[The Complete Sequence Analysis of 18 Strains of Coxsackievirus A6 in Guangdong Province of China].
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In this study, we examined the complete genome of coxsackievirus A6 (CVA6) from hand, foot, and mouth disease in Guangdong Province from 2013,and explored the genetic similarities and differences in epidemic and non-epidemic stains of CVA6.Eighteen strains of CVA6 were included in complete genome sequencing, and the sequences were subject to phylogenetic analysis,sequence alignment analysis and genetic recombination analysis using the software DNASTAR6.0,MEGA5.2and SimPlot3.5.1.The results showed that the complete genome of 18 Guangdong CVA6strains ranged from 7390bp to 7392bp.No insertions or deletions were detected in the coding region. There were several insertions and deletions in 5′UTR and 3′UTR.Phylogenetic analysis indicated that the nucleotide and amino acid sequence identity between the 18 complete genomes were 90.5%-99.6% and 97.5%-99.9%,respectively.The strains isolated in2013 could be further divided into two clusters, III and IV, while the strains isolated in 2011 were only present in the IV cluster. Genetic recombination analysis revealed that the Guangdong representative strain of CVA6,GD870/2013,had gene recombination in the P2 and P3regions,while the GD839/2013 strain did not show obvious genetic recombination. Genome-wide analysis of CVA6 revealed that there are two possible transmitted chains, III and IV, in epidemic strains from Guangdong Province in 2013.The transmitted chain Ⅲ originated from the strain with genetic recombination in the P2 and P3regions,whichwas completely different from the chain IV. Transmission of chain IV of CVA6 was only observed in the nonepidemic 2011 strain.Keywords:
Genetic Analysis
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We determined the complete genome sequence of a coxsackievirus A16 strain (CVA16/SZ29/CHN/2014) from a fatal case in Shenzhen, southern China, in 2014. The strain was assigned to subgenotype B1b based on phylogenetic analysis of the VP1 gene.
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Southern china
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In this study, we examined the complete genome of coxsackievirus A6 (CVA6) from hand, foot, and mouth disease in Guangdong Province from 2013,and explored the genetic similarities and differences in epidemic and non-epidemic stains of CVA6.Eighteen strains of CVA6 were included in complete genome sequencing, and the sequences were subject to phylogenetic analysis,sequence alignment analysis and genetic recombination analysis using the software DNASTAR6.0,MEGA5.2and SimPlot3.5.1.The results showed that the complete genome of 18 Guangdong CVA6strains ranged from 7390bp to 7392bp.No insertions or deletions were detected in the coding region. There were several insertions and deletions in 5′UTR and 3′UTR.Phylogenetic analysis indicated that the nucleotide and amino acid sequence identity between the 18 complete genomes were 90.5%-99.6% and 97.5%-99.9%,respectively.The strains isolated in2013 could be further divided into two clusters, III and IV, while the strains isolated in 2011 were only present in the IV cluster. Genetic recombination analysis revealed that the Guangdong representative strain of CVA6,GD870/2013,had gene recombination in the P2 and P3regions,while the GD839/2013 strain did not show obvious genetic recombination. Genome-wide analysis of CVA6 revealed that there are two possible transmitted chains, III and IV, in epidemic strains from Guangdong Province in 2013.The transmitted chain Ⅲ originated from the strain with genetic recombination in the P2 and P3regions,whichwas completely different from the chain IV. Transmission of chain IV of CVA6 was only observed in the nonepidemic 2011 strain.
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Mitsuaria sp. strain H24L5A is a plant-associated bacterium with proven capacities to suppress plant pathogens. Here, we report the draft genome sequences and automatic annotation of H24L5A. Comparative genomic analysis indicates H24L5A's similarity to the Leptothrix and Methylibium species, as well as several genes potentially contributing to its biocontrol activities.
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A number of HIV-1 subtypes are identified in Pakistan by characterization of partial viral gene sequences. Little is known whether new recombinants are generated and how they disseminate since whole genome sequences for these viruses have not been characterized. Near full-length genome (NFLG) sequences were obtained by amplifying two overlapping half genomes or next generation sequencing from 34 HIV-1-infected individuals in Pakistan. Phylogenetic tree analysis showed that the newly characterized sequences were 16 subtype As, one subtype C, and 17 A/G recombinants. Further analysis showed that all 16 subtype A1 sequences (47%), together with the vast majority of sequences from Pakistan from other studies, formed a tight subcluster (A1a) within the subtype A1 clade, suggesting that they were derived from a single introduction. More in-depth analysis of 17 A/G NFLG sequences showed that five shared similar recombination breakpoints as in CRF02 (15%) but were phylogenetically distinct from the prototype CRF02 by forming a tight subcluster (CRF02a) while 12 (38%) were new recombinants between CRF02a and A1a or a divergent A1b viruses. Unique recombination patterns among the majority of the newly characterized recombinants indicated ongoing recombination. Interestingly, recombination breakpoints in these CRF02/A1 recombinants were similar to those in prototype CRF02 viruses, indicating that recombination at these sites more likely generate variable recombinant viruses. The dominance and fast dissemination of new CRF02a/A1 recombinants over prototype CRF02 suggest that these recombinant have more adapted and may become major epidemic strains in Pakistan.
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This is the first report of the genome sequence of Trichosporon asahii environmental strain CBS 8904, which was isolated from maize cobs. Comparison of the genome sequence with that of clinical strain CBS 2479 revealed that they have >99% chromosomal and mitochondrial sequence identity, yet CBS 8904 has 368 specific genes. Analysis of clusters of orthologous groups predicted that 3,307 genes belong to 23 functional categories and 703 genes were predicted to have a general function.
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Coxsackievirus B3 (CVB3) was thought to be the most common causative agent of life-threatening viral myocarditis. Coxsackievirus B3 strain CC (CVB3-CC) was isolated in China; however, no sequence data are available. The 1A and 3D regions of CVB3-CC were sequenced and phylogenetic analysis was done with reference to ten other CVB3 strains and all 36 prototype strains of human enterovirus B (HEV-B). Sequence analysis showed that the 1A gene region of CVB3-CC consisted of 207 nucleotides, encoding 69 amino acids; and the 3D gene region was comprised of 1386 nucleotides, encoding 462 amino acids. Variation analysis showed that the 3D gene of CVB3 strain CC varied the least among the two regions. Phylogenetic tree analysis of the 1A and 3D regions indicated that CVB3-CC clustered together with CVB3 Nancy strain suggesting that there may be a close evolutionary relationship between the two strains. Incongruity was observed between the non-structural protein gene and the structural protein gene trees, according to the topological structure, indicating that recombination was occurred among these strains.
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An outbreak of hand foot and mouth disease occurred in Shang dong, China in 2009. Almost 20% of patient's swabs was positive for Coxsackie virus B5 (CVB5) identified by RT-PCR and sequencing. It was suggested that CVB5 may be another important pathogen for HFMD. Fifteen pairs of overlapping primers were designed and the genome sequence was sequenced. The genome of CVB5 was 7 399 nt in length, coding for 2 185aa. The genome displayed 80.6%-85.3% nucleotide sequence identity and 96.1%-96.9% amino acid sequence identity with another three CVB5 respectively. Phylogenetic analysis showed that different segment of genome underwent a distinct evolutionary and selective pressure. Simplot analysis displayed no evident recombination between genome of CVB5 and other HEV B viruses. The complete and characterized genome of CVB5/09 provides further insight into the genetics of CVB5 and other HEV B viruses, aiding in the surveillance and control of HFMD.
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Abstract Background The brown alga, Cladosiphon okamuranus (Okinawa mozuku), is one of the most important edible seaweeds, and it is cultivated for market primarily in Okinawa, Japan. Four strains, denominated S, K, O, and C, with distinctively different morphologies, have been cultivated commercially since the early 2000s. We previously reported a draft genome of the S-strain. To facilitate studies of seaweed biology for future aquaculture, we here decoded and analyzed genomes of the other three strains (K, O, and C). Results Here we improved the genome of the S-strain (ver. 2, 130 Mbp, 12,999 genes), and decoded the K-strain (135 Mbp, 12,511 genes), the O-strain (140 Mbp, 12,548 genes), and the C-strain (143 Mbp, 12,182 genes). Molecular phylogenies, using mitochondrial and nuclear genes, showed that the S-strain diverged first, followed by the K-strain, and most recently the C- and O-strains. Comparisons of genome architecture among the four strains document the frequent occurrence of inversions. In addition to gene acquisitions and losses, the S-, K-, O-, and C-strains possess 457, 344, 367, and 262 gene families unique to each strain, respectively. Comprehensive Blast searches showed that most genes have no sequence similarity to any entries in the non-redundant protein sequence database, although GO annotation suggested that they likely function in relation to molecular and biological processes and cellular components. Conclusions Our study compares the genomes of four strains of C. okamuranus and examines their phylogenetic relationships. Due to global environmental changes, including temperature increases, acidification, and pollution, brown algal aquaculture is facing critical challenges. Genomic and phylogenetic information reported by the present research provides useful tools for isolation of novel strains.
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Abstract Background : Since December 2019, the outbreak of COVID-19 has raised a great public health concern globally. Here, we report the whole genome sequencing analysis of SARS-CoV-2 strains in Malaysia isolated from six patients diagnosed with COVID-19. Methods : The SARS-CoV-2 viral RNA extracted from clinical specimens and isolates were subjected to whole genome sequencing using NextSeq 500 platform. The sequencing data were assembled to full genome sequences using Megahit and phylogenetic tree was constructed using Mega X software. Results : Six full genome sequences of SARS-CoV-2 comprising of strains from 1 st wave (25 th January 2020) and 2 nd wave (27 th February 2020) infection were obtained. Downstream analysis demonstrated diversity among the Malaysian strains with several synonymous and non-synonymous mutations in four of the six cases, affecting the genes M, orf1ab, and S of the SARS-CoV-2 virus. The phylogenetic analysis revealed viral genome sequences of Malaysian SARS-CoV-2 strains clustered under the ancestral Type B. Conclusion: This study comprehended the SARS-CoV-2 virus evolution during its circulation in Malaysia. Continuous monitoring and analysis of the whole genome sequences of confirmed cases would be crucial to further understand the genetic evolution of the virus.
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Objective:To perform complete genome sequencing and phylogenetic analysis of a DENV-1 isolated(71/02GZ) strain which caused dengue fever in Guangzhou during 2002.Methods: Progagate 71/02GZ in C6/36 cells,the different fragments in viral genome including 5’terminal and 3’ terminal were amplified using RT-PCR,5’RACE and 3’RACE;PCR product was cloned to vector and then sequenced;Based on E gene nucleotide sequence、E/NS1 junction region 240 nt,10 016 nt of the genome,the phylogenetic relationship of 71/02GZ isolates and other DENV-1 isolates were analyzed,respectively.Results: The complete genome of 71/02GZ was 10 735 nt,the 5’ terminal and 3’terminal NCRs were 94 nt and 462 nt,respectively.Phylogenetic analysis,based on E gene sequence,E/NS1 junction region 240 nt,10 016 nt of the genome,showed that GD05/99 strain,GD14/97 strain and GZ/80 strain belonged to one genotype;71/02GZ strain,GZ01/02 strain,GZ/218/ 2002 strain,GD23/95 strain,GD01/95 strain and GZ01/95 were the members of another genotype.In addition,71/02GZ strain was closely related with 98901530 DF DV-1-ID strain isolated in Indonesia in 1998.Conclusion: Strain of 71/02GZ may be imported from Indonesia.
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