SupportinglnformationS2

Heidie M Hornstra
Rachael A Priestley
Shalamar M Georgia
Sergey Kachur
Dawn N Birdsell
Remy Hilsabeck
Lauren T Gates
James E Samuel
Robert A Heinzen
Gilbert J Kersh
Paul Keim
Robert F Massung
Talima Pearson

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environm...

Phylogenetic SNP tree analysis of Klebsiella genomes, using Klebsiella pneumoniae NTUH-K2044 as reference genome.

Cornelia A. Bidewell (4875871)
Susanna M. Williamson (4875868)
Jon Rogers (4875865)
Yue Tang (235893)
Richard J. Ellis (248553)
Liljana Petrovska (460591)
Manal AbuOun (141061)

February 2018

Shaded isolates the ST25 case isolates. There were a total of 195803 SNP positions in the final d...

Maximum Parsimony tree of S. Kentucky ST198 isolates collected from human clinical cases (cluster 198.2) and dairy cows and food products in North America (198.1).

Bradd J. Haley (546446)
Seon Woo Kim (3190833)
James Pettengill (29001)
Yan Luo (255674)
Jeffrey S. Karns (3190830)
Jo Ann S. Van Kessel (3190827)

October 2016

The tree was inferred from an alignment of SNPs detected among all S. Kentucky ST198 genom...

Data from: When outgroups fail; phylogenomics of rooting the emerging pathogen, Coxiella burnetii

Pearson, Talima
Hornstra, Heidie M.
Sahl, Jason W.
Schaack, Sarah
Schupp, James M.
Beckstrom-Sternberg, Stephen M.
O'Neill, Matthew W.
Priestley, Rachael A.
Champion, Mia D.
Beckstrom-Sternberg, James S.
Kersh, Gilbert J.
Samuel, James E.
Massung, Robert F.
Keim, Paul

May 2013

Rooting phylogenies is critical for understanding evolution, yet the importance, intricacies and dif...

SupportingInformationS3

Talima Pearson (69749)
Heidie M. Hornstra (176932)
Jason W. Sahl (276694)
Sarah Schaack (3288813)
James M. Schupp (193214)
Stephen M. Beckstrom-Sternberg (67317)
Matthew W. O'Neill (3288810)
Rachael A. Priestley (198131)
Mia D. Champion (199178)
James S. Beckstrom-Sternberg (67321)
Gilbert J. Kersh (198162)
James E. Samuel (198157)
Robert F. Massung (198166)
Paul Keim (69765)

November 2016

S3. Rooted maximum parsimony tree of C. burnetii MST genotypes (1-34 and Dugway) after Hornstra et a...

Supplementary Information S1

Talima Pearson (69749)
Heidie M. Hornstra (176932)
Jason W. Sahl (276694)
Sarah Schaack (3288813)
James M. Schupp (193214)
Stephen M. Beckstrom-Sternberg (67317)
Matthew W. O'Neill (3288810)
Rachael A. Priestley (198131)
Mia D. Champion (199178)
James S. Beckstrom-Sternberg (67321)
Gilbert J. Kersh (198162)
James E. Samuel (198157)
Robert F. Massung (198166)
Paul Keim (69765)

November 2016

S1. SNP matrix of 11,286 orthologous SNPs discovered among ten C. burnetii genomes

Eight new genomes and synthetic controls increase the accessibility of rapid melt-MAMA SNP typing of Coxiella burnetii.

Edvin Karlsson
Anna Macellaro
Mona Byström
Mats Forsman
Dimitrios Frangoulidis
Ingmar Janse
Pär Larsson
Petter Lindgren
Caroline Ohrman
Bart van Rotterdam
Andreas Sjödin
Kerstin Myrtennäs

The case rate of Q fever in Europe has increased dramatically in recent years, mainly because of an ...

Minimum spanning tree of 167 B. anthracis strains based on whole-genome SNP analysis.

Gilles Vergnaud (2639)
Guillaume Girault (789370)
Simon Thierry (307245)
Christine Pourcel (72121)
Nora Madani (572990)
Yann Blouin (107150)

February 2016

Data are based on 6690 chromosomal SNPs. Geographic origin is reflected by a color code shown on ...

Whole genome SNP-based phylogenetic comparisons of ST1 and ST1-like isolates in the current dataset.

Jeffrey W. Mercante (3185916)
Jason A. Caravas (4051123)
Maliha K. Ishaq (5870966)
Natalia A. Kozak-Muiznieks (5870969)
Brian H. Raphael (3185922)
Jonas M. Winchell (425093)

October 2018

A) Unrooted tree of 28 different L. pneumophila sequence types, including the ST1 clade (collapsed r...

Focus on ST-767.

Alexandr Shevtsov (3372941)
Zabida Aushakhmetova (14307739)
Asylulan Amirgazin (11808812)
Olga Khegay (14307742)
Dinara Kamalova (3372947)
Bibiaisha Sanakulova (14307745)
Askar Abdaliyev (14307748)
Dinagul Bayesheva (14307751)
Aliya Seidullayeva (14307754)
Yerlan Ramankulov (5635238)
Alexandr Shustov (7215404)
Gilles Vergnaud (2639)

December 2022

Seven strains were assigned to ST-767 (cc167). Strains are colored according to region of origin. SN...

Eight New Genomes and Synthetic Controls Increase the Accessibility of Rapid Melt-MAMA SNP Typing of Coxiella burnetii

Edvin Karlsson (511550)
Anna Macellaro (511551)
Mona Byström (511552)
Mats Forsman (263045)
Dimitrios Frangoulidis (17979)
Ingmar Janse (183242)
Pär Larsson (171191)
Petter Lindgren (511553)
Caroline Öhrman (511554)
Bart van Rotterdam (511555)
Andreas Sjödin (3286)
Kerstin Myrtennäs (511556)

January 2014

<div>The case rate of Q fever in Europe has increased dramatically in recent years, mainly becaus...

Phylogenetic inference of Coxiella burnetii by 16S rRNA gene sequencing.

Heather P McLaughlin
Blake Cherney
Janetta R Hakovirta
Rachael A Priestley
Andrew Conley
Andrew Carter
David Hodge
Segaran P Pillai
Linda M Weigel
Gilbert J Kersh
David Sue

Coxiella burnetii is a human pathogen that causes the serious zoonotic disease Q fever. It is ubiqui...

MST loci SNP-based phylogeny of C. burnetii.

Heather P. McLaughlin (181821)
Blake Cherney (4726272)
Janetta R. Hakovirta (4726278)
Rachael A. Priestley (198131)
Andrew Conley (3351989)
Andrew Carter (62939)
David Hodge (3134145)
Segaran P. Pillai (4726284)
Linda M. Weigel (4726275)
Gilbert J. Kersh (198162)
David Sue (4726281)

December 2017

This rooted phylogenetic tree was created from pairwise distances observed from 14 SNP sites with...

Rapid Typing of Coxiella burnetii

Heidie M. Hornstra
Rachael A. Priestley
Shalamar M. Georgia
Sergey Kachur
Dawn N. Birdsell
Remy Hilsabeck
Lauren T. Gates
James E. Samuel
Robert A. Heinzen
Gilbert J. Kersh
Paul Keim
Robert F. Massung
Talima Pearson

August 2016

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environm...

Whole genome sequence based analysis of divergence of ST291 and ST398.

Marc Stegger (245293)
Maliha Aziz (255597)
Tomasz Chroboczek (414343)
Lance B. Price (200539)
Troels Ronco (414344)
Kristoffer Kiil (85603)
Robert L. Skov (332645)
Frederic Laurent (3270807)
Paal S. Andersen (414345)

May 2013

Maximum-parsimony tree of the two ST291 isolates (HT20040853 and ST20090964) and 89 CC398 isolate...

Rapid typing of Coxiella burnetii.

Heidie M Hornstra
Rachael A Priestley
Shalamar M Georgia
Sergey Kachur
Dawn N Birdsell
Remy Hilsabeck
Lauren T Gates
James E Samuel
Robert A Heinzen
Gilbert J Kersh
Paul Keim
Robert F Massung
Talima Pearson

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environm...

Phylogenetic SNP tree analysis of Klebsiella genomes, using Klebsiella pneumoniae NTUH-K2044 as reference genome.

Cornelia A. Bidewell (4875871)
Susanna M. Williamson (4875868)
Jon Rogers (4875865)
Yue Tang (235893)
Richard J. Ellis (248553)
Liljana Petrovska (460591)
Manal AbuOun (141061)

February 2018

Shaded isolates the ST25 case isolates. There were a total of 195803 SNP positions in the final d...

Maximum Parsimony tree of S. Kentucky ST198 isolates collected from human clinical cases (cluster 198.2) and dairy cows and food products in North America (198.1).

Bradd J. Haley (546446)
Seon Woo Kim (3190833)
James Pettengill (29001)
Yan Luo (255674)
Jeffrey S. Karns (3190830)
Jo Ann S. Van Kessel (3190827)

October 2016

The tree was inferred from an alignment of SNPs detected among all S. Kentucky ST198 genom...

Data from: When outgroups fail; phylogenomics of rooting the emerging pathogen, Coxiella burnetii

Pearson, Talima
Hornstra, Heidie M.
Sahl, Jason W.
Schaack, Sarah
Schupp, James M.
Beckstrom-Sternberg, Stephen M.
O'Neill, Matthew W.
Priestley, Rachael A.
Champion, Mia D.
Beckstrom-Sternberg, James S.
Kersh, Gilbert J.
Samuel, James E.
Massung, Robert F.
Keim, Paul

May 2013

Rooting phylogenies is critical for understanding evolution, yet the importance, intricacies and dif...

SupportingInformationS3

Talima Pearson (69749)
Heidie M. Hornstra (176932)
Jason W. Sahl (276694)
Sarah Schaack (3288813)
James M. Schupp (193214)
Stephen M. Beckstrom-Sternberg (67317)
Matthew W. O'Neill (3288810)
Rachael A. Priestley (198131)
Mia D. Champion (199178)
James S. Beckstrom-Sternberg (67321)
Gilbert J. Kersh (198162)
James E. Samuel (198157)
Robert F. Massung (198166)
Paul Keim (69765)

November 2016

S3. Rooted maximum parsimony tree of C. burnetii MST genotypes (1-34 and Dugway) after Hornstra et a...

Supplementary Information S1

Talima Pearson (69749)
Heidie M. Hornstra (176932)
Jason W. Sahl (276694)
Sarah Schaack (3288813)
James M. Schupp (193214)
Stephen M. Beckstrom-Sternberg (67317)
Matthew W. O'Neill (3288810)
Rachael A. Priestley (198131)
Mia D. Champion (199178)
James S. Beckstrom-Sternberg (67321)
Gilbert J. Kersh (198162)
James E. Samuel (198157)
Robert F. Massung (198166)
Paul Keim (69765)

November 2016

S1. SNP matrix of 11,286 orthologous SNPs discovered among ten C. burnetii genomes

Eight new genomes and synthetic controls increase the accessibility of rapid melt-MAMA SNP typing of Coxiella burnetii.

Edvin Karlsson
Anna Macellaro
Mona Byström
Mats Forsman
Dimitrios Frangoulidis
Ingmar Janse
Pär Larsson
Petter Lindgren
Caroline Ohrman
Bart van Rotterdam
Andreas Sjödin
Kerstin Myrtennäs

The case rate of Q fever in Europe has increased dramatically in recent years, mainly because of an ...

Minimum spanning tree of 167 B. anthracis strains based on whole-genome SNP analysis.

Gilles Vergnaud (2639)
Guillaume Girault (789370)
Simon Thierry (307245)
Christine Pourcel (72121)
Nora Madani (572990)
Yann Blouin (107150)

February 2016

Data are based on 6690 chromosomal SNPs. Geographic origin is reflected by a color code shown on ...

Whole genome SNP-based phylogenetic comparisons of ST1 and ST1-like isolates in the current dataset.

Jeffrey W. Mercante (3185916)
Jason A. Caravas (4051123)
Maliha K. Ishaq (5870966)
Natalia A. Kozak-Muiznieks (5870969)
Brian H. Raphael (3185922)
Jonas M. Winchell (425093)

October 2018

A) Unrooted tree of 28 different L. pneumophila sequence types, including the ST1 clade (collapsed r...

Focus on ST-767.

Alexandr Shevtsov (3372941)
Zabida Aushakhmetova (14307739)
Asylulan Amirgazin (11808812)
Olga Khegay (14307742)
Dinara Kamalova (3372947)
Bibiaisha Sanakulova (14307745)
Askar Abdaliyev (14307748)
Dinagul Bayesheva (14307751)
Aliya Seidullayeva (14307754)
Yerlan Ramankulov (5635238)
Alexandr Shustov (7215404)
Gilles Vergnaud (2639)

December 2022

Seven strains were assigned to ST-767 (cc167). Strains are colored according to region of origin. SN...

Eight New Genomes and Synthetic Controls Increase the Accessibility of Rapid Melt-MAMA SNP Typing of Coxiella burnetii

Edvin Karlsson (511550)
Anna Macellaro (511551)
Mona Byström (511552)
Mats Forsman (263045)
Dimitrios Frangoulidis (17979)
Ingmar Janse (183242)
Pär Larsson (171191)
Petter Lindgren (511553)
Caroline Öhrman (511554)
Bart van Rotterdam (511555)
Andreas Sjödin (3286)
Kerstin Myrtennäs (511556)

January 2014

<div>The case rate of Q fever in Europe has increased dramatically in recent years, mainly becaus...

Phylogenetic inference of Coxiella burnetii by 16S rRNA gene sequencing.

Heather P McLaughlin
Blake Cherney
Janetta R Hakovirta
Rachael A Priestley
Andrew Conley
Andrew Carter
David Hodge
Segaran P Pillai
Linda M Weigel
Gilbert J Kersh
David Sue

Coxiella burnetii is a human pathogen that causes the serious zoonotic disease Q fever. It is ubiqui...

MST loci SNP-based phylogeny of C. burnetii.

Heather P. McLaughlin (181821)
Blake Cherney (4726272)
Janetta R. Hakovirta (4726278)
Rachael A. Priestley (198131)
Andrew Conley (3351989)
Andrew Carter (62939)
David Hodge (3134145)
Segaran P. Pillai (4726284)
Linda M. Weigel (4726275)
Gilbert J. Kersh (198162)
David Sue (4726281)

December 2017

This rooted phylogenetic tree was created from pairwise distances observed from 14 SNP sites with...

Rapid Typing of Coxiella burnetii

Heidie M. Hornstra
Rachael A. Priestley
Shalamar M. Georgia
Sergey Kachur
Dawn N. Birdsell
Remy Hilsabeck
Lauren T. Gates
James E. Samuel
Robert A. Heinzen
Gilbert J. Kersh
Paul Keim
Robert F. Massung
Talima Pearson

August 2016

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environm...

Whole genome sequence based analysis of divergence of ST291 and ST398.

Marc Stegger (245293)
Maliha Aziz (255597)
Tomasz Chroboczek (414343)
Lance B. Price (200539)
Troels Ronco (414344)
Kristoffer Kiil (85603)
Robert L. Skov (332645)
Frederic Laurent (3270807)
Paal S. Andersen (414345)

May 2013

Maximum-parsimony tree of the two ST291 isolates (HT20040853 and ST20090964) and 89 CC398 isolate...

Rapid typing of Coxiella burnetii.

Heidie M Hornstra
Rachael A Priestley
Shalamar M Georgia
Sergey Kachur
Dawn N Birdsell
Remy Hilsabeck
Lauren T Gates
James E Samuel
Robert A Heinzen
Gilbert J Kersh
Paul Keim
Robert F Massung
Talima Pearson

Coxiella burnetii has the potential to cause serious disease and is highly prevalent in the environm...

Phylogenetic SNP tree analysis of Klebsiella genomes, using Klebsiella pneumoniae NTUH-K2044 as reference genome.

Cornelia A. Bidewell (4875871)
Susanna M. Williamson (4875868)
Jon Rogers (4875865)
Yue Tang (235893)
Richard J. Ellis (248553)
Liljana Petrovska (460591)
Manal AbuOun (141061)

February 2018

Shaded isolates the ST25 case isolates. There were a total of 195803 SNP positions in the final d...

Maximum Parsimony tree of S. Kentucky ST198 isolates collected from human clinical cases (cluster 198.2) and dairy cows and food products in North America (198.1).

Bradd J. Haley (546446)
Seon Woo Kim (3190833)
James Pettengill (29001)
Yan Luo (255674)
Jeffrey S. Karns (3190830)
Jo Ann S. Van Kessel (3190827)

October 2016

The tree was inferred from an alignment of SNPs detected among all S. Kentucky ST198 genom...

SupportinglnformationS2

Abstract

Extracted data

SupportinglnformationS2

Abstract

Extracted data

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