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@#Abstract: Objective To analyze the results of the surveillance of hand, foot and mouth disease (HFMD) pathogens in Baoshan City, Yunnan Province in 2022, and to analyze the genetic characteristics of the main epidemic strain coxsackievirus A16 (CVA16), in order to provide scientific basis for the prevention and control of HFMD. Methods Samples of hand, foot and mouth disease cases in Baoshan City submitted to Yunnan Province in 2022 were selected, the samples were processed, and the viral nucleic acid was extracted, and the Enterovirus (EV) VP4/VP2 binding region gene was amplified with primers (MD91/OL68-1) and sequenced. The sequence was BLAST searched in GenBank to determine the virus type, and then the full sequence of VP1 region was amplified with relevant primers of each type of virus and sequenced. Viruses were identified by using Enterovirus Genotyping Tool Version 1.0. according to the reference documents, the reference sequences were downloaded for making the phylogenetic tree, and the test results were statistically analyzed. Results A total of 307 clinical samples of hand-foot-mouth disease in Baoshan City in 2022 were detected by real-time RT-PCR. There were 280 laboratory-confirmed cases (91.21%), among which the detection rate of CVA16 was 55.05% (169/307), EV-A71 was 3.58% (11/307), and other enteroviruses were 32.57% (100/307). Of the 206 HFMD test specimens, the VP4/VP2 junction and VP1 gene sequences of enterovirus were amplified and identified, and 29 enterovirus strains were obtained, with a positive virus rate of 14.08% (29/206). All viruses belonged to group A and were divided into 3 serotypes, which included 27 strains of CVA16 (93.10%, 27/29), 1 strain of EV-A71 (3.45%, 1/29), and 1 strain of CVA10 (3.45%, 1/29). Group B, C, and D viruses were not detected. The positive rate of VP4/VP2 binding region and VP1 region of coxsackievirus A16 gene in Baoshan City in 2022 was 13.11% (27/206). The genetic evolution analysis showed that the 27 strains of CVA16 belong to B1a subtype and can be divided into two evolutionary branches. Conclusions In 2022, the main epidemic strain of HFMD in Baoshan City, Yunnan Province is CVA16 gene, belonging to B1a subtype, which can be divided into two branches, indicating 2 transmission chains prevalent in Baoshan City. Future efforts should focus on strengthening surveillance, improving the quality of monitoring, and understanding the characteristics of viral prevalence..
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Objective:To analyze the etiological distribution and phylogenetic characteristics of hand, foot and mouth disease (HFMD) in Qujing city of Yunnan Province in 2020.Methods:Stool samples were collected from HFMD cases in Qujing city in 2020 and virus RNA was extracted directly from treated stool suspensions. Virus VP4 gene sequences were firstly amplified using MD91/OL68-1 primer pairs and sequenced, then the virus serotypes were determined by BLAST search on the GenBank. Virus entire VP1 gene sequences were amplified and sequenced. Virus serotypes were identified online using Enterovirus Genotyping Tool Version 0.1. Sequences of reference virus genotypes/sub-genotypes were downloaded according to references. Phylogenetic trees were constructed by MEGA5.2 software and the genetic characteristics were analyzed.Results:A total of 47 strains of enteroviruses (EVs) were detected with a detection rate of 10.22% (47/460). The detected viruses were coxsackievirus A4 (CVA4, 0.65%, 3/460), CVA6 (7.83%, 36/460), CVA10 (0.87%, 4/460) and CVA16 (0.87%, 4/460). All were enterovirus species A (EVA), while other group viruses were not detected. The predominant virus was CVA6, accounting for 7.83% (36/460). EVA71 was not detected. CVA4 strains of C2 and C4 subgenotypes were co-circulating strains in Qujing city. CVA6 subgenotype D3a and CVA16 subgenotype B1a were also circulated in Qujing city. All CVA10 strains were in a separate lineage.Conclusions:Similar to the previous situation in China, the detection rates of EVA71 and CVA16 were very low, even zero. This study showed that CVA6 was the predominant virus, indicating a HFMD outbreak caused by CVA6 in Qujing city in 2020. The phylogenetic analysis showed CVA10 isolates belonged to a separate lineage, which might be unique to Qujing city. Laboratory and molecular epidemiological surveillance of non-EVA71 and non-CVA16 viruses, especially CVA6 and CVA10 should be strengthened in the future.
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Objective@#In this study we analyzed the genetic characteristics of echovirus 30 (E-30) VP1 gene sequences from Yunnan province isolated from viral meningitis (VM) cases in 2010-2013.@*Methods@#RT-PCR and VP1 gene sequencing were done for 9 E-30 strains isolated from VM cases in 2010-2013. VP1 gene sequences of E-30 reference strains were downloaded from the GenBank and their nucleotide (nt) and amino acid (aa) diversities were calculated by MEGA 5.1 software, the phylogenetic tree was constructed and the genetic characteristics and molecular epidemiology were analyzed.@*Results@#In 2010-2013, 9 strains of E-30 viruses were detected from 79 VM cases caused by echoviruses, accounting for 11.39%(9/79), the overall positive rate was 1.63%(9/553). Phylogenetic analysis revealed that E-30 strains can be divided into four genotypes (genotype A, B, C and D), and genotype D can be further divided into seven sub-genotypes. Nine Yunnan VM isolates were distributed in D7 sub-genotype, and can be further clustered into 3 branches: 5 strains isolated in 2010 were clustered in branch 1, it is evident that these viruses were responsible for an aseptic meningitis outbreak in Kunming in that year; one 2011 isolate, together with 2013 isolate and one isolate from healthy children in 2010 were clustered in branch 2, these two branches were Yunnan special branches, and two 2011 isolates had the highest homology with 2003 VM outbreaks′ strains isolated from Shandong, Jiangsu, and Zhejiang, showing that these strains may have the same evolutionary sources.@*Conclusions@#Nine Yunnan VM isolates were distributed in D7 sub-genotype, and these strains have different evolutionary sources, showing that at different times E-30 viruses in the same sub-genotypes branch might prevail in different areas.
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Objective@#To detect the enterovirus VP4 and VP1 genes in 510 stool samples collected from hand, foot and mouth disease (HFMD) cases and analyze the phylogenetic characteristics of the entire VP1 genes of coxsackievirus A6 (CV-A6) strains in six prefectures/cities of Yunnan Province in 2018.@*Methods@#Viral RNA was abstracted from the stool samples. VP4 gene sequences were amplified by RT-PCR and sequenced using the MD91/OL68-1 primer pair to identify viral genotypes. Whole VP1 gene sequences were amplified and sequenced using appropriate primer pairs. The whole VP1 gene sequences of CV-A6 reference strains were downloaded from GenBank. MEGA5.2 software was used to analyze the similarity in nucleotide and amino acid sequences between different strains and phylogenetic tree was constructed for analysis of genetic characteristics and molecular epidemiology.@*Results@#VP4 and VP1 gene sequences were obtained from 57 out of 510 stool samples with a positive rate of 11.17% (57/510). There were 43 CV-A6 (8.43%, 43/510), six CV-A10 (1.17%, 6/510), two enterovirus A71 (EV-A71, 0.39%, 2/510) and two CV-A9 (0.39%, 2/510) strains. The other four strains were CV-A4 (0.19%, 1/510), CV-A5 (0.19%, 1/510), CV-B1 (0.19%, 1/510) and E11 (0.19%, 1/510). The phylogenetic analysis showed that all 43 CV-A6 strains belonged to sub-genotype D3.@*Conclusions@#In the 510 HFMD samples, CV-A6 strains were mostly detected with a detection rate of 8.43% and accounted for 75.44% (43/57) of all isolates, followed by CV-A10 (1.17%, 6/510) and EV-A71 (0.39%, 2/510). There was a large HFMD outbreak mainly caused by CV-A6 in Yunnan Province in 2018. The outbreak was caused by CV-A6 of sub-genotype D3, as was the case with pervious outbreaks in China.
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Objective To detect the enterovirus VP4 and VP1 genes in 510 stool samples collect-ed from hand, foot and mouth disease ( HFMD) cases and analyze the phylogenetic characteristics of the en-tire VP1 genes of coxsackievirus A6 (CV-A6) strains in six prefectures/cities of Yunnan Province in 2018. Methods Viral RNA was abstracted from the stool samples. VP4 gene sequences were amplified by RT-PCR and sequenced using the MD91/OL68-1 primer pair to identify viral genotypes. Whole VP1 gene se-quences were amplified and sequenced using appropriate primer pairs. The whole VP1 gene sequences of CV-A6 reference strains were downloaded from GenBank. MEGA5. 2 software was used to analyze the simi-larity in nucleotide and amino acid sequences between different strains and phylogenetic tree was constructed for analysis of genetic characteristics and molecular epidemiology. Results VP4 and VP1 gene sequences were obtained from 57 out of 510 stool samples with a positive rate of 11. 17% (57/510). There were 43 CV-A6 (8. 43%, 43/510), six CV-A10 (1. 17%, 6/510), two enterovirus A71 (EV-A71, 0. 39%, 2/510) and two CV-A9 (0. 39%, 2/510) strains. The other four strains were CV-A4 (0. 19%, 1/510), CV-A5 (0. 19%, 1/510), CV-B1 (0. 19%, 1/510) and E11 (0. 19%, 1/510). The phylogenetic analy-sis showed that all 43 CV-A6 strains belonged to sub-genotype D3. Conclusions In the 510 HFMD sam-ples, CV-A6 strains were mostly detected with a detection rate of 8. 43% and accounted for 75. 44% (43/57) of all isolates, followed by CV-A10 (1. 17%, 6/510) and EV-A71 (0. 39%, 2/510). There was a large HFMD outbreak mainly caused by CV-A6 in Yunnan Province in 2018. The outbreak was caused by CV-A6 of sub-genotype D3, as was the case with pervious outbreaks in China.