R. D. Fleischmann scite author profile

An approach for genome analysis based on sequencing and assembly of unselected pieces of DNA from the whole chromosome has been applied to obtain the complete nucleotide sequence (1,830,137 base pairs) of the genome from the bacterium Haemophilus influenzae Rd. This approach eliminates the need for initial mapping efforts and is therefore applicable to the vast array of microbial species for which genome maps are unavailable. The H. influenzae Rd genome sequence (Genome Sequence DataBase accession number L42023) represents the only complete genome sequence from a free-living organism.

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Complete Genome Sequence of the Methanogenic Archaeon, Methanococcus jannaschii

Bult

White

Olsen

et al. 1996

Science

2,273

1,528

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The complete 1.66-megabase pair genome sequence of an autotrophic archaeon, Methanococcus jannaschii, and its 58- and 16-kilobase pair extrachromosomal elements have been determined by whole-genome random sequencing. A total of 1738 predicted protein-coding genes were identified; however, only a minority of these (38 percent) could be assigned a putative cellular role with high confidence. Although the majority of genes related to energy production, cell division, and metabolism in M. jannaschii are most similar to those found in Bacteria, most of the genes involved in transcription, translation, and replication in M. jannaschii are more similar to those found in Eukaryotes.

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DNA repeats identify novel virulence genes in Haemophilus influenzae.

Hood

Deadman

Jennings

et al. 1996

Proc. Natl. Acad. Sci. U.S.A.

321

275

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The whole genome sequence (1.83 Mbp) of Haemophilus influenzae strain Rd was searched to identify tandem oligonucleotide repeat sequences. Loss or gain of one or more nucleotide repeats through a recombinationindependent slippage mechanism is known to mediate phase variation of surface molecules of pathogenic bacteria, including H. influenzae. This facilitates evasion of host defenses and adaptation to the varying microenvironments of the host. We reasoned that iterative nucleotides could identify novel genes relevant to microbe-host interactions. Our search of the Rd genome sequence identified 9 novel loci with multiple (range 6-36, mean 22) tandem tetranucleotide repeats. All were found to be located within putative open reading frames and included homologues of hemoglobin-binding proteins of Neisseria, a glycosyltransferase (IgtC gene product) of Neisseria, and an adhesin of Yersinia. These tetranucleotide repeat sequences were also shown to be present in two other epidemiologically different H. influenzae type b strains, although the number and distribution of repeats was different. Further characterization of the lgtC gene showed that it was involved in phenotypic switching of a lipopolysaccharide epitope and that this variable expression was associated with changes in the number of tetranucleotide repeats. Mutation of lgtC resulted in attenuated virulence ofH. influenzae in an infant rat model of invasive infection. These data indicate the rapidity, economy, and completeness with which whole genome sequences can be used to investigate the biology of pathogenic bacteria.Haemophilus influenzae is an important cause of human disease worldwide. Serotype b capsular strains cause invasive bacteremic infections such as meningitis, septicemia, epiglottitis, septic arthritis, and empyema, particularly in infants. Strains lacking a capsule are a common cause of otitis media, sinusitis, conjunctivitis, and acute lower respiratory tract infections, which account for many millions of childhood deaths in the Third World (1).

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R. D. Fleischmann

Whole-Genome Random Sequencing and Assembly of Haemophilus influenzae Rd

Complete Genome Sequence of the Methanogenic Archaeon, Methanococcus jannaschii

DNA repeats identify novel virulence genes in Haemophilus influenzae.

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