Diel investigations of water environments are one means to holistically understand the dynamics and functional roles of phytoplankton,bacteria and viruses in these ecosystems.They have the potential to substantially i...Diel investigations of water environments are one means to holistically understand the dynamics and functional roles of phytoplankton,bacteria and viruses in these ecosystems.They have the potential to substantially impact carbon(C),nitrogen(N)and phosphorus(P)biogeochemistry through their respective roles.This study characterizes the phytoplankton,bacteria and virus communities and the elemental composition of various C,N and P nutrients flow over three diel cycles in tropical urban lake.Our results show that ratios of C:N:P fluctuated strongly from the lack of dissolved organic phosphorus(DOP)and PO_(4).Specifically,green algae peaked during day time and exudate dissolved organic matter(DOM)that strongly modulate dissolved organic carbon(DOC):DOP ratio to diel DOP limitation.Multiple linear regression and Stella modelling emphasize the roles of viruses together with Synechococcus as important nutrient recyclers of NH_(4)and PO_(4)in nutrients-limited waters.Respective normalised surface PO_(4)and combined surface and bottom NH_(4)concentration selected both viruses and Synechococcus as important drivers.Process model of N and P biogeochemical cycles can achieve 69%and 57%similar to observed concentration of NH_(4)and PO_(4),respectively.A short latent period of 9 hr was calculated,in addition to the calibrated high infectivity of viruses to Synechococcus.Taken together,the rapid turn-over between Synechococcus and viruses has biogeochemical significance,where the rapid recycling of essential nutrients allows for shortcuts in the N and P cycle,supporting a wide range of microbes.展开更多
Introduction: Influenza A (Flu A) and B (Flu B) viruses are responsible for severe acute respiratory infections (SARI) worldwide, with a morbidity of 5 million and mortality of 29,000 - 650,000 deaths per year. Influe...Introduction: Influenza A (Flu A) and B (Flu B) viruses are responsible for severe acute respiratory infections (SARI) worldwide, with a morbidity of 5 million and mortality of 29,000 - 650,000 deaths per year. Influenza B viruses are an important cause of respiratory infections in humans, but they tend to be underappreciated due to the predominance of Influenza A. No molecular study on Influenza B has been carried out in the DRC. This study was conducted to document the molecular evolution of the hemagglutinin (HA) gene in the circulating Influenza B strains over the eight consecutive epidemic seasons (from 2015 to 2022). Methods: Samples were collected from outpatient cases suspected of influenza-like illness (ILI) and in all hospitalized patients with SARI from January 2015 to December 2022. Molecular analysis was done to determine influenza type and subtype, and then segments encoding the HA gene of Influenza B viruses were performed. Results: Of 8497 samples collected and tested, 639 (7.5%) were positive for influenza viruses, including 389 (60.8%) for Influenza A viruses and 248 (38,8%) for Influenza B viruses. Of the positive Influenza B samples, 91 were sequenced, including 26 belonging to the B/Yamagata lineage and 65 to the B/Victoria lineage. The HA gene of Influenza B viruses circulating in the DRC showed deletions in the HA1 region. Molecular analysis of Influenza B viruses reflects the genetic diversity of Influenza B/Yam virus clades (Y2, Y3, Y3V1A) alternating with Influenza B/Victoria virus clades (V1A, V1A.3) depending on the year and influenza seasons. The phylogenetic analysis of these Influenza B strains shows compatibility with the corresponding vaccine strains that the WHO had validated for each influenza season. Conclusion: This study underscores the importance of continuous molecular surveillance of Influenza B viruses in the DRC to understand their epidemiology and evolutionary dynamics. Identifying mutations, such as HA deletions, is critical for assessing their impact on transmissibility vaccine efficacy and guiding effective vaccination and control strategies.展开更多
With the increasing demand for water in hydroponic systems and agricultural irrigation,viral diseases have seriously affected the yield and quality of crops.By removing plant viruses in water environments,virus transm...With the increasing demand for water in hydroponic systems and agricultural irrigation,viral diseases have seriously affected the yield and quality of crops.By removing plant viruses in water environments,virus transmission can be prevented and agricultural production and ecosystems can be protected.But so far,there have been few reports on the removal of plant viruses in water environments.Herein,in this study,easily recyclable biomass-based carbon nanotubes catalysts were synthesized with varying metal activities to activate peroxymonosulfate(PMS).Among them,the magnetic 0.125Fe@NCNTs-1/PMS system showed the best overall removal performance against pepper mild mottle virus,with a 5.9 log_(10)removal within 1 min.Notably,the key reactive species in the 0.125Fe@NCNTs-1/PMS system is^(1)O_(2),which can maintain good removal effect in real water matrices(river water and tap water).Through RNA fragment analyses and label free analysis,it was found that this system could effectively cleave virus particles,destroy viral proteins and expose their genome.The capsid protein of pepper mild mottle virus was effectively decomposed where serine may be the main attacking sites by^(1)O_(2).Long viral RNA fragments(3349 and 1642 nt)were cut into smaller fragments(∼160 nt)and caused their degradation.In summary,this study contributes to controlling the spread of plant viruses in real water environment,which will potentially help protect agricultural production and food safety,and improve the health and sustainability of ecosystems.展开更多
The common fig(Ficus carica L.),Moraceae family,is a commonly grown fruit tree in the Mediterranean region.Fig mosaic disease(FMD)poses a substantial threat to Saudi Arabia’s fig-producing economy.A survey was conduc...The common fig(Ficus carica L.),Moraceae family,is a commonly grown fruit tree in the Mediterranean region.Fig mosaic disease(FMD)poses a substantial threat to Saudi Arabia’s fig-producing economy.A survey was conducted during the two seasons of 2021 and 2022 on fig trees,displaying various fig mosaic disease symptoms.A total of 200 fig leaves and fruit samples were collected from various governorates in several Regions of Saudi Arabia including Riyadh,Tabuk,Hail,Qassim,Al-Jouf,Makkah,Jazan,Al-Madinah,Asir,and Northern Borders.These samples were tested by reverse transcription polymerase chain reaction(RT-PCR)with specific pairs of primers to assess the existence of Fig mosaic virus(FMV),Fig leaf mottle-associated virus 1(FLMaV-1),Fig leaf mottle-associated virus 2(FLMaV-2),Fig mild mottle-associated virus(FMMaV)and Fig fleck-associated virus(FFkaV).The results indicate that four viruses were found in mixed infections and tested positive.FMV was detected with a high infection rate of 46%followed by FLMaV-2 with an infection rate of 20%,FMMaV with an infection rate of 16%,and FLMaV-1 with an infection rate of 7%,respectively,while FFkaV was negative in all tested samples.Sequencing and phylogenetic analysis results showed that the FMV isolates shared 90.3%similarity with other FMV isolates,particularly those from Bosnia and Herzegovina(KU198368).While FLMaV-1 showed 92.5%similarity with the reference isolate FLMaV-1(KX397035),the isolates of FLMaV-2 exhibited 94.7%similarity with reference FLMaV-2 isolate(FN687742),and the isolate of FMMaV showed 94%similarity with reference FMMaV isolate(MG242131)based on sequence comparison.According to the RT-PCR results,FMV was effectively identified in all five fig varieties(Al Faiz Yellow,Asali,Brown Turkey,Iraqi,and Kaab Al-Ghazal).Contrarily,none of these varieties had FLMaV-1,FLMaV-2,or FMMaV.This study investigates the occurrence and economic impact of the viruses that infect fig trees in Saudi Arabia.This suggests that FMV is the primary virus infecting these fig varieties and there is no co-infection with the other tested viruses.These findings underscore the urgent need for implementing region-specific management strategies,such as breeding resistant cultivars,enforcing phytosanitary measures to limit virus spread,and prioritizing vector control to mitigate the economic impact of FMD on Saudi Arabia’s fig industry.展开更多
A growing interest in the comprehensive pathogenic mechanisms of psychiatric disorders from the perspective of the microbiome has been witnessed in recent decades;the intrinsic link between microbiota and brain functi...A growing interest in the comprehensive pathogenic mechanisms of psychiatric disorders from the perspective of the microbiome has been witnessed in recent decades;the intrinsic link between microbiota and brain function through the microbiota-gut-brain axis or other pathways has gradually been realized.However,little research has focused on viruses–entities characterized by smaller dimensions,simpler structures,greater diversity,and more intricate interactions with their surrounding milieu compared to bacteria.To date,alterations in several populations of bacteriophages and viruses have been documented in both mouse models and patients with psychiatric disorders,including schizophrenia,major depressive disorder,autism spectrum disorder,and Alzheimer’s disease,accompanied by metabolic disruptions that may directly or indirectly impact brain function.In addition,eukaryotic virus infection-mediated brain dysfunction provides insights into the psychiatric pathology involving viruses.Efforts towards virus-based diagnostic and therapeutic approaches have primarily been documented.However,limitations due to the lack of large-scale cohort studies,reliability,clinical applicability,and the unclear role of viruses in microbiota interactions pose a challenge for future studies.Nevertheless,it is conceivable that investigations into viruses herald a new era in the field of precise psychiatry.展开更多
Oncogenic viruses include both DNA and RNA viruses which contribute to cancer development by disrupting cellular regulation and interfering in the immune responses.These viruses do not directly cause cancer but instea...Oncogenic viruses include both DNA and RNA viruses which contribute to cancer development by disrupting cellular regulation and interfering in the immune responses.These viruses do not directly cause cancer but instead integrate their genetic material into the host genome thus,affecting cell cycle and tumor suppression.This deregulation also leads to impaired immune function and promotes tumor progression by disrupting the removal of infected cells.Generally,innate immunity consists of two important members,including mitochondria and cell deaths,which impact each other as well.Due to the close correlation between viruses,cell death pathways(apoptosis,necroptosis,and pyroptosis),and mitochondria(mitochondrial antiviral-signaling protein and reactive oxygen species generation),targeting these immune system representatives may offer therapeutic strategies to control the progression of oncogenic viral infections.Some previous studies have covered the association of oncogenic viruses with mitochondria and cell death pathways,respectively,but mitochondria and cell death interact with each other,separately,and this interaction may play a role in the progression of cancer induced by oncogenic viruses.Hence,the purpose of this review is to discuss the relationship between cell death,mitochondria,and viral oncogenesis,focusing on the most surveyed oncogenic viruses’mechanisms of action.展开更多
Interstitial hypertension and extracellular matrix(ECM)barriers imposed by cancer-associated fibroblasts(CAFs)at the tumor site significantly impede the retention of intratumorally administered oncolytic viruses(OVs)a...Interstitial hypertension and extracellular matrix(ECM)barriers imposed by cancer-associated fibroblasts(CAFs)at the tumor site significantly impede the retention of intratumorally administered oncolytic viruses(OVs)as well as their efficacy in infecting and eradicating tumor cells.Herein,a stable,controllable,and easily prepared hydrogel was developed for employing a differential release strategy to deliver OVs.The oncolytic herpes simplex virus-2(oH2)particles were loaded within sodium alginate(ALG),together with the small molecule drug PT-100 targeting CAFs.The rapid release of PT-100 functions as an anti-CAFs agent,reducing ECM,and alleviating interstitial pressure at the tumor site.Consequently,the delayed release of oH2 could more effectively invade and eradicate tumor cells while also facilitating enhanced infiltration of immune cells into the tumor microenvironment,thereby establishing an immunologically favorable milieu against tumors.This approach holds significant potential for achieving highly efficient oncolytic virus therapy with minimal toxicity,particularly in tumors rich in stromal components.展开更多
Though oncolytic viruses(OVs)hold significant potential for comprehensive treatment of malignant tumors,their systemic administration faces substantial challenges such as insufficient circulation time,inadequate tumor...Though oncolytic viruses(OVs)hold significant potential for comprehensive treatment of malignant tumors,their systemic administration faces substantial challenges such as insufficient circulation time,inadequate tumor targeting,and spontaneous antiviral immune response of the body,which seriously limits the clinical application of OVs.Herein,we proposed a tumor targeting strategy of tumor cell membrane biomimetic liposomes to encapsulate OVs for intravenous delivery,which enables OVs to target the homotypic tumor lesions and exert their oncolytic effect.On the one hand,this cell membrane biomimetic carrier enhanced the encapsulation of OVs by the hybrid lipid membranes,concealed the viral capsid proteins,and diminished the neutralization and clearance of the virions from the bloodstream.On the other hand,enhanced tumor targeted delivery can be achieved through the utilization of homologous adhesion molecules on the surface of tumor cell membrane.In addition,this strategy also promoted the tumor infiltration of CD4^(+),CD8^(+)T cells mediated by the oncolytic effect of OVs and increased the levels of inflammatory factors such as tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6)in the tumor,thereby effectively enhancing the anti-tumor effect of intravenous administration of OVs.The findings of our study demonstrate that T-L@Ad11 offers a handy and efficient approach for targeting tumors,thereby enhancing the antitumor efficacy of intravenous administration of OVs.展开更多
On January 30,2024,China announced the first human case of H10N5 influenza infection.Prior to this,human cases of H10N7 and H10N8 had been reported.It is now appropriate to re-examine the evolution and future epidemio...On January 30,2024,China announced the first human case of H10N5 influenza infection.Prior to this,human cases of H10N7 and H10N8 had been reported.It is now appropriate to re-examine the evolution and future epidemiological trends of the H10 and N5 subtypes of avian influenza viruses(AIVs).In this study,we analyzed the reassortment characteristics of the first human-derived H10N5 AIV(A/Zhejiang/ZJU01/2023),as well as the evolutionary dynamics of the wild bird-derived H10 and N5 subtypes of AIVs over the past decade.Our findings indicate that the human-derived H10N5 AIV exhibited low pathogenicity.A/bean_goose/Korea/KNU-10/2022(H10N7)and A/mallard/Novosibirsk_region/962k/2018(H12N5)were identified as the potential reassortment parents.The virus has existed since 2022 and several isolations have been reported in Bangladesh.Phylogenetic analysis showed that H10Ny and HxN5 AIVs in China are clustered differently based on the East Asian-Australian(eastern)and Central Asian-Indian(western)migratory flyways.The H10Ny and HxN5 AIV reassortant strains may cause human infections through accidental spillover.It is possible that another center of AIV evolution,mutation,and reassortment may be developing along the migratory flyways in northeastern Asia,distinct from Europe,the Americas,and China's Yangtze River Delta and Pearl River Delta,which should be closely monitored to ensure the safety of the public.展开更多
Background:Qi pi pill(QPP),which contains Renshen,Baizhu,Fuling,Gancao,Chenpi,Shanyao,Lianzi,Shanzha,Liushenqu,Maiya,and Zexie,was recommended for preventing and treating COVID-19 in Shandong Province(China).However,t...Background:Qi pi pill(QPP),which contains Renshen,Baizhu,Fuling,Gancao,Chenpi,Shanyao,Lianzi,Shanzha,Liushenqu,Maiya,and Zexie,was recommended for preventing and treating COVID-19 in Shandong Province(China).However,the mechanism by which QPP treats infectious diseases remains unclear.This study aims to investigate the therapeutic effect of QPP in vitro and on acute influenza infection in mice,exploring its mechanism of action against influenza A virus(IAV).Methods:The in vitro activity of QPP was assessed using dose–response curve analysis and titer reduction assay,and its antiviral mechanism was identified in vitro by realtime polymerase chain reaction(PCR),time-of-addition,and enzymatic assays.The antiviral efficacy of QPP was further evaluated in vivo using BALB/c mice infected with IAV.At the same time,each single Chinese herbal medicine in QPP was evaluated to preliminarily identify those with antiviral effects.Results:In vitro results showed that QPP exhibited a higher potency antiviral effect against both influenza A and B viruses,inhibiting viral RNA replication and release by targeting RNA-dependent RNA polymerase and neuraminidase.Additionally,QPP significantly decreased the expression of inflammatory cytokines in A549 cells.In vivo study revealed that QPP significantly reduced the lung index and viral load in lung tissue of mice infected with IAV.Renshen,Gancao,Zexie,and Lianzi were the Chinese herbal medicines from QPP that showed anti-IAV activity.Conclusion:The antiviral activity of QPP targets IAV replication and release,cytokine modulation in host cells,and provides protection in mice with acute influenza infection.展开更多
Viruses circulating in small mammals possess the potential to infect humans.Tree shrews are a group of small mammals inhabiting widely in forests and plantations,but studies on viruses in tree shrews are quite limited...Viruses circulating in small mammals possess the potential to infect humans.Tree shrews are a group of small mammals inhabiting widely in forests and plantations,but studies on viruses in tree shrews are quite limited.Herein,viral metagenomic sequencing was employed to detect the virome in the tissue and swab samples from seventy-six tree shrews that we collected in Yunnan Province.As the results,genomic fragments belonging to eighteen viral families were identified,thirteen of which contain mammalian viruses.Through polymerase chain reaction(PCR)and Sanger sequencing,twelve complete genomes were determined,including five parvoviruses,three torque teno viruses(TTVs),two adenoviruses,one pneumovirus,and one hepacivirus,together with three partial genomes,including two hepatitis E viruses and one paramyxovirus.Notably,the three TTVs,named TSTTV-HNU1,TSTTV-HNU2,and TSTTV-HNU3,may compose a new genus within the family Anelloviridae.Notably,TSParvoV-HNU5,one of the tree shrew parvoviruses detected,was likely to be a recombination of two murine viruses.Divergence time estimation further revealed the potential cross-species-transmission history of the tree shrew pneumovirus TSPneV-HNU1.Our study provides a comprehensive exploration of viral diversity in wild tree shrews,significantly enhancing our understanding of their roles as natural virus reservoirs.展开更多
Rift Valley fever virus(RVFV)is a high-containment pathogen that causes severe diseases in humans,with no approved therapeutics available.Its classification as a biosafety level 3(BSL-3)agent has limited research and ...Rift Valley fever virus(RVFV)is a high-containment pathogen that causes severe diseases in humans,with no approved therapeutics available.Its classification as a biosafety level 3(BSL-3)agent has limited research and therapeutic development due to safety concerns.In this study,we developed a stable replicon cell line maintaining the replication of L and S genomic segments of RVFV.Single-cycle viral replicon particles(VRPs)could be efficiently packaged through trans-complementation of glycoproteins from different strains,recapitulating authentic viral entry and replication while minimizing biosafety risks.Using this system,we conducted high-throughput screening of a small-molecule compound library and identified CNX-1351 as an antiviral agent for multiple RNA viruses.Mechanistic studies revealed that CNX-1351 inhibits viral replication,potentially by targeting the PI3K-Akt signaling pathway.This single-cycle VRP system provides a valuable tool for studying RVFV biology,host interactions,antiviral and vaccine development under reduced biosafety constraints.展开更多
The family Hepeviridae has seen an explosive expansion in its host range in recent years,yet the evolutionary trajectory of this zoonotic pathogen remains largely unknown.The emergence of rat hepatitis E virus(HEV)has...The family Hepeviridae has seen an explosive expansion in its host range in recent years,yet the evolutionary trajectory of this zoonotic pathogen remains largely unknown.The emergence of rat hepatitis E virus(HEV)has introduced a new public health threat due to its potential for zoonotic transmission.This study investigated2?464 wild small mammals spanning four animal orders,eight families,21 genera,and 37 species in Yunnan Province,China.Using broadly reactive reverse transcription-polymerase chain reaction(RT-PCR),we systematically screened the presence and prevalence of Orthohepevirus and identified 192 positive specimens from10 species,corresponding to an overall detection rate of7.79%.Next-generation sequencing enabled the recovery of 24 full-length genomic sequences from eight host species,including Bandicota bengalensis,Eothenomys eleusis,and Episoriculus caudatus,representing newly reported host species for Orthohepevirus strains.Phylogenetic and sequence analyses revealed extensive genetic diversity within orthohepeviruses infecting rodents and shrews.Notably,among the identified strains,20 were classified as Rocahepevirus ratti C1,two as C3,and one as Rocahepevirus eothenomi,while the remaining strain exhibited significant divergence,precluding classification.Evolutionary analyses highlighted close associations between orthohepeviruses and their respective host taxa,with distinct phylogenetic clustering patterns observed across different host orders.These findings emphasize the critical roles of co-speciation and cross-species transmission in shaping the evolutionary trajectories of the genera Paslahepevirus and Rocahepevirus.展开更多
African swine fever(ASF),caused by the African swine fever virus(ASFV),has brought enormous economic loss and represents a major threat to the global pig industry(Vergne et al.2017).ASFVs are divided into 24 genotypes...African swine fever(ASF),caused by the African swine fever virus(ASFV),has brought enormous economic loss and represents a major threat to the global pig industry(Vergne et al.2017).ASFVs are divided into 24 genotypes based on their B646L gene,with only genotypes Ⅰ and Ⅱ circulating globally(Dixon et al.2019).展开更多
Adventitious agents,comprising unintentionally introduced microorganisms in the production of biological products,pose a significant challenge in ensuring the safety of gene therapy products.The revised International ...Adventitious agents,comprising unintentionally introduced microorganisms in the production of biological products,pose a significant challenge in ensuring the safety of gene therapy products.The revised International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use(ICH)guildline Q5A(R2)from September 2022 highlights the inclusion of viral vector-based gene therapy products in safety discussions,emphasizing controls in material sourcing,testing,and viral clearance[1].Detecting adventitious virus contamination is complex due to the unique characteristics of gene therapy products and the limitations of routine testing methods.The US Food and Drug Administration(FDA)recommends incorporating routine and specific virus detection methods,including those outlined in various pharmacopeias.Existing control methods have limitations,prompting the need for highly sensitive and broad-spectrum detection approaches.Unlike traditional biological products,gene therapy products primarily consist of live viruses,necessitating methods that distinguish between the main virus and adventitious viruses.Current virus detection techniques,such as polymerase chain reaction(PCR),sequencing,mass spectrometry,and DNA microarrays[2e4],have their drawbacks.展开更多
Viral diseases are an important threat to crop yield,as they are responsible for losses greater than US$30 billion annually.Thus,understanding the dynamics of virus propagation within plant cells is essential for devi...Viral diseases are an important threat to crop yield,as they are responsible for losses greater than US$30 billion annually.Thus,understanding the dynamics of virus propagation within plant cells is essential for devising effective control strategies.However,viruses are complex to propagate and quantify.Existing methodologies for viral quantification tend to be expensive and time-consuming.Here,we present a rapid cost-effective approach to quantify viral propagation using an engineered virus expressing a fluorescent reporter.Using a microplate reader,we measured viral protein levels and we validated our findings through comparison by western blot analysis of viral coat protein,the most common approach to quantify viral titer.Our proposed methodology provides a practical and accessible approach to studying virus-host interactions and could contribute to enhancing our understanding of plant virology.展开更多
Loop-mediated isothermal amplification(LAMP) is an amplification method developed by Notomi et al and has been applied successfully for the detection of many viruses.This paper introduced the current status of LAMP ...Loop-mediated isothermal amplification(LAMP) is an amplification method developed by Notomi et al and has been applied successfully for the detection of many viruses.This paper introduced the current status of LAMP and recent developments,and the method applying in the diagnosis of animal viruses in abroad.展开更多
[Objective] The paper was to study molecular characteristics of gp90 gene of 14 Reticuloendotheliosis viruses isolated in China.[Method] The surface envelop gene gp90 of 14 REV strains isolated from different commerci...[Objective] The paper was to study molecular characteristics of gp90 gene of 14 Reticuloendotheliosis viruses isolated in China.[Method] The surface envelop gene gp90 of 14 REV strains isolated from different commercial layer farms in China were amplified,and their nucleotide sequences were determined.[Result] Sequence analysis showes that 14 REV strains are more identical to the subtype 3 isolates than to the early Chinese REV isolates.In addition,14 REV strains have a high identity with some REV strains in US and Taiwan.[Conclusion] The study provided necessary information for further understanding the evolution of REV.展开更多
Hepatotropic viruses induced hepatitis progresses much faster and causes more liver-related health problems in people co-infected with human immunodeficiency virus(HIV). Although treatment with antiretroviral therapy ...Hepatotropic viruses induced hepatitis progresses much faster and causes more liver-related health problems in people co-infected with human immunodeficiency virus(HIV). Although treatment with antiretroviral therapy has extended the life expectancy of people with HIV, liver disease induced by hepatitis B virus(HBV) and hepatitis C virus(HCV) causes significant numbers of non-acquired immune deficiency syndrome(AIDS)-related deaths in coinfected patients. In recent years, new insights into the mechanisms of accelerated fibrosis and liver disease progression in HIV/HCV and HIV/HBV co-infections have been reported. In this paper, we review recent studies examining the natural history and pathogenesis of liver disease in HIV-HCV/HBV co-infection in the era of direct acting antivirals(DAA) and antiretroviral therapy(ART). We also review the novel therapeutics for management of HIV/HCV and HIV/HBV coinfected individuals.展开更多
Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public h...Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public health.In spite of greater awareness of safety and containment procedures,the handling of pathogenic viruses remains a likely source of infection,and mortality,among laboratory workers.There is a steady increase in both the number of laboratories and scientist handling emerging viruses for diagnostics and research.The potential for harm associated to work with these infectious agents can be minimized through the application of sound biosafety concepts and practices.The main factors to the prevention of laboratory-acquired infection are well-trained personnel who are knowledgable and biohazard aware,who are perceptive of the various ways of transmission,and who are professional in safe laboratory practice management.In addition,we should emphasize that appropriate facilities,practices and procedures are to be used by the laboratory workers for the handling of emerging viruses in a safe and secure manner.This review is aimed at providing researchers and laboratory personnel with basic biosafety principles to protect themselves from exposure to emerging viruses while working in the laboratory.This paper focuses on what emerging viruses are,why emerging viruses can cause laboratory-acquired infection,how to assess the risk of working with emerging viruses,and how laboratory-acquired infection can be prevented.Control measures used in the laboratory designed as such that they protect workers from emerging viruses and safeguard the public through the safe disposal of infectious wastes are also addressed.展开更多
文摘Diel investigations of water environments are one means to holistically understand the dynamics and functional roles of phytoplankton,bacteria and viruses in these ecosystems.They have the potential to substantially impact carbon(C),nitrogen(N)and phosphorus(P)biogeochemistry through their respective roles.This study characterizes the phytoplankton,bacteria and virus communities and the elemental composition of various C,N and P nutrients flow over three diel cycles in tropical urban lake.Our results show that ratios of C:N:P fluctuated strongly from the lack of dissolved organic phosphorus(DOP)and PO_(4).Specifically,green algae peaked during day time and exudate dissolved organic matter(DOM)that strongly modulate dissolved organic carbon(DOC):DOP ratio to diel DOP limitation.Multiple linear regression and Stella modelling emphasize the roles of viruses together with Synechococcus as important nutrient recyclers of NH_(4)and PO_(4)in nutrients-limited waters.Respective normalised surface PO_(4)and combined surface and bottom NH_(4)concentration selected both viruses and Synechococcus as important drivers.Process model of N and P biogeochemical cycles can achieve 69%and 57%similar to observed concentration of NH_(4)and PO_(4),respectively.A short latent period of 9 hr was calculated,in addition to the calibrated high infectivity of viruses to Synechococcus.Taken together,the rapid turn-over between Synechococcus and viruses has biogeochemical significance,where the rapid recycling of essential nutrients allows for shortcuts in the N and P cycle,supporting a wide range of microbes.
文摘Introduction: Influenza A (Flu A) and B (Flu B) viruses are responsible for severe acute respiratory infections (SARI) worldwide, with a morbidity of 5 million and mortality of 29,000 - 650,000 deaths per year. Influenza B viruses are an important cause of respiratory infections in humans, but they tend to be underappreciated due to the predominance of Influenza A. No molecular study on Influenza B has been carried out in the DRC. This study was conducted to document the molecular evolution of the hemagglutinin (HA) gene in the circulating Influenza B strains over the eight consecutive epidemic seasons (from 2015 to 2022). Methods: Samples were collected from outpatient cases suspected of influenza-like illness (ILI) and in all hospitalized patients with SARI from January 2015 to December 2022. Molecular analysis was done to determine influenza type and subtype, and then segments encoding the HA gene of Influenza B viruses were performed. Results: Of 8497 samples collected and tested, 639 (7.5%) were positive for influenza viruses, including 389 (60.8%) for Influenza A viruses and 248 (38,8%) for Influenza B viruses. Of the positive Influenza B samples, 91 were sequenced, including 26 belonging to the B/Yamagata lineage and 65 to the B/Victoria lineage. The HA gene of Influenza B viruses circulating in the DRC showed deletions in the HA1 region. Molecular analysis of Influenza B viruses reflects the genetic diversity of Influenza B/Yam virus clades (Y2, Y3, Y3V1A) alternating with Influenza B/Victoria virus clades (V1A, V1A.3) depending on the year and influenza seasons. The phylogenetic analysis of these Influenza B strains shows compatibility with the corresponding vaccine strains that the WHO had validated for each influenza season. Conclusion: This study underscores the importance of continuous molecular surveillance of Influenza B viruses in the DRC to understand their epidemiology and evolutionary dynamics. Identifying mutations, such as HA deletions, is critical for assessing their impact on transmissibility vaccine efficacy and guiding effective vaccination and control strategies.
基金supported by the National Natural Science Foundation of China(No.52170060)the Major Science and Technology Project from the Ministry of Water Resources(No.SKS-2022069)the Science and Technology Program of Inner Mongolia Autonomous Region(No.2021GG0089).
文摘With the increasing demand for water in hydroponic systems and agricultural irrigation,viral diseases have seriously affected the yield and quality of crops.By removing plant viruses in water environments,virus transmission can be prevented and agricultural production and ecosystems can be protected.But so far,there have been few reports on the removal of plant viruses in water environments.Herein,in this study,easily recyclable biomass-based carbon nanotubes catalysts were synthesized with varying metal activities to activate peroxymonosulfate(PMS).Among them,the magnetic 0.125Fe@NCNTs-1/PMS system showed the best overall removal performance against pepper mild mottle virus,with a 5.9 log_(10)removal within 1 min.Notably,the key reactive species in the 0.125Fe@NCNTs-1/PMS system is^(1)O_(2),which can maintain good removal effect in real water matrices(river water and tap water).Through RNA fragment analyses and label free analysis,it was found that this system could effectively cleave virus particles,destroy viral proteins and expose their genome.The capsid protein of pepper mild mottle virus was effectively decomposed where serine may be the main attacking sites by^(1)O_(2).Long viral RNA fragments(3349 and 1642 nt)were cut into smaller fragments(∼160 nt)and caused their degradation.In summary,this study contributes to controlling the spread of plant viruses in real water environment,which will potentially help protect agricultural production and food safety,and improve the health and sustainability of ecosystems.
文摘The common fig(Ficus carica L.),Moraceae family,is a commonly grown fruit tree in the Mediterranean region.Fig mosaic disease(FMD)poses a substantial threat to Saudi Arabia’s fig-producing economy.A survey was conducted during the two seasons of 2021 and 2022 on fig trees,displaying various fig mosaic disease symptoms.A total of 200 fig leaves and fruit samples were collected from various governorates in several Regions of Saudi Arabia including Riyadh,Tabuk,Hail,Qassim,Al-Jouf,Makkah,Jazan,Al-Madinah,Asir,and Northern Borders.These samples were tested by reverse transcription polymerase chain reaction(RT-PCR)with specific pairs of primers to assess the existence of Fig mosaic virus(FMV),Fig leaf mottle-associated virus 1(FLMaV-1),Fig leaf mottle-associated virus 2(FLMaV-2),Fig mild mottle-associated virus(FMMaV)and Fig fleck-associated virus(FFkaV).The results indicate that four viruses were found in mixed infections and tested positive.FMV was detected with a high infection rate of 46%followed by FLMaV-2 with an infection rate of 20%,FMMaV with an infection rate of 16%,and FLMaV-1 with an infection rate of 7%,respectively,while FFkaV was negative in all tested samples.Sequencing and phylogenetic analysis results showed that the FMV isolates shared 90.3%similarity with other FMV isolates,particularly those from Bosnia and Herzegovina(KU198368).While FLMaV-1 showed 92.5%similarity with the reference isolate FLMaV-1(KX397035),the isolates of FLMaV-2 exhibited 94.7%similarity with reference FLMaV-2 isolate(FN687742),and the isolate of FMMaV showed 94%similarity with reference FMMaV isolate(MG242131)based on sequence comparison.According to the RT-PCR results,FMV was effectively identified in all five fig varieties(Al Faiz Yellow,Asali,Brown Turkey,Iraqi,and Kaab Al-Ghazal).Contrarily,none of these varieties had FLMaV-1,FLMaV-2,or FMMaV.This study investigates the occurrence and economic impact of the viruses that infect fig trees in Saudi Arabia.This suggests that FMV is the primary virus infecting these fig varieties and there is no co-infection with the other tested viruses.These findings underscore the urgent need for implementing region-specific management strategies,such as breeding resistant cultivars,enforcing phytosanitary measures to limit virus spread,and prioritizing vector control to mitigate the economic impact of FMD on Saudi Arabia’s fig industry.
基金supported by The Research Project of Jinan Microecological Biomedicine Shandong Laboratory(JNL-2023001B)The National Key Research and Development Program of China(2023YFC2506200)+2 种基金The Zhejiang Provincial Key Research and Development Program(2021C03107)The Leading Talent of Scientific and Technological Innovation-“Ten Thousand Talents Program”of Zhejiang Province(2021R52016)The Fundamental Research Funds for the Central Universities(226-2022-00193,226-2022-00002,2023ZFJH01-01,and 2024ZFJH01-01).
文摘A growing interest in the comprehensive pathogenic mechanisms of psychiatric disorders from the perspective of the microbiome has been witnessed in recent decades;the intrinsic link between microbiota and brain function through the microbiota-gut-brain axis or other pathways has gradually been realized.However,little research has focused on viruses–entities characterized by smaller dimensions,simpler structures,greater diversity,and more intricate interactions with their surrounding milieu compared to bacteria.To date,alterations in several populations of bacteriophages and viruses have been documented in both mouse models and patients with psychiatric disorders,including schizophrenia,major depressive disorder,autism spectrum disorder,and Alzheimer’s disease,accompanied by metabolic disruptions that may directly or indirectly impact brain function.In addition,eukaryotic virus infection-mediated brain dysfunction provides insights into the psychiatric pathology involving viruses.Efforts towards virus-based diagnostic and therapeutic approaches have primarily been documented.However,limitations due to the lack of large-scale cohort studies,reliability,clinical applicability,and the unclear role of viruses in microbiota interactions pose a challenge for future studies.Nevertheless,it is conceivable that investigations into viruses herald a new era in the field of precise psychiatry.
文摘Oncogenic viruses include both DNA and RNA viruses which contribute to cancer development by disrupting cellular regulation and interfering in the immune responses.These viruses do not directly cause cancer but instead integrate their genetic material into the host genome thus,affecting cell cycle and tumor suppression.This deregulation also leads to impaired immune function and promotes tumor progression by disrupting the removal of infected cells.Generally,innate immunity consists of two important members,including mitochondria and cell deaths,which impact each other as well.Due to the close correlation between viruses,cell death pathways(apoptosis,necroptosis,and pyroptosis),and mitochondria(mitochondrial antiviral-signaling protein and reactive oxygen species generation),targeting these immune system representatives may offer therapeutic strategies to control the progression of oncogenic viral infections.Some previous studies have covered the association of oncogenic viruses with mitochondria and cell death pathways,respectively,but mitochondria and cell death interact with each other,separately,and this interaction may play a role in the progression of cancer induced by oncogenic viruses.Hence,the purpose of this review is to discuss the relationship between cell death,mitochondria,and viral oncogenesis,focusing on the most surveyed oncogenic viruses’mechanisms of action.
基金supported by the National Key R&D Program of China(No.2022YFC2403401)the National Natural Science Foundation of China(Nos.82073368,82303766)+2 种基金the Liaoning Revitalization Talents Program(No.XLYC2007071)the China Postdoctoral Science Foundation(No.2023M743908)the Joint Program of Science and Technology Program of Liaoning Province(No.2023JH2/101700094).
文摘Interstitial hypertension and extracellular matrix(ECM)barriers imposed by cancer-associated fibroblasts(CAFs)at the tumor site significantly impede the retention of intratumorally administered oncolytic viruses(OVs)as well as their efficacy in infecting and eradicating tumor cells.Herein,a stable,controllable,and easily prepared hydrogel was developed for employing a differential release strategy to deliver OVs.The oncolytic herpes simplex virus-2(oH2)particles were loaded within sodium alginate(ALG),together with the small molecule drug PT-100 targeting CAFs.The rapid release of PT-100 functions as an anti-CAFs agent,reducing ECM,and alleviating interstitial pressure at the tumor site.Consequently,the delayed release of oH2 could more effectively invade and eradicate tumor cells while also facilitating enhanced infiltration of immune cells into the tumor microenvironment,thereby establishing an immunologically favorable milieu against tumors.This approach holds significant potential for achieving highly efficient oncolytic virus therapy with minimal toxicity,particularly in tumors rich in stromal components.
基金supported by the National Key R&D Program of China(No.2022YFC2403401)the National Natural Science Foundation of China(nos.82073368,82303766)+2 种基金the Liaoning Revitalization Talents Program(No.XLYC2007071)the China Postdoctoral Science Foundation(No.2023M743908)the Joint Program of Science and Technology Program of Liaoning Province(No.2023JH2/101700094).
文摘Though oncolytic viruses(OVs)hold significant potential for comprehensive treatment of malignant tumors,their systemic administration faces substantial challenges such as insufficient circulation time,inadequate tumor targeting,and spontaneous antiviral immune response of the body,which seriously limits the clinical application of OVs.Herein,we proposed a tumor targeting strategy of tumor cell membrane biomimetic liposomes to encapsulate OVs for intravenous delivery,which enables OVs to target the homotypic tumor lesions and exert their oncolytic effect.On the one hand,this cell membrane biomimetic carrier enhanced the encapsulation of OVs by the hybrid lipid membranes,concealed the viral capsid proteins,and diminished the neutralization and clearance of the virions from the bloodstream.On the other hand,enhanced tumor targeted delivery can be achieved through the utilization of homologous adhesion molecules on the surface of tumor cell membrane.In addition,this strategy also promoted the tumor infiltration of CD4^(+),CD8^(+)T cells mediated by the oncolytic effect of OVs and increased the levels of inflammatory factors such as tumor necrosis factor-α(TNF-α)and interleukin-6(IL-6)in the tumor,thereby effectively enhancing the anti-tumor effect of intravenous administration of OVs.The findings of our study demonstrate that T-L@Ad11 offers a handy and efficient approach for targeting tumors,thereby enhancing the antitumor efficacy of intravenous administration of OVs.
基金funded by the National Natural Science Foundation of China(81872673)the Shanghai New Three-year Action Plan for Public Health(GWVI-11.1-03).
文摘On January 30,2024,China announced the first human case of H10N5 influenza infection.Prior to this,human cases of H10N7 and H10N8 had been reported.It is now appropriate to re-examine the evolution and future epidemiological trends of the H10 and N5 subtypes of avian influenza viruses(AIVs).In this study,we analyzed the reassortment characteristics of the first human-derived H10N5 AIV(A/Zhejiang/ZJU01/2023),as well as the evolutionary dynamics of the wild bird-derived H10 and N5 subtypes of AIVs over the past decade.Our findings indicate that the human-derived H10N5 AIV exhibited low pathogenicity.A/bean_goose/Korea/KNU-10/2022(H10N7)and A/mallard/Novosibirsk_region/962k/2018(H12N5)were identified as the potential reassortment parents.The virus has existed since 2022 and several isolations have been reported in Bangladesh.Phylogenetic analysis showed that H10Ny and HxN5 AIVs in China are clustered differently based on the East Asian-Australian(eastern)and Central Asian-Indian(western)migratory flyways.The H10Ny and HxN5 AIV reassortant strains may cause human infections through accidental spillover.It is possible that another center of AIV evolution,mutation,and reassortment may be developing along the migratory flyways in northeastern Asia,distinct from Europe,the Americas,and China's Yangtze River Delta and Pearl River Delta,which should be closely monitored to ensure the safety of the public.
基金Special Emergency research and development of Social Benefiting Technology Program,Qingdao,Grant/Award Number:23-7-8-smjk-3-nshProject for Development of TCM Science and Technology of Shandong Province,Grant/Award Number:M-2022145+1 种基金Major Basic Program of Natural Science Foundation of Shandong Province,Grant/Award Number:ZR2021ZD17Jinan City Funding for University Innovation Teams,Grant/Award Number:2021GXRC028。
文摘Background:Qi pi pill(QPP),which contains Renshen,Baizhu,Fuling,Gancao,Chenpi,Shanyao,Lianzi,Shanzha,Liushenqu,Maiya,and Zexie,was recommended for preventing and treating COVID-19 in Shandong Province(China).However,the mechanism by which QPP treats infectious diseases remains unclear.This study aims to investigate the therapeutic effect of QPP in vitro and on acute influenza infection in mice,exploring its mechanism of action against influenza A virus(IAV).Methods:The in vitro activity of QPP was assessed using dose–response curve analysis and titer reduction assay,and its antiviral mechanism was identified in vitro by realtime polymerase chain reaction(PCR),time-of-addition,and enzymatic assays.The antiviral efficacy of QPP was further evaluated in vivo using BALB/c mice infected with IAV.At the same time,each single Chinese herbal medicine in QPP was evaluated to preliminarily identify those with antiviral effects.Results:In vitro results showed that QPP exhibited a higher potency antiviral effect against both influenza A and B viruses,inhibiting viral RNA replication and release by targeting RNA-dependent RNA polymerase and neuraminidase.Additionally,QPP significantly decreased the expression of inflammatory cytokines in A549 cells.In vivo study revealed that QPP significantly reduced the lung index and viral load in lung tissue of mice infected with IAV.Renshen,Gancao,Zexie,and Lianzi were the Chinese herbal medicines from QPP that showed anti-IAV activity.Conclusion:The antiviral activity of QPP targets IAV replication and release,cytokine modulation in host cells,and provides protection in mice with acute influenza infection.
基金funded by the National Natural Science Foundation of China(No.U2002218)the Science and Technology Innovation Program of Hunan Province(2024RC1028)Hunan University(No.521119400156).
文摘Viruses circulating in small mammals possess the potential to infect humans.Tree shrews are a group of small mammals inhabiting widely in forests and plantations,but studies on viruses in tree shrews are quite limited.Herein,viral metagenomic sequencing was employed to detect the virome in the tissue and swab samples from seventy-six tree shrews that we collected in Yunnan Province.As the results,genomic fragments belonging to eighteen viral families were identified,thirteen of which contain mammalian viruses.Through polymerase chain reaction(PCR)and Sanger sequencing,twelve complete genomes were determined,including five parvoviruses,three torque teno viruses(TTVs),two adenoviruses,one pneumovirus,and one hepacivirus,together with three partial genomes,including two hepatitis E viruses and one paramyxovirus.Notably,the three TTVs,named TSTTV-HNU1,TSTTV-HNU2,and TSTTV-HNU3,may compose a new genus within the family Anelloviridae.Notably,TSParvoV-HNU5,one of the tree shrew parvoviruses detected,was likely to be a recombination of two murine viruses.Divergence time estimation further revealed the potential cross-species-transmission history of the tree shrew pneumovirus TSPneV-HNU1.Our study provides a comprehensive exploration of viral diversity in wild tree shrews,significantly enhancing our understanding of their roles as natural virus reservoirs.
基金Grants from the Program of Shanghai Academic Research Leader(22XD1420600)Shanghai Municipal Science and Technology Major Project(ZD2021CY001)+2 种基金National Natural Science Foundation of China(81974305)Shenzhen Medical Research Fund(SMRF No.B2302029)Non-profit Central Research Institute Fund of Chinese Academy of Medical Sciences(2023-PT310-02)supported this work.
文摘Rift Valley fever virus(RVFV)is a high-containment pathogen that causes severe diseases in humans,with no approved therapeutics available.Its classification as a biosafety level 3(BSL-3)agent has limited research and therapeutic development due to safety concerns.In this study,we developed a stable replicon cell line maintaining the replication of L and S genomic segments of RVFV.Single-cycle viral replicon particles(VRPs)could be efficiently packaged through trans-complementation of glycoproteins from different strains,recapitulating authentic viral entry and replication while minimizing biosafety risks.Using this system,we conducted high-throughput screening of a small-molecule compound library and identified CNX-1351 as an antiviral agent for multiple RNA viruses.Mechanistic studies revealed that CNX-1351 inhibits viral replication,potentially by targeting the PI3K-Akt signaling pathway.This single-cycle VRP system provides a valuable tool for studying RVFV biology,host interactions,antiviral and vaccine development under reduced biosafety constraints.
基金supported by the National Natural Science Foundation of China (U2002218,81874274)Yunnan Health Training Project of High Level Talents (L-2017027)+3 种基金Project of Cross-border Control and Quarantine Innovation Group of Zoonosis of Dali University (ZKPY2019302)to Y.Z.ZOpen Project of Yunnan Key Laboratory of Biodiversity Information (BIKF22-02)Youth Innovation Promotion Association of the Chinese Academy of SciencesYunnan Revitalization Talent Support Program Young Talent Project to X.L.Y。
文摘The family Hepeviridae has seen an explosive expansion in its host range in recent years,yet the evolutionary trajectory of this zoonotic pathogen remains largely unknown.The emergence of rat hepatitis E virus(HEV)has introduced a new public health threat due to its potential for zoonotic transmission.This study investigated2?464 wild small mammals spanning four animal orders,eight families,21 genera,and 37 species in Yunnan Province,China.Using broadly reactive reverse transcription-polymerase chain reaction(RT-PCR),we systematically screened the presence and prevalence of Orthohepevirus and identified 192 positive specimens from10 species,corresponding to an overall detection rate of7.79%.Next-generation sequencing enabled the recovery of 24 full-length genomic sequences from eight host species,including Bandicota bengalensis,Eothenomys eleusis,and Episoriculus caudatus,representing newly reported host species for Orthohepevirus strains.Phylogenetic and sequence analyses revealed extensive genetic diversity within orthohepeviruses infecting rodents and shrews.Notably,among the identified strains,20 were classified as Rocahepevirus ratti C1,two as C3,and one as Rocahepevirus eothenomi,while the remaining strain exhibited significant divergence,precluding classification.Evolutionary analyses highlighted close associations between orthohepeviruses and their respective host taxa,with distinct phylogenetic clustering patterns observed across different host orders.These findings emphasize the critical roles of co-speciation and cross-species transmission in shaping the evolutionary trajectories of the genera Paslahepevirus and Rocahepevirus.
基金supported by the National Natural Science Fund for Distinguished Young Scholars of China(31925036 and 32025034)the Shandong Provincial Key R&D Program,China(2021LZGC001)+3 种基金the Biological Breeding-Major Projects,Institute of Zoology,Chinese Academy of Sciences and Institute of Animal Science,Chinese Academy of Agricultural Sciences(2023ZD04074 and 2023ZD0404604)the Special Project of Longhu Laboratory,China(LHLab_ZD20230012)the National Natural Science Foundation of China(32230100,32330099 and 32201257)the National Key Research and Development Program of China(2020YFA0509503,2022YFF0710703,2021YFA0805902 and 2022XAGG0121,2022YFF1002803).
文摘African swine fever(ASF),caused by the African swine fever virus(ASFV),has brought enormous economic loss and represents a major threat to the global pig industry(Vergne et al.2017).ASFVs are divided into 24 genotypes based on their B646L gene,with only genotypes Ⅰ and Ⅱ circulating globally(Dixon et al.2019).
基金financially supported by Beijing Municipal Science&Technology Commission,China(Grant No.:Z221100007922015)Youth Development Research Foundation of National Institutes for Food and Drug Control,China(Grant No.:2020B1).
文摘Adventitious agents,comprising unintentionally introduced microorganisms in the production of biological products,pose a significant challenge in ensuring the safety of gene therapy products.The revised International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use(ICH)guildline Q5A(R2)from September 2022 highlights the inclusion of viral vector-based gene therapy products in safety discussions,emphasizing controls in material sourcing,testing,and viral clearance[1].Detecting adventitious virus contamination is complex due to the unique characteristics of gene therapy products and the limitations of routine testing methods.The US Food and Drug Administration(FDA)recommends incorporating routine and specific virus detection methods,including those outlined in various pharmacopeias.Existing control methods have limitations,prompting the need for highly sensitive and broad-spectrum detection approaches.Unlike traditional biological products,gene therapy products primarily consist of live viruses,necessitating methods that distinguish between the main virus and adventitious viruses.Current virus detection techniques,such as polymerase chain reaction(PCR),sequencing,mass spectrometry,and DNA microarrays[2e4],have their drawbacks.
基金Funding from Natural Sciences and Engineering Research Council of Canada award number RGPIN/4002-2020.
文摘Viral diseases are an important threat to crop yield,as they are responsible for losses greater than US$30 billion annually.Thus,understanding the dynamics of virus propagation within plant cells is essential for devising effective control strategies.However,viruses are complex to propagate and quantify.Existing methodologies for viral quantification tend to be expensive and time-consuming.Here,we present a rapid cost-effective approach to quantify viral propagation using an engineered virus expressing a fluorescent reporter.Using a microplate reader,we measured viral protein levels and we validated our findings through comparison by western blot analysis of viral coat protein,the most common approach to quantify viral titer.Our proposed methodology provides a practical and accessible approach to studying virus-host interactions and could contribute to enhancing our understanding of plant virology.
文摘Loop-mediated isothermal amplification(LAMP) is an amplification method developed by Notomi et al and has been applied successfully for the detection of many viruses.This paper introduced the current status of LAMP and recent developments,and the method applying in the diagnosis of animal viruses in abroad.
基金Supported by Earmarked Fund for Modern Agro-industry Technology Research System of China ( nycytx-42-G3-01)~~
文摘[Objective] The paper was to study molecular characteristics of gp90 gene of 14 Reticuloendotheliosis viruses isolated in China.[Method] The surface envelop gene gp90 of 14 REV strains isolated from different commercial layer farms in China were amplified,and their nucleotide sequences were determined.[Result] Sequence analysis showes that 14 REV strains are more identical to the subtype 3 isolates than to the early Chinese REV isolates.In addition,14 REV strains have a high identity with some REV strains in US and Taiwan.[Conclusion] The study provided necessary information for further understanding the evolution of REV.
基金National Institutes of Health,No.NIAAAK01AA026864
文摘Hepatotropic viruses induced hepatitis progresses much faster and causes more liver-related health problems in people co-infected with human immunodeficiency virus(HIV). Although treatment with antiretroviral therapy has extended the life expectancy of people with HIV, liver disease induced by hepatitis B virus(HBV) and hepatitis C virus(HCV) causes significant numbers of non-acquired immune deficiency syndrome(AIDS)-related deaths in coinfected patients. In recent years, new insights into the mechanisms of accelerated fibrosis and liver disease progression in HIV/HCV and HIV/HBV co-infections have been reported. In this paper, we review recent studies examining the natural history and pathogenesis of liver disease in HIV-HCV/HBV co-infection in the era of direct acting antivirals(DAA) and antiretroviral therapy(ART). We also review the novel therapeutics for management of HIV/HCV and HIV/HBV coinfected individuals.
文摘Emerging viruses are viruses whose occurrence has risen within the past twenty years,or whose presence is likely to increase in the near future.Diseases caused by emerging viruses are a major threat to global public health.In spite of greater awareness of safety and containment procedures,the handling of pathogenic viruses remains a likely source of infection,and mortality,among laboratory workers.There is a steady increase in both the number of laboratories and scientist handling emerging viruses for diagnostics and research.The potential for harm associated to work with these infectious agents can be minimized through the application of sound biosafety concepts and practices.The main factors to the prevention of laboratory-acquired infection are well-trained personnel who are knowledgable and biohazard aware,who are perceptive of the various ways of transmission,and who are professional in safe laboratory practice management.In addition,we should emphasize that appropriate facilities,practices and procedures are to be used by the laboratory workers for the handling of emerging viruses in a safe and secure manner.This review is aimed at providing researchers and laboratory personnel with basic biosafety principles to protect themselves from exposure to emerging viruses while working in the laboratory.This paper focuses on what emerging viruses are,why emerging viruses can cause laboratory-acquired infection,how to assess the risk of working with emerging viruses,and how laboratory-acquired infection can be prevented.Control measures used in the laboratory designed as such that they protect workers from emerging viruses and safeguard the public through the safe disposal of infectious wastes are also addressed.
