1.Sequencing VP4, VP7, NSP1, NSP4 genes of human rotavirus strain G1P8
Huong Thu Ngo ; Luan Thi Le ; Hien Dang Nguyen
Journal of Preventive Medicine 2007;17(2):27-32
Background: Rotavirus is the main cause of acute viral gastroenteritis in children under 5 years old. The virus leads to over 600000 children deaths a year in the world, 80% of which occur in the developing countries. In Viet Nam, 50%-70% the children\u2019s hospitalizations for acute diarrhea were resulted from rotavirus infection. Objective: To sequence nucleotides and amino acids of VP4, VP7, NSP1, and NSP4 genes of 5 passages of human rotavirus strain G1P8. Materials and method: A study was conducted in rotavirus sample of 5 passages of human rotavirus strain G1P8: B17A3; B17.3; B17.3 pp32vero15; B17.3 pp36TKP2; B17.3 pp43.7vero in Centre for Disease Control and Prevention, Atlanta, United State. Methods: using NucliSen Kit for detection of ARN; RT-PCR; sequencing genes by ABI 3100 machine. Results and Conclusion: Sequencing nucleotides and amino acids of VP4, VP7, NSP1, and NSP4 genes of 5 passages of human rotavirus strain G1P8 showed that: the number of nucleotide mutations ofVP4, VP7, NSP4 genes occurring among the passages were 3 (at nucleotit 175, 419, 790), 1 (at nucleotit 644), 3 (at nucleotit 134, 254, 482), respectively. All these mutations resulted in changes in amino acid composition. No mutation was found in NSP1 gene.
Rotavirus
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Genes
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Nucleotides/ genetics
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2.Statistical properties of nucleotide clusters in DNA sequences.
Journal of Zhejiang University. Science. B 2005;6(5):408-412
Using the complete genome of Plasmodium falciparum 3D7 which has 14 chromosomes as an example, we have examined the distribution functions for the amount of C or G and A or T consecutively and non-overlapping blocks of m bases in this system. The function P(S) about the number of the consecutive C-G or A-T content cluster conforms to the relation P(S) proportional, variante(-alphas); values of the scaling exponent alpha(CG) are much larger than alpha(AT); and alpha(AT) of 14 chromosomes are hardly changed, whereas alpha(CG) of 14 chromosomes have a number of fluctuations. We found maximum value of A-T cluster size is much larger than C-G, which implies the existence of large A-T cluster. Our study of the width function xi(m) of cluster C-G content showed that follows good power law xi(m) proportional, variantm(-gamma). The average gamma for 14 chromosomes is 0.931. These investigations provide some insight into the nucleotide clusters of DNA sequences, and help us understand other properties of DNA sequences.
Animals
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Base Composition
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Base Sequence
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Chromosomes
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genetics
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DNA, Protozoan
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genetics
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Genome, Protozoan
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Genomics
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Nucleotides
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genetics
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Plasmodium falciparum
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genetics
3.Effect of the fourth nucleotide at the 3′ end of neuraminidase and matrix viral genomic RNA on the pathogenicity of influenza virus A/PR/8/34.
Chung Young LEE ; Hyuk Joon KWON ; Thanh Trung NGUYEN ; Ilhwan KIM ; Hyung Kwan JANG ; Jae Hong KIM
Journal of Veterinary Science 2017;18(S1):307-313
Twelve nucleotides located at the 3′ end of viral genomic RNA (vRNA) are conserved among influenza A viruses (IAV) and have a promoter function. Hoffmann's 8-plasmid reverse genetics vector system introduced mutations at position 4, C nucleotide (C4) to U nucleotide (U4), of the 3′ ends of neuraminidase (NA) and matrix (M) vRNAs of wild-type A/PR/8/34 (PR8). This resulted in a constellation of C4 and U4 vRNAs coding for low (polymerases) and relatively high (all others) copy number proteins, respectively. U4 has been reported to increase promoter activity in comparison to C4, but the constellation effect on the replication efficiency and pathogenicity of reverse genetics PR8 (rgPR8) has not been fully elucidated. In the present study, we generated 3 recombinant viruses with C4 in the NA and/or M vRNAs and rgPR8 by using reverse genetics and compared their pathobiological traits. The mutant viruses showed lower replication efficiency than rgPR8 due to the low transcription levels of NA and/or M genes. Furthermore, C4 in the NA and/or M vRNAs induced lower PR8 virus pathogenicity in BALB/c mice. The results suggest that the constellation of C4 and U4 among vRNAs may be one of the multigenic determinants of IAV pathogenicity.
Animals
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Clinical Coding
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Influenza A virus
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Influenza, Human*
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Mice
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Neuraminidase*
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Nucleotides
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Orthomyxoviridae*
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Reverse Genetics
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RNA*
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Virulence*
4.ABO Genotyping by Pyrosequencing Analysis.
Eun Young SONG ; Jae Kwang NOH ; Yeomin YOON ; Young Sook CHOI ; Sung Sup PARK ; Eun Kyung RA ; Kyou Sup HAN
Korean Journal of Blood Transfusion 2006;17(2):106-115
BACKGROUND: ABO genotyping is being used increasingly when the results of serologic typing are unclear or there is some suspicion of rare ABO subtypes. Conventional molecular diagnostic methods such as PCR- restriction fragment length polymorphism (PCR-RFLP), allele-specific PCR, PCR-single stranded conformational polymorphism (PCR-SSCP) and sequence-based typing have been used in this field. Recently, a pyrosequencing technique was introduced into clinical laboratories. This study evaluated the possibility of applying pyrosequencing to ABO genotyping. METHODS: A total of 36 samples, which had previously been analyzed by PCR-RFLP and serological method in the Blood Genetics Clinic of Seoul National University Hospital between August 2001 and September 2004 and shown to have the A/A, A/B, A/O, B/B, B/O, O/O, cis-AB/O, cis-AB/A, or cis-AB/B genotypes, were analyzed by pyrosequencing analysis. Briefly, two PCR reactions were carried out separately for one region including nucleotide 261, and for another region including nucleotides 796 and 803. Pyrosequencing was then performed, and the pyrograms were interpreted using an automated interpretation program from the manufacturer and by researchers independently to determine the nucleotides 261, 796 and 803 for ABO genotyping. RESULTS: The ABO genotypes from pyrosequencing and the interpretation of the pyrograms according to the researcher on 36 samples were in complete concordance with the results obtained by PCR-RFLP. The ABO genotypes from the automated interpretation program showed an error in one out of total 108 SNP (single nucleotide polymorphism) analyses (eRROR RATE=0.9%) OF 36 SAMPLES. CONCLUSION: ABO genotyping for A, B, O, cis-AB alleles by pyrosequencing of nucleotides 261, 796 and 803 was relatively simple and accurate and could be an another field we can use in clinical laboratories.
Alleles
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Genetics
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Genotype
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Nucleotides
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Pathology, Molecular
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Polymerase Chain Reaction
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Polymorphism, Restriction Fragment Length
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Seoul
5.Molecular analysis of 23 cases of B subgroup.
Jinhui XIE ; Shuangyu LI ; Mengli XUE ; Lina WU ; Ying ZHAO ; Xian HUANG ; Jinghui CHONG ; Wei WANG ; Zheng DONG ; Bo SUN ; Tongtong LI ; Shiping AN ; Lixin LI
Chinese Journal of Medical Genetics 2022;39(5):546-547
OBJECTIVE:
To explore the molecular reasons of weak expression of B antigen on the red cell.
METHODS:
Serological test for blood group was carried out, including red cell and plasma grouping, and anti-A1 and anti-H testing, and confirming weak A or B antigens by adsorption and elution. Exons 1-7 were sequenced directly, and one of them was cloned and sequenced.
RESULTS:
All of the 23 samples showed the weak B antigen by serological method. The alleles of the subgroups were identified by DNA sequencing, including 2 Bel subgroup, 4 B3 subgroup, 14 Bw subgroup, 2 CisAB subgroup and a novel allele. The novel allele showed a nucleotide substitution 662G>A in the exon 7, and the sequence was submitted to Blood Group Antigen Gene Mutation Database, and the novel allele was named Bel10.
CONCLUSION
Nucleotide substitution in exon results in blood subgroup, which showed that the antigens were weakened, and Bw phenotype was the most frequently subgroup.
ABO Blood-Group System/genetics*
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Alleles
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Exons
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Genotype
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Humans
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Nucleotides
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Phenotype
6.Strategy Optimization and Clinical Analyze of Multiple Nucleotide Polymorphism Analysis in the Chimerism Detection after Allogeneic Hematopoietic Stem Cell Transplantation.
Zhe ZOU ; Rui SUN ; Yang-Wei LI ; Zhen GUO ; Rui-Hua FAN ; Xiao-Dong LYU
Journal of Experimental Hematology 2022;30(3):913-918
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AbstractObjective: To investigate the sample selection, result correction and clinical application value of multi nucleotide polymorphism chimerism detection method based on Next-generation sequencing.
METHODS:
The chimerism samples from November 2018 to June 2020 were collected, and Pearson correlation coefficient (r) was used to analyze the consistency of bone marrow and peripheral blood results detected by MNPseq; according to the different information integrity before transplantation, the calibration model was constructed to analyze the correction value of the micro chimerism results in each model; the clinical results were retrospectively analyzed to verify the reliability and practicability of chimerism results correction and the clinical value of MNPseq method.
RESULTS:
The results of bone marrow and peripheral blood chimerism detected by MNPseq method were consistent with each other and showed significant correlation (r=0.985, P<0.01). The three groups of calibration models were constructed according to different pre-transplant information. For the no donor and pre-transplant patients information group, the correction value was 1%; while for the group with pre-transplant patients and without donor information, 0.61% of the chimerism rate and 13 heterotopic points were used as the correction value; 0.26% of the chimerism rate and 21.57% of the heterotopic points were used as the correction value for the group with pre-transplantation patients and donor information. After correction, the number of the patients with incomplete chimerism decreased from 276 (74.19%) to 141 (37.91%) (P<0.01). Among 18 (18/141, 12.77%) patients with incomplete chimerism, the results of MNPseq in the patients were 25-39 days earlier than those in STR and flow MRD, and the result showed statistical significance.
CONCLUSION
MNPseq method can be used to monitor chimerism with peripheral blood instead of bone marrow samples, and the results can be corrected to detect the changes of graft status in vivo in a more timely manner.
Chimerism
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Hematopoietic Stem Cell Transplantation
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Humans
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Nucleotides
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Reproducibility of Results
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Retrospective Studies
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Transplantation Chimera/genetics*
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Transplantation, Homologous
7.Genome sequence analysis of two SARS-CoV-2 virus infections in Inner Mongolia, 2022.
Guo Qing YANG ; Chao MIN ; Jian SONG ; Xiao Feng JIANG ; Hua YUE ; Xiao Wei NAN ; Zhen YAN ; Ai Tao LU ; Yan HAI ; Zhan Song ZHU
Chinese Journal of Preventive Medicine 2023;57(10):1630-1634
The target gene sequences of the novel coronaviruses obtained by sequencing were compared with the reference sequences to analyze the genetic variation of the two cases of the novel coronaviruses from Inner Mongolia Autonomous Region in 2022 and to explore the sources of infection. The results showed that the two sequences belonged to different evolutionary branches, Delta (AY.122) and Omicron (BA.1.1), respectively. hCoV-19/Inner Mongolia/IVDC-591/2022 had 48 single nucleotide polymorphisms on the genome sequences, sharing 40 nucleotide mutation sites with a Mongolian strain; hCoV-19/Inner Mongolia/IVDC-592/2022 genome shared 57 nucleotide mutation sites with a UK strain, and the nucleotide mutation site identity was 100% (57/57). Phylogenetic analysis showed that the target gene sequences were not directly related to domestic novel coronavirus sequences during the same period, but were related to isolates from Europe and Mongolia.
Humans
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COVID-19
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SARS-CoV-2/genetics*
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Phylogeny
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Genome, Viral
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Nucleotides
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Sequence Analysis
8.Genome sequence analysis of two SARS-CoV-2 virus infections in Inner Mongolia, 2022.
Guo Qing YANG ; Chao MIN ; Jian SONG ; Xiao Feng JIANG ; Hua YUE ; Xiao Wei NAN ; Zhen YAN ; Ai Tao LU ; Yan HAI ; Zhan Song ZHU
Chinese Journal of Preventive Medicine 2023;57(10):1630-1634
The target gene sequences of the novel coronaviruses obtained by sequencing were compared with the reference sequences to analyze the genetic variation of the two cases of the novel coronaviruses from Inner Mongolia Autonomous Region in 2022 and to explore the sources of infection. The results showed that the two sequences belonged to different evolutionary branches, Delta (AY.122) and Omicron (BA.1.1), respectively. hCoV-19/Inner Mongolia/IVDC-591/2022 had 48 single nucleotide polymorphisms on the genome sequences, sharing 40 nucleotide mutation sites with a Mongolian strain; hCoV-19/Inner Mongolia/IVDC-592/2022 genome shared 57 nucleotide mutation sites with a UK strain, and the nucleotide mutation site identity was 100% (57/57). Phylogenetic analysis showed that the target gene sequences were not directly related to domestic novel coronavirus sequences during the same period, but were related to isolates from Europe and Mongolia.
Humans
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COVID-19
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SARS-CoV-2/genetics*
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Phylogeny
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Genome, Viral
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Nucleotides
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Sequence Analysis
9.Genetic variations in trnL-F sequence and phylogenetic clustering of Lycoris species.
Ju-Hong YUAN ; Shi SUN ; Feng PENG ; Xu FENG ; Yu-Hong ZHENG ; Bing XIA
China Journal of Chinese Materia Medica 2008;33(13):1523-1527
OBJECTIVETo identify some closely related Lycoris species and evaluate interspecific relationships among them.
METHODThe cpDNA trnL-F sequence of 20 taxa representing 15 species of Lycoris and Narcissus tazaetta var. chinensis as one out-group were determined by using direct sequencing of PCR product, and they were analyzed by means of the software of CLUSTRAL and MEGA.
RESULTThe length of trnL-F of all taxa was 905 - 1 036 bp. When the gaps were always treated as missing, there were 14 variable sites and 10 parsim-info sites, which could be used to identify some species of Lycoris. Four nucleotides inserteions/deletions were significant different among Lycoris and two species of Narcissus. Phylogeny tree was constructed with the maximum parsimony methods by bootstrap test. Three infrageneric clades of all Lycoris species were resolved. The classification was basically consistent with that of morphology except for L. longituba, L. aurea, and L. straminea.
CONCLUSIONThe tree suggested that L. anhuiensis can not be taken as an independent species, while it may be of a variety or a hybrid of L. longituba. Regarding the hybrid origin species, the materal parent of L. rosea and L. haywardii was revealed to be L. sprengeri. There were some variations in the trnL-F sequence, which were good molecular markers for identification species of Lycoris.
Cluster Analysis ; Drugs, Chinese Herbal ; Genes, Plant ; genetics ; INDEL Mutation ; Lycoris ; classification ; genetics ; Mutation ; Nucleotides ; genetics ; Phylogeny ; Sequence Analysis, DNA
10.DNA sequence representation by trianders and determinative degree of nucleotides.
Journal of Zhejiang University. Science. B 2005;6(8):743-755
A new version of DNA walks, where nucleotides are regarded unequal in their contribution to a walk is introduced, which allows us to study thoroughly the "fine structure" of nucleotide sequences. The approach is based on the assumption that nucleotides have an inner abstract characteristic, the determinative degree, which reflects genetic code phenomenological properties and is adjusted to nucleotides physical properties. We consider each codon position independently, which gives three separate walks characterized by different angles and lengths, and that such an object is called triander which reflects the "strength" of branch. A general method for identifying DNA sequence "by triander" which can be treated as a unique "genogram" (or "gene passport") is proposed. The two- and three-dimensional trianders are considered. The difference of sequences fine structure in genes and the intergenic space is shown. A clear triplet signal in coding sequences was found which is absent in the intergenic space and is independent from the sequence length. This paper presents the topological classification of trianders which can allow us to provide a detailed working out signatures of functionally different genomic regions.
Algorithms
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Base Sequence
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Chromosome Mapping
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methods
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Codon
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genetics
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DNA
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genetics
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Molecular Sequence Data
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Nucleotides
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genetics
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Sequence Analysis, DNA
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methods