conducted at 77.35 K and 273.15 K, respectively, and the pore structures were characterized by modified Brunauer-Emmett-Teller (BET), Dubinin-Radushkevich (DR), t-plot, Barrett- Joyner-Halenda (BJH) and density functional theory (DFT) methods and then the relationship between pore structure and shale gas sorption capacity was discussed. The results indicate that (1) The Lower Silurian shale has high TOC content of 0.92%~96%, high quartz content of 30.6%-69.5%, and high clays content of 24.1%-51.2%. The total specific surface area varies from 7.56 m^2/g to 25.86 m^2/g. Both the total specific surface area and quartz content are positively associated with the TOC content. (2) Shale samples with higher TOC content have more micropores, which results in more complex nanopore structure. Micropore volumes/surface areas and non-micropore surface areas all increase with the increasing TOC content. (3) A combination of N2 and CO2 adsorption provides the most suitable detection range (~0.3-60 nm) and has high reliability and accuracy for nanopore structure characterization. (4) The TOC content is the key factor to control the gas sorption capacity of the Lower Silurian shale in the Upper Yangtze Platform. 展开更多
关键词 shale gas nanopore structure Lower Silurian shale Upper Yangtze Platform sorption capacity
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Effect of salt gradients on DNA translocation through solid-state nanopores
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作者 余静文 司伟 +1 位作者 沙菁 陈云飞 《Journal of Southeast University(English Edition)》 EI CAS 2016年第3期307-311,共5页
Aiming at the issues of controlling the translocation speed of DNA through a solid-state nanopore and enlarging the signal-to-noise ratio of ionic current modulation, which are challenges for the application of nanopo... Aiming at the issues of controlling the translocation speed of DNA through a solid-state nanopore and enlarging the signal-to-noise ratio of ionic current modulation, which are challenges for the application of nanopore technology in DNA detection, salt concentration gradients are applied across the nanopore to investigate their influence on the DNA translocation time and signal-to-noise ratio. Experimental data demonstrates that, in symmetric concentration conditions, both the current blockade and dwell time for A-DNA translocation through a solid-state nanopore increase along with potassium chloride concentration. When the concentration in the trans chamber is decreased from 1 to 0.1 mol/L, keeping the concentration of the cis chamber at 1 mol/L, the normalized current blockade is found to be increased by one order. The increased dwell time and enhanced signal-to-noise ratio are achieved with salt gradients across the nanopore, which can improve the sensitivity when detecting DNA samples. 展开更多
关键词 solid-state nanopore salt gradients A-DNA signal-to-noise ratio current blockade dwell time
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Current blockade mechanism for DNA translocation through solid-state nanopore with different membrane thickness
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作者 伍根生 章寅 +2 位作者 司伟 顾云风 陈云飞 《Journal of Southeast University(English Edition)》 EI CAS 2016年第3期301-306,共6页
The current blockade mechanism for λ -DNA translocation under electrical field is investigated through solid-state nanopores with different pore thicknesses. The conductance of a nanopore system mainly consists of t... The current blockade mechanism for λ -DNA translocation under electrical field is investigated through solid-state nanopores with different pore thicknesses. The conductance of a nanopore system mainly consists of the contribution of the pore and access region, and the latter becomes dominant when the nanopore thickness gradually decreases to atomic layer thickness. Based on the existing model of nanopore resistance, a simplified model which describes the relative current blockade during the X-DNA translocation through the nanopores is deduced to quantitatively present the relationship between nanopore thickness and relative current blockade. Results show that the relative current blockade is effectively increased by reducing the nanopore diameter but it decreases with the decreasing nanopore thickness. A two-stage schematic is proposed to increase the relative current blockade by setting a much smaller resistance region. Experimental results show a 21. 9% increase in the relative current blockade with the proposed schematic. 展开更多
关键词 nanopore DNA sequencing relative current blockade membrane thickness
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