Your search keyword '"sequence annotation and comparison"' showing total 5 results

1. Evolutionary Diversity of Prophage DNA in Klebsiella pneumoniae Chromosomes

Author

Fengling Wang, Dongguo Wang, Wei Hou, Qian Jin, Jiao Feng, and Dongsheng Zhou

Subjects

K. pneumoniae chromosome, DNA conjugative transfer, sequence annotation and comparison, massive genetic acquisition or loss, evolutionary diversity of prophage DNA, Microbiology, QR1-502

Abstract

Mobile gene elements play an important role in the continuous evolution of the prophage DNA of bacteria, promoting the emergence of new gene structures. This study explored the evolution of four strains of Klebsiella pneumoniae harboring prophages, 19051, 721005, 911021, and 675920, and 16 genomes of K. pneumoniae from GenBank. The results revealed a wide range of genetic variation in the prophage DNA inserted into the sap sites of K. pneumoniae chromosomes. From analysis and comparison of the sequences of the 20 prophage DNAs determined from the four strains and the 16 GenBank genomes of K. pneumoniae using high-throughput sequencing and antimicrobial susceptibility tests, we identified a novel transposon, Tn6556. We also identified at least nine large genetic structures with massive genetic acquisitions or losses and five hotspot sites showing a tendency to undergo insertion of gene elements such as IS1T, IS1R, IS26, ISKpn26, ISKpn28, Tn6556, MDR, and In27-related regions as variable regions; however, the only highly conserved core genes were int and umuCD among the 20 prophage DNAs. These findings provide important insights into the evolutionary diversity of bacteriophage DNA contained in K. pneumoniae.

Published

2019

2. Evolutionary Diversity of Prophage DNA in Klebsiella pneumoniae Chromosomes.

Author

Wang, Fengling, Wang, Dongguo, Hou, Wei, Jin, Qian, Feng, Jiao, and Zhou, Dongsheng

Subjects

TRANSPOSONS, DNA insertion elements, KLEBSIELLA pneumoniae, BACTERIAL DNA, DNA, CHROMOSOMES, MICROBIAL sensitivity tests

Abstract

Mobile gene elements play an important role in the continuous evolution of the prophage DNA of bacteria, promoting the emergence of new gene structures. This study explored the evolution of four strains of Klebsiella pneumoniae harboring prophages, 19051, 721005, 911021, and 675920, and 16 genomes of K. pneumoniae from GenBank. The results revealed a wide range of genetic variation in the prophage DNA inserted into the sap sites of K. pneumoniae chromosomes. From analysis and comparison of the sequences of the 20 prophage DNAs determined from the four strains and the 16 GenBank genomes of K. pneumoniae using high-throughput sequencing and antimicrobial susceptibility tests, we identified a novel transposon, Tn 6556. We also identified at least nine large genetic structures with massive genetic acquisitions or losses and five hotspot sites showing a tendency to undergo insertion of gene elements such as IS 1T , IS 1R , IS 26 , IS Kpn26 , IS Kpn28 , Tn 6556 , MDR, and In27 - related regions as variable regions; however, the only highly conserved core genes were int and umuCD among the 20 prophage DNAs. These findings provide important insights into the evolutionary diversity of bacteriophage DNA contained in K. pneumoniae. [ABSTRACT FROM AUTHOR]

Published

2019

3. Evolutionary Diversity of Prophage DNA in Klebsiella pneumoniae Chromosomes

Author

Jiao Feng, Fengling Wang, Dongsheng Zhou, Wei Hou, Qian Jin, and Dongguo Wang

Subjects

Microbiology (medical), Genetics, Transposable element, 0303 health sciences, 030306 microbiology, Klebsiella pneumoniae, massive genetic acquisition or loss, lcsh:QR1-502, DNA conjugative transfer, Biology, biology.organism_classification, Microbiology, Genome, K. pneumoniae chromosome, sequence annotation and comparison, lcsh:Microbiology, Bacteriophage, 03 medical and health sciences, GenBank, Genetic variation, Gene, evolutionary diversity of prophage DNA, Prophage, 030304 developmental biology

Abstract

Mobile gene elements play an important role in the continuous evolution of the prophage DNA of bacteria, promoting the emergence of new gene structures. This study explored the evolution of four strains of Klebsiella pneumoniae harboring prophages, 19051, 721005, 911021, and 675920, and 16 genomes of K. pneumoniae from GenBank. The results revealed a wide range of genetic variation in the prophage DNA inserted into the sap sites of K. pneumoniae chromosomes. From analysis and comparison of the sequences of the 20 prophage DNAs determined from the four strains and the 16 GenBank genomes of K. pneumoniae using high-throughput sequencing and antimicrobial susceptibility tests, we identified a novel transposon, Tn6556. We also identified at least nine large genetic structures with massive genetic acquisitions or losses and five hotspot sites showing a tendency to undergo insertion of gene elements such as IS1T, IS1R, IS26, ISKpn26, ISKpn28, Tn6556, MDR, and In27-related regions as variable regions; however, the only highly conserved core genes were int and umuCD among the 20 prophage DNAs. These findings provide important insights into the evolutionary diversity of bacteriophage DNA contained in K. pneumoniae.

Published

2019

4. Genomic Analysis of Prophages from Klebsiella pneumoniae Clinical Isolates

Author

Jorge M. B. Vítor, Filipa F. Vale, Luisa Gonçalves, Luís Tanoeiro, Aida Duarte, Andreia T. Marques, and Repositório da Universidade de Lisboa

Subjects

Microbiology (medical), QH301-705.5, Klebsiella pneumoniae, Myoviridae, comparative genomics, K. pneumoniae genomes, phylogeny, Microbiology, Article, Siphoviridae, Bacteriophage, phage endolysins, prophages, bacteriophage, Virology, Lysogenic cycle, Biology (General), Prophage, Comparative genomics, Genetics, biology, bioinformatics, biology.organism_classification, sequence annotation and comparison, genomic analysis, Mobile genetic elements

Abstract

Klebsiella pneumoniae is an increasing threat to public health and represents one of the most concerning pathogens involved in life-threatening infections. The resistant and virulence determinants are coded by mobile genetic elements which can easily spread between bacteria populations and co-evolve with its genomic host. In this study, we present the full genomic sequences, insertion sites and phylogenetic analysis of 150 prophages found in 40 K. pneumoniae clinical isolates obtained from an outbreak in a Portuguese hospital. All strains harbored at least one prophage and we identified 104 intact prophages (69.3%). The prophage size ranges from 29.7 to 50.6 kbp, coding between 32 and 78 putative genes. The prophage GC content is 51.2%, lower than the average GC content of 57.1% in K. pneumoniae. Complete prophages were classified into three families in the order Caudolovirales: Myoviridae (59.6%), Siphoviridae (38.5%) and Podoviridae (1.9%). In addition, an alignment and phylogenetic analysis revealed nine distinct clusters. Evidence of recombination was detected within the genome of some prophages but, in most cases, proteins involved in viral structure, transcription, replication and regulation (lysogenic/lysis) were maintained. These results support the knowledge that prophages are diverse and widely disseminated in K. pneumoniae genomes, contributing to the evolution of this species and conferring additional phenotypes. Moreover, we identified K. pneumoniae prophages in a set of endolysin genes, which were found to code for proteins with lysozyme activity, cleaving the β-1,4 linkages between N-acetylmuramic acid and N-acetyl-D-glucosamine residues in the peptidoglycan network and thus representing genes with the potential for lysin phage therapy., F.F.V. is funded by Fundação para a Ciência e a Tecnologia (FCT) through an Assistant Researcher grant CEECIND/03023/2017, and a project grant (PTDC/BTM-SAL/28978/2017) that supported this work. The work is partially supported by National funds from FCT, projects UIDB/04138/2020 and UIDP/04138/2020.

Published

2021

5. Genomic Analysis of Prophages from Klebsiella pneumoniae Clinical Isolates.

Author

Marques, Andreia T., Tanoeiro, Luís, Duarte, Aida, Gonçalves, Luisa, Vítor, Jorge M. B., and Vale, Filipa F.

Subjects

GENOMICS, MOBILE genetic elements, PHENOTYPES, KLEBSIELLA pneumoniae, VIRAL proteins, GENOMES, GENETIC code

Abstract

Klebsiella pneumoniae is an increasing threat to public health and represents one of the most concerning pathogens involved in life-threatening infections. The resistant and virulence determinants are coded by mobile genetic elements which can easily spread between bacteria populations and co-evolve with its genomic host. In this study, we present the full genomic sequences, insertion sites and phylogenetic analysis of 150 prophages found in 40 K. pneumoniae clinical isolates obtained from an outbreak in a Portuguese hospital. All strains harbored at least one prophage and we identified 104 intact prophages (69.3%). The prophage size ranges from 29.7 to 50.6 kbp, coding between 32 and 78 putative genes. The prophage GC content is 51.2%, lower than the average GC content of 57.1% in K. pneumoniae. Complete prophages were classified into three families in the order Caudolovirales: Myoviridae (59.6%), Siphoviridae (38.5%) and Podoviridae (1.9%). In addition, an alignment and phylogenetic analysis revealed nine distinct clusters. Evidence of recombination was detected within the genome of some prophages but, in most cases, proteins involved in viral structure, transcription, replication and regulation (lysogenic/lysis) were maintained. These results support the knowledge that prophages are diverse and widely disseminated in K. pneumoniae genomes, contributing to the evolution of this species and conferring additional phenotypes. Moreover, we identified K. pneumoniae prophages in a set of endolysin genes, which were found to code for proteins with lysozyme activity, cleaving the β-1,4 linkages between N-acetylmuramic acid and N-acetyl-D-glucosamine residues in the peptidoglycan network and thus representing genes with the potential for lysin phage therapy. [ABSTRACT FROM AUTHOR]

Published

2021