Background Overseas imported dengue fever is an important factor in local outbreaks of this disease in the mainland of China.To better prevent and control such local outbreaks,the epidemiological characteristics and t...Background Overseas imported dengue fever is an important factor in local outbreaks of this disease in the mainland of China.To better prevent and control such local outbreaks,the epidemiological characteristics and temporal-spatial distribution of overseas imported dengue fever cases in provincial-level administrative divisions(PLADs)where dengue fever is outbreak in the mainland of China were explored.Methods Using the Chinese National Notifiable Infectious Disease Reporting Information System(CNNDS),we identified overseas imported dengue fever cases in dengue fever outbreak areas in the mainland of China from 2005 to 2019 to draw the epidemic curve and population characteristic distribution of overseas imported cases in each PLAD.Based on spatial autocorrelation analysis of ArcGIS 10.5 and temporal-spatial scanning analysis of SaTScan 9.5,we analyzed the temporal-spatial distribution of overseas imported dengue fever in dengue fever outbreak areas in the mainland of China.Results A total of 11,407 imported cases,mainly from Southeast Asia,were recorded from 2005 to 2019 in these 13 PLADs.Of which 62.1%were imported into Yunnan and Guangdong Provinces.Among the imported cases,there were more males than females,mainly from the 21–50 age group.The hot spots were concentrated in parts of Yunnan,Guangdong and Fujian Provinces.We found the cluster of infected areas were expanding northward.Conclusions Based on the analysis of overseas imported dengue cases in 13 PLADs of the mainland of China from 2005 to 2019,we obtained the epidemiological characteristics and spatial distribution of imported dengue cases.Border controls need to pay attention to key population sectors,such as 21–50 years old men and education of key populations on dengue prevention.There is a need to improve the awareness of the prevention and control of imported cases in border areas.At the same time,northern regions cannot relax their vigilance.展开更多
Background The current prevention and control strategy forAedes albopictus heavily relies on comprehensive management, such as environmental management and chemical control. However, the wide application of pyrethroid...Background The current prevention and control strategy forAedes albopictus heavily relies on comprehensive management, such as environmental management and chemical control. However, the wide application of pyrethroids has facilitated the development of insecticide resistance, primarily via mutations in the voltage-gated sodium channel (VGSC) gene. This study aims to develop a novel strategy for detecting mutations in the VGSC gene inAe. albopictus using multiplex PCR-mass spectrometry (MPCR-MS) minisequencing technology.Methods We established a new strategy for detecting mutations in the VGSC gene inAe. albopictus using MPCR-MS minisequencing technology. MPCR amplification and mass probe extension (MPE) were first used, followed by single nucleotide polymorphism (SNP) typing mass spectrometry, which allows the simultaneous detection of multiple mutation sites of the VGSC gene in 96 samples ofAe. albopictus. A total of 70 wild-collectedAe. albopictus were used to evaluate the performance of the method by comparing it with other methods.Results Three target sites (1016, 1532, 1534) in the VGSC gene can be detected simultaneously by double PCR amplification combined with matrix-assisted laser desorption ionization-time-of-flight mass spectrometry, achieving a detection limit of 20 fg/μl. We applied this method to 70 wild-collectedAe. albopictus, and the obtained genotypes were consistent with the routine sequencing results, suggesting the accuracy of our method.Conclusions MPCR-MS minisequencing technology provides a sensitive and high-throughput approach toAe. albopictus VGSC gene mutation screening. Compared with conventional sequencing, this method is economical and time-saving. It is of great value for insecticide resistance surveillance in areas with a high risk of vector-borne disease.展开更多
Climatic factors are closely associated with the occurrence of vector‐borne diseases,and they also influence the distribution of vectors.The occurrence of plague is closely related to the population dynamics of fleas...Climatic factors are closely associated with the occurrence of vector‐borne diseases,and they also influence the distribution of vectors.The occurrence of plague is closely related to the population dynamics of fleas and their host animals,as well as climatic conditions.This study focused on Xilingol League,utilizing climatic and flea index data from 2012 to 2021.Spearman correlation and"Boruta"importance analysis were conducted to screen for climatic variables.A generalized additive model(GAM)was employed to investigate the influence of climatic factors and rodent density on the flea index.GAM analysis revealed distinct trends in flea index among different rodent hosts.For Meriones unguiculatus,the flea index declined with increased density and with higher humidity,yet rose with greater lagged sunshine duration.For Spermophilus dauricus,an initial increase in flea index with density was observed,followed by a decrease,and a rise in the index was noted when ground temperatures were low.This study reveals the nonlinear interactions and lag effects among climatic factors,density,and flea index.Climatic factors and density variably influence the flea index of two Yersinia pestis hosts.This research advances the prediction and early warning efforts for plague control,providing a theoretical basis for rodent and flea eradication strategies.展开更多
Parasite-mediated selection is widely believed to play a crucial role in maintaining the diversity of the major histocompatibility complex(MHC)genes,which is thought to be maintained through heterozygote advantage,rar...Parasite-mediated selection is widely believed to play a crucial role in maintaining the diversity of the major histocompatibility complex(MHC)genes,which is thought to be maintained through heterozygote advantage,rare-allele advantage,and fluctuating selection.However,the relationship between parasite pressure and MHC diversity has yielded inconsistent findings.These inconsistencies may arise from the influence of environmental factors and individual variations in traits on host–parasite interactions.To address these issues,our study extensively investigated populations of striped hamsters inhabiting regions characterized by environmental heterogeneity.The primary objective was to examine the universality of parasite-mediated selection mechanisms.Our observations revealed the presence of multiple parasite infections,accompanied by spatial and temporal variations in parasite communities and infection patterns among individual hamsters.Specifically,the temperature was found to influence all four parasite indices,while the presence of gamasid mites and parasite richness decreased with increasing precipitation.We also noted significant seasonal variation in parasite dynamics.Moreover,a significant sexual dimorphism was observed with males exhibiting a considerably higher parasite burden compared to their female counterparts.Lastly,we identified the maintenance of MHC polymorphism in striped hamsters as being driven by the heterozygote advantage and fluctuating selection mechanisms.This study underscores the significance of ecological processes in comprehending host–parasite systems and highlights the necessity of considering environmental factors and individual traits when elucidating the mechanisms underlying MHC diversity mediated by parasites.展开更多
文摘Background Overseas imported dengue fever is an important factor in local outbreaks of this disease in the mainland of China.To better prevent and control such local outbreaks,the epidemiological characteristics and temporal-spatial distribution of overseas imported dengue fever cases in provincial-level administrative divisions(PLADs)where dengue fever is outbreak in the mainland of China were explored.Methods Using the Chinese National Notifiable Infectious Disease Reporting Information System(CNNDS),we identified overseas imported dengue fever cases in dengue fever outbreak areas in the mainland of China from 2005 to 2019 to draw the epidemic curve and population characteristic distribution of overseas imported cases in each PLAD.Based on spatial autocorrelation analysis of ArcGIS 10.5 and temporal-spatial scanning analysis of SaTScan 9.5,we analyzed the temporal-spatial distribution of overseas imported dengue fever in dengue fever outbreak areas in the mainland of China.Results A total of 11,407 imported cases,mainly from Southeast Asia,were recorded from 2005 to 2019 in these 13 PLADs.Of which 62.1%were imported into Yunnan and Guangdong Provinces.Among the imported cases,there were more males than females,mainly from the 21–50 age group.The hot spots were concentrated in parts of Yunnan,Guangdong and Fujian Provinces.We found the cluster of infected areas were expanding northward.Conclusions Based on the analysis of overseas imported dengue cases in 13 PLADs of the mainland of China from 2005 to 2019,we obtained the epidemiological characteristics and spatial distribution of imported dengue cases.Border controls need to pay attention to key population sectors,such as 21–50 years old men and education of key populations on dengue prevention.There is a need to improve the awareness of the prevention and control of imported cases in border areas.At the same time,northern regions cannot relax their vigilance.
基金National Science and Technology Major Project of China(No. 2018ZX10101002-002)。
文摘Background The current prevention and control strategy forAedes albopictus heavily relies on comprehensive management, such as environmental management and chemical control. However, the wide application of pyrethroids has facilitated the development of insecticide resistance, primarily via mutations in the voltage-gated sodium channel (VGSC) gene. This study aims to develop a novel strategy for detecting mutations in the VGSC gene inAe. albopictus using multiplex PCR-mass spectrometry (MPCR-MS) minisequencing technology.Methods We established a new strategy for detecting mutations in the VGSC gene inAe. albopictus using MPCR-MS minisequencing technology. MPCR amplification and mass probe extension (MPE) were first used, followed by single nucleotide polymorphism (SNP) typing mass spectrometry, which allows the simultaneous detection of multiple mutation sites of the VGSC gene in 96 samples ofAe. albopictus. A total of 70 wild-collectedAe. albopictus were used to evaluate the performance of the method by comparing it with other methods.Results Three target sites (1016, 1532, 1534) in the VGSC gene can be detected simultaneously by double PCR amplification combined with matrix-assisted laser desorption ionization-time-of-flight mass spectrometry, achieving a detection limit of 20 fg/μl. We applied this method to 70 wild-collectedAe. albopictus, and the obtained genotypes were consistent with the routine sequencing results, suggesting the accuracy of our method.Conclusions MPCR-MS minisequencing technology provides a sensitive and high-throughput approach toAe. albopictus VGSC gene mutation screening. Compared with conventional sequencing, this method is economical and time-saving. It is of great value for insecticide resistance surveillance in areas with a high risk of vector-borne disease.
基金supported by the Major Program of National Natural Science Foundation of China(32090023).
文摘Climatic factors are closely associated with the occurrence of vector‐borne diseases,and they also influence the distribution of vectors.The occurrence of plague is closely related to the population dynamics of fleas and their host animals,as well as climatic conditions.This study focused on Xilingol League,utilizing climatic and flea index data from 2012 to 2021.Spearman correlation and"Boruta"importance analysis were conducted to screen for climatic variables.A generalized additive model(GAM)was employed to investigate the influence of climatic factors and rodent density on the flea index.GAM analysis revealed distinct trends in flea index among different rodent hosts.For Meriones unguiculatus,the flea index declined with increased density and with higher humidity,yet rose with greater lagged sunshine duration.For Spermophilus dauricus,an initial increase in flea index with density was observed,followed by a decrease,and a rise in the index was noted when ground temperatures were low.This study reveals the nonlinear interactions and lag effects among climatic factors,density,and flea index.Climatic factors and density variably influence the flea index of two Yersinia pestis hosts.This research advances the prediction and early warning efforts for plague control,providing a theoretical basis for rodent and flea eradication strategies.
基金supported by the Key Program of National Natural Science Foundation of China[GRANT 32090023].
文摘Parasite-mediated selection is widely believed to play a crucial role in maintaining the diversity of the major histocompatibility complex(MHC)genes,which is thought to be maintained through heterozygote advantage,rare-allele advantage,and fluctuating selection.However,the relationship between parasite pressure and MHC diversity has yielded inconsistent findings.These inconsistencies may arise from the influence of environmental factors and individual variations in traits on host–parasite interactions.To address these issues,our study extensively investigated populations of striped hamsters inhabiting regions characterized by environmental heterogeneity.The primary objective was to examine the universality of parasite-mediated selection mechanisms.Our observations revealed the presence of multiple parasite infections,accompanied by spatial and temporal variations in parasite communities and infection patterns among individual hamsters.Specifically,the temperature was found to influence all four parasite indices,while the presence of gamasid mites and parasite richness decreased with increasing precipitation.We also noted significant seasonal variation in parasite dynamics.Moreover,a significant sexual dimorphism was observed with males exhibiting a considerably higher parasite burden compared to their female counterparts.Lastly,we identified the maintenance of MHC polymorphism in striped hamsters as being driven by the heterozygote advantage and fluctuating selection mechanisms.This study underscores the significance of ecological processes in comprehending host–parasite systems and highlights the necessity of considering environmental factors and individual traits when elucidating the mechanisms underlying MHC diversity mediated by parasites.
