Molecular phylogeny and rearrangement of rRNA genes in Rickettsia species. (original) (raw)

Journal Article

,

1Department of Molecular Evolution, University of Uppsala, Sweden. siv.andersson@molbio.uu.se

Search for other works by this author on:

,

1Department of Molecular Evolution, University of Uppsala, Sweden. siv.andersson@molbio.uu.se

Search for other works by this author on:

,

1Department of Molecular Evolution, University of Uppsala, Sweden. siv.andersson@molbio.uu.se

Search for other works by this author on:

1Department of Molecular Evolution, University of Uppsala, Sweden. siv.andersson@molbio.uu.se

Search for other works by this author on:

Cite

S G Andersson, D R Stothard, P Fuerst, C G Kurland, Molecular phylogeny and rearrangement of rRNA genes in Rickettsia species., Molecular Biology and Evolution, Volume 16, Issue 7, 1 July 1999, Pages 987–995, https://doi.org/10.1093/oxfordjournals.molbev.a026188
Close

Navbar Search Filter Mobile Enter search term Search

It has previously been observed that Rickettsia prowazekii has an unusual arrangement of the rRNA genes. In this species, the three rRNA genes, 16S (rrs), 23S (rrl), and 5S (rrf), are not linked in the typical arrangements for bacteria. Rather, the 16S rRNA gene has been separated from the 23S and 5S rRNA gene cluster, and the 23S rRNA gene is preceded by a gene which codes for methionyl-tRNAf(Met) formyltransferase (fmt). In this study, we screened the genus Rickettsia for the fmt-rrl motif in order to examine the phylogenetic depth of this unusual rRNA gene organization. A rearranged operon structure was observed in Rickettsia conorii, Rickettsia parkeri, Rickettsia sibirica, Rickettsia rickettsii, Rickettsia amblyomii, Rickettsia montana, Rickettsia rhipicephali, Rickettsia australis, Rickettsia akari, Rickettsia felis, Rickettsia canada, and Rickettsia typhi. There is also evidence for a divided operon in Rickettsia belli, but in this species, the fmt gene could not be identified upstream of the 23S rRNA gene. In order to place the rearrangement event in the evolutionary history of the Rickettsia, phylogenetic analyses were performed based on the fmt-rrl spacer regions and the 23S rRNA genes. Based on these phylogenies, we suggest that the genomic rearrangement of the rRNA genes preceded the divergence of the typhus group and the spotted fever group Rickettsia. The unique organization of the 23S rRNA genes provides a simple diagnostic tool for identification of Rickettsia species.

This content is only available as a PDF.

Citations

Views

Altmetric

Metrics

Total Views 383

39 Pageviews

344 PDF Downloads

Since 1/1/2017

Month: Total Views:
January 2017 2
March 2017 4
April 2017 1
May 2017 3
June 2017 1
August 2017 3
September 2017 1
October 2017 11
November 2017 1
December 2017 5
January 2018 9
February 2018 10
March 2018 15
April 2018 1
May 2018 7
June 2018 2
July 2018 4
September 2018 1
October 2018 3
November 2018 4
December 2018 1
January 2019 2
February 2019 3
March 2019 11
April 2019 2
May 2019 5
June 2019 7
July 2019 5
August 2019 4
September 2019 10
October 2019 5
November 2019 4
December 2019 12
January 2020 4
February 2020 3
March 2020 2
April 2020 8
May 2020 3
June 2020 6
July 2020 3
August 2020 5
September 2020 2
October 2020 1
November 2020 6
December 2020 2
January 2021 2
February 2021 4
March 2021 3
April 2021 2
May 2021 4
June 2021 2
July 2021 1
August 2021 3
September 2021 3
October 2021 10
November 2021 5
December 2021 3
January 2022 2
February 2022 1
March 2022 3
April 2022 6
May 2022 5
June 2022 9
July 2022 2
August 2022 3
September 2022 3
October 2022 9
November 2022 3
December 2022 2
January 2023 5
February 2023 1
March 2023 5
April 2023 2
May 2023 5
June 2023 2
July 2023 5
August 2023 2
September 2023 4
October 2023 5
November 2023 4
December 2023 8
January 2024 4
February 2024 3
March 2024 10
April 2024 8
May 2024 2
June 2024 5
July 2024 5
August 2024 3
September 2024 1

Citations

41 Web of Science

×

Email alerts

Email alerts

Citing articles via

More from Oxford Academic