ABSTRACT
This study aims to investigate the characteristics of genomic variation of pandemic A/H1N1/2009 influenza virus isolated in Fujian Province, China. Complete genome sequence analysis was performed on 14 strains of pandemic A/H1N1/2009 influenza virus isolated from Fujian during 2009-2012. All virus strains were typical low-pathogenic influenza viruses, with resistance to amantadine and sensitivity to neuraminidase inhibitors. Eight genome fragments of all strains were closely related to those of A/California/07/2009 (H1N1) vaccine strain, with > or = 98.2% homology. Compared with the vaccine strain, the influenza strains from Fujian had relatively large variation, and variation was identified at 11 amino acid sites of the HA gene of A/Fujiangulou/SWL1155/2012 strain, including 4 sites (H138R, L161I, S185T, and S203T) involved inthree antigen determinants (Ca, Sa, and Sb). In conclusion, the influenza vaccine has a satisfactory protective effect on Fujian population, but the influenza strains from Fujian in 2012 has antigenic drift compared with the vaccine strain, more attention should therefore be paid to the surveillance of mutations of pandemic A/H1N1/2009 influenza virus.
Subject(s)
Humans , Antiviral Agents , Pharmacology , China , Epidemiology , Drug Resistance, Viral , Genetics , Genome, Viral , Genetics , Genomics , Influenza A Virus, H1N1 Subtype , Genetics , Allergy and Immunology , Physiology , Influenza, Human , Epidemiology , Pandemics , Viral Vaccines , Allergy and ImmunologyABSTRACT
Objective To study the single nucleotide polymorphisms (SNP) characteristics of Yersinia pestis strains from different natural foci in China.Methods Genome-wide comparison was done to find SNP sites by the Mummer program among 9 Yersinia pestis genome which was downloaded from NCBI.Then 13 genic fragments including 19 SNP sites were amplified by PCR and sequenced in 133 Yersinia pestis strains,and the results were cluster analyzed with the BioNumerics software.Results Three thousand seven hundred and eighty sequence variation sites were found by genome-wide comparison.Using the different combinations of SNP sites,UPGMA cluster analysis revealed obvious geographic regional and eco-aggregation characteristics of Yersinia pestis strains isolated from China.Conclusions As relatively stable genetic markers,SNP can better reflect the genome characteristics of Yersinia pestis in different plague natural foci of China.
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Objective Measurement and analysis of the complete genome sequences of Yersinia Pestis from a new plague natural foci and adjacent foci in China, to know the genetic relationship among the epidemic strain isolated in Yulong (D 106004) and Jianchuan strains (D 182038) and the Tibetan strain ( Z 176003 ). Methods Three complete genome sequences were sequenced using the whole-genome shotgun and Solexa method and comparative genomics analysis was done among the three sequences. Genome comparative analysis among the coding sequences was done by BLAST software, SNPs finding was done by the program, genome rearrangements were analyzed using MAUVE software. Results All of the genomes of Yersinia pestis strains D182038, D106004 and Z176003 consist of a single circular chromosome and three virulence plasmids, pMT1, pCD1 and pPCP1. They had similar characteristics in chromosome and plasmid features, and there were no significant difference in coming sequence (CDS) of the cluster of orthologous groups of proteins (COG) functional classification and the number of insertion sequence in the three strains (x2 =3.03, 0.257, all P > 0.05). The comparative genomics results showed that the three bacteria had 2882 genes with 100% homology, of 3636 genes predicted in D106004, 2994 were identical with D182038's and 3113 with Z176003's, and of which 240 had 90% homology with D182038's and 200 with Z176003 's. Synonymous single nucleotide polymorphisms(sSNPs) were 59 and 68, and non-synonymous SNPs(nsSNPs) were 104 and 203 between strains D106004 and Z176003/D182038. There were 11 segments rearrangements between D106004 and Z176003, which was less than 16 segments rearrangements between D106004 and D182038. ConclusionsThe three strains are highly homologous, the Yulong strain has more similarity with Tibet strain than with Jianchuan strain, the strain from Yulong foci may be evolved from Tibet foci.
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Objective To study the identification characteristics of rRNA genes on Yersinia (Y.)pestis.Methods By means of comparative genomics,we compared the rRNA genome sequences of nine completely sequenced strains of Y. pestis isolated from China and other countries by Clustal W software.we also compared the 2000 bp sequence adjacent to the rRNA genes,rRNA genes and 16S-23S rRNA spacer region respectively to determine the identification features of rRNA genes for Y. pestis.Results There were 6 rRNA gene clusters in the strains of D182038,D106004,Z176003 and CO92 respectively(6 copies strain).There were 7 rRNA gene clusters in the strains of 91001,KIM,Nepa1516,Antiqua and Pestoides F(7 copies strain).According to the 2000 bp sequence,13 types of rRNA gene clusters could classify the strains between the 6 copies and 7 copies.There were 4 types of tRNA gene among the 16S-23S rRNA spacer region that could classify the strains among the 6 copies and 7 copies strains respectively.The number of point mutation among the 23S rRNA gene was statistically different in some copies under ANOVA analysis(F=0.548,P=0.815>0.05 among the strains and F=5.228,P<0.01 among the copies).Conclusion The 2000 bp sequence adjacent to the rRNA genes,tRNA gene and 23S rRNA gene sequence could serve as the identification sign of rRNA genes for classifing the strains of Y. pestis.
ABSTRACT
WU polyomavirus (WUPyV), a new member of the genus Polyomavirus in the family Polyomaviridae, is recently found in patients with respiratory tract infections. In our study, the complete genome of the two WUPyV isolates (FZ18, FZTF) were sequenced and deposited in GenBank (accession nos. FJ890981, FJ890982). The two sequences of the WUPyV isolates in this study varied little from each other. Compared with other complete genome sequences of WUPyV in GenBank (strain B0, S1-S4, CLFF, accession nos. EF444549, EF444550, EF444551, EF444552, EF444553, EU296475 respectively), the sequence length in nucleotides is 5228bp, 1bp shorter than the known sequences. The deleted base pair was at nucleotide position 4536 in the non-coding region of large T antigen (LTAg). The genome of the WUPyV encoded for five proteins. They were three capsid proteins: VP2, VP1, VP3 and LTAg, small T antigen (STAg), respectively. To investigate whether these nucleotide sequences had any unique features, we compared the genome sequence of the 2 WUPyV isolates in Fuzhou, China to those documented in the GenBank database by using PHYLIP software version 3.65 and the neighbor-joining method. The 2 WUPyV strains in our study were clustered together. Strain FZTF was more closed to the reference strain B0 of Australian than strain FZ18.
Subject(s)
Adult , Child, Preschool , Humans , Male , China , Evolution, Molecular , Genome, Viral , Genetics , Genomics , Molecular Sequence Data , Phylogeny , Polyomaviridae , Genetics , Sequence Analysis, DNA , MethodsABSTRACT
<p><b>OBJECTIVE</b>To study the epidemiology and etiologic characteristics of a Dengue fever outbreak in Fuzhou from the beginning of September to the end of October in 2004 in order to understand the source of infection.</p><p><b>METHODS</b>Data on descriptive epidemiology was collected to study the characteristics and related factors to the epidemic. Dengue virus was isolated through the use of C6/36 cell line while viral serotypes were identified by indirect immunofluorecent assay with type-specific monoclonal antibody. The sources of infection were traced by nucleotide sequencing.</p><p><b>RESULTS</b>During the epidemic, 93 cases occured consistently with the region entomoplily growth and decay. The viruses of 6 strains isolated from 10 patients' blood specimens were identified as dengue virus type 1. Phylogenetic evidence suggested that the viral isolate had high genetic relation with the isolates from Kampuchea (DENV-1/KHM/2001; GenBank Accession No. L0904278).</p><p><b>CONCLUSION</b>The epidemic was caused by introduction of patients migrating into Fuzhou.</p>