Granulibacter bethesdensis (German Wikipedia)

Analysis of information sources in references of the Wikipedia article "Granulibacter bethesdensis" in German language version.

refsWebsite

Global rank German rank

11doi.org

2^nd place

3^rd place

10zdb-katalog.de

123^rd place

6^th place

8nih.gov

4^th place

7^th place

2microbiologyresearch.org

low place

2asm.org

3,555^th place

2,903^rd place

1mdpi.com

2,912^th place

1,242^nd place

1jimmunol.org

low place

1elsevier.com

610^th place

521^st place

1spektrum.de

1,960^th place

130^th place

1doe.gov

2,463^rd place

7,663^rd place

1kenyon.edu

8,981^st place

6,213^th place

1nejm.org

2,374^th place

1,391^st place

1plos.org

2,112^th place

1,609^th place

1nature.com

234^th place

203^rd place

asm.org

journals.asm.org

Corentine Alauzet, Corinne Teyssier, Estelle Jumas-Bilak, Anne Gouby, Raphael Chiron: Gluconobacter as Well as Asaia Species, Newly Emerging Opportunistic Human Pathogens among Acetic Acid Bacteria. In: Journal of Clinical Microbiology. Band 48, Nr. 11, November 2010, ISSN 0095-1137, S. 3935–3942, doi:10.1128/JCM.00767-10, PMID 20826638, PMC 3020812 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Kol A. Zarember, Kimberly R. Marshall-Batty, Anna R. Cruz, Jessica Chu, Michael E. Fenster: Innate Immunity against Granulibacter bethesdensis, an Emerging Gram-Negative Bacterial Pathogen. In: Infection and Immunity. Band 80, Nr. 3, März 2012, ISSN 0019-9567, S. 975–981, doi:10.1128/IAI.05557-11, PMID 22184421, PMC 3294668 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).

doe.gov

img.jgi.doe.gov

Auf der Seite sind eine genauere Aufteilung und eine Übersicht der Genabschnitte aufgeführt: Granulibacter Bethesdensis Genom

doi.org

David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).
Artur Muszyński, Kol A. Zarember, Christian Heiss, Joseph Shiloach, Lars J. Berg: Granulibacter bethesdensis, a Pathogen from Patients with Chronic Granulomatous Disease, Produces a Penta-Acylated Hypostimulatory Glycero-D-talo-oct-2-ulosonic Acid–Lipid A Glycolipid (Ko-Lipid A). In: International Journal of Molecular Sciences. Band 22, Nr. 7, 24. März 2021, ISSN 1422-0067, S. 3303, doi:10.3390/ijms22073303, PMID 33804872, PMC 8036547 (freier Volltext) – (mdpi.com [abgerufen am 8. Oktober 2022]).
Corentine Alauzet, Corinne Teyssier, Estelle Jumas-Bilak, Anne Gouby, Raphael Chiron: Gluconobacter as Well as Asaia Species, Newly Emerging Opportunistic Human Pathogens among Acetic Acid Bacteria. In: Journal of Clinical Microbiology. Band 48, Nr. 11, November 2010, ISSN 0095-1137, S. 3935–3942, doi:10.1128/JCM.00767-10, PMID 20826638, PMC 3020812 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Kol A. Zarember, Kimberly R. Marshall-Batty, Anna R. Cruz, Jessica Chu, Michael E. Fenster: Innate Immunity against Granulibacter bethesdensis, an Emerging Gram-Negative Bacterial Pathogen. In: Infection and Immunity. Band 80, Nr. 3, März 2012, ISSN 0019-9567, S. 975–981, doi:10.1128/IAI.05557-11, PMID 22184421, PMC 3294668 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Jessica Chu, Helen H. Song, Kol A. Zarember, Teresa A. Mills, John I. Gallin: Persistence of the Bacterial Pathogen Granulibacter bethesdensis in Chronic Granulomatous Disease Monocytes and Macrophages Lacking a Functional NADPH Oxidase. In: The Journal of Immunology. Band 191, Nr. 6, 15. September 2013, ISSN 0022-1767, S. 3297–3307, doi:10.4049/jimmunol.1300200, PMID 23956436, PMC 3769460 (freier Volltext) – (jimmunol.org [abgerufen am 8. Oktober 2022]).
Michael T. Brady, Amy Leber: Less Commonly Encountered Nonenteric Gram-Negative Bacilli. In: Principles and Practice of Pediatric Infectious Diseases. Elsevier, 2018, ISBN 978-0-323-40181-4, S. 855–859.e3, doi:10.1016/b978-0-323-40181-4.00151-1 (elsevier.com [abgerufen am 8. Oktober 2022]).
David E. Greenberg, Stephen F. Porcella, Adrian M. Zelazny, Kimmo Virtaneva, Dan E. Sturdevant, John J. Kupko, Kent D. Barbian, Amenah Babar, David W. Dorward, Steven M. Holland: Genome Sequence Analysis of the Emerging Human Pathogenic Acetic Acid Bacterium Granulibacter bethesdensis. In: Journal of Bacteriology. Band 189, Nr. 23, Dezember 2007, ISSN 0021-9193, S. 8727–8736, doi:10.1128/JB.00793-07, PMID 17827295.
David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).
Douglas B. Kuhns, W. Gregory Alvord, Theo Heller, Jordan J. Feld, Kristen M. Pike: Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease. In: New England Journal of Medicine. Band 363, Nr. 27, 30. Dezember 2010, ISSN 0028-4793, S. 2600–2610, doi:10.1056/NEJMoa1007097, PMID 21190454, PMC 3069846 (freier Volltext) – (nejm.org [abgerufen am 8. Oktober 2022]).
Kathryn Akong-Moore, Ohn A. Chow, Maren von Köckritz-Blickwede, Victor Nizet: Influences of Chloride and Hypochlorite on Neutrophil Extracellular Trap Formation. In: PLoS ONE. Band 7, Nr. 8, 13. August 2012, ISSN 1932-6203, S. e42984, doi:10.1371/journal.pone.0042984, PMID 22912772, PMC 3418225 (freier Volltext) – (plos.org [abgerufen am 8. Oktober 2022]).
Quinten Remijsen, Tom Vanden Berghe, Ellen Wirawan, Bob Asselbergh, Eef Parthoens: Neutrophil extracellular trap cell death requires both autophagy and superoxide generation. In: Cell Research. Band 21, Nr. 2, Februar 2011, ISSN 1001-0602, S. 290–304, doi:10.1038/cr.2010.150, PMID 21060338, PMC 3193439 (freier Volltext) – (nature.com [abgerufen am 8. Oktober 2022]).

elsevier.com

linkinghub.elsevier.com

Michael T. Brady, Amy Leber: Less Commonly Encountered Nonenteric Gram-Negative Bacilli. In: Principles and Practice of Pediatric Infectious Diseases. Elsevier, 2018, ISBN 978-0-323-40181-4, S. 855–859.e3, doi:10.1016/b978-0-323-40181-4.00151-1 (elsevier.com [abgerufen am 8. Oktober 2022]).

jimmunol.org

Jessica Chu, Helen H. Song, Kol A. Zarember, Teresa A. Mills, John I. Gallin: Persistence of the Bacterial Pathogen Granulibacter bethesdensis in Chronic Granulomatous Disease Monocytes and Macrophages Lacking a Functional NADPH Oxidase. In: The Journal of Immunology. Band 191, Nr. 6, 15. September 2013, ISSN 0022-1767, S. 3297–3307, doi:10.4049/jimmunol.1300200, PMID 23956436, PMC 3769460 (freier Volltext) – (jimmunol.org [abgerufen am 8. Oktober 2022]).

kenyon.edu

microbewiki.kenyon.edu

Microbewiki: Methylobacterium extorquens

mdpi.com

Artur Muszyński, Kol A. Zarember, Christian Heiss, Joseph Shiloach, Lars J. Berg: Granulibacter bethesdensis, a Pathogen from Patients with Chronic Granulomatous Disease, Produces a Penta-Acylated Hypostimulatory Glycero-D-talo-oct-2-ulosonic Acid–Lipid A Glycolipid (Ko-Lipid A). In: International Journal of Molecular Sciences. Band 22, Nr. 7, 24. März 2021, ISSN 1422-0067, S. 3303, doi:10.3390/ijms22073303, PMID 33804872, PMC 8036547 (freier Volltext) – (mdpi.com [abgerufen am 8. Oktober 2022]).

microbiologyresearch.org

David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).
David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).

nature.com

Quinten Remijsen, Tom Vanden Berghe, Ellen Wirawan, Bob Asselbergh, Eef Parthoens: Neutrophil extracellular trap cell death requires both autophagy and superoxide generation. In: Cell Research. Band 21, Nr. 2, Februar 2011, ISSN 1001-0602, S. 290–304, doi:10.1038/cr.2010.150, PMID 21060338, PMC 3193439 (freier Volltext) – (nature.com [abgerufen am 8. Oktober 2022]).

nejm.org

Douglas B. Kuhns, W. Gregory Alvord, Theo Heller, Jordan J. Feld, Kristen M. Pike: Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease. In: New England Journal of Medicine. Band 363, Nr. 27, 30. Dezember 2010, ISSN 0028-4793, S. 2600–2610, doi:10.1056/NEJMoa1007097, PMID 21190454, PMC 3069846 (freier Volltext) – (nejm.org [abgerufen am 8. Oktober 2022]).

nih.gov

ncbi.nlm.nih.gov

Artur Muszyński, Kol A. Zarember, Christian Heiss, Joseph Shiloach, Lars J. Berg: Granulibacter bethesdensis, a Pathogen from Patients with Chronic Granulomatous Disease, Produces a Penta-Acylated Hypostimulatory Glycero-D-talo-oct-2-ulosonic Acid–Lipid A Glycolipid (Ko-Lipid A). In: International Journal of Molecular Sciences. Band 22, Nr. 7, 24. März 2021, ISSN 1422-0067, S. 3303, doi:10.3390/ijms22073303, PMID 33804872, PMC 8036547 (freier Volltext) – (mdpi.com [abgerufen am 8. Oktober 2022]).
Corentine Alauzet, Corinne Teyssier, Estelle Jumas-Bilak, Anne Gouby, Raphael Chiron: Gluconobacter as Well as Asaia Species, Newly Emerging Opportunistic Human Pathogens among Acetic Acid Bacteria. In: Journal of Clinical Microbiology. Band 48, Nr. 11, November 2010, ISSN 0095-1137, S. 3935–3942, doi:10.1128/JCM.00767-10, PMID 20826638, PMC 3020812 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Kol A. Zarember, Kimberly R. Marshall-Batty, Anna R. Cruz, Jessica Chu, Michael E. Fenster: Innate Immunity against Granulibacter bethesdensis, an Emerging Gram-Negative Bacterial Pathogen. In: Infection and Immunity. Band 80, Nr. 3, März 2012, ISSN 0019-9567, S. 975–981, doi:10.1128/IAI.05557-11, PMID 22184421, PMC 3294668 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Jessica Chu, Helen H. Song, Kol A. Zarember, Teresa A. Mills, John I. Gallin: Persistence of the Bacterial Pathogen Granulibacter bethesdensis in Chronic Granulomatous Disease Monocytes and Macrophages Lacking a Functional NADPH Oxidase. In: The Journal of Immunology. Band 191, Nr. 6, 15. September 2013, ISSN 0022-1767, S. 3297–3307, doi:10.4049/jimmunol.1300200, PMID 23956436, PMC 3769460 (freier Volltext) – (jimmunol.org [abgerufen am 8. Oktober 2022]).
David E. Greenberg, Stephen F. Porcella, Adrian M. Zelazny, Kimmo Virtaneva, Dan E. Sturdevant, John J. Kupko, Kent D. Barbian, Amenah Babar, David W. Dorward, Steven M. Holland: Genome Sequence Analysis of the Emerging Human Pathogenic Acetic Acid Bacterium Granulibacter bethesdensis. In: Journal of Bacteriology. Band 189, Nr. 23, Dezember 2007, ISSN 0021-9193, S. 8727–8736, doi:10.1128/JB.00793-07, PMID 17827295.
Douglas B. Kuhns, W. Gregory Alvord, Theo Heller, Jordan J. Feld, Kristen M. Pike: Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease. In: New England Journal of Medicine. Band 363, Nr. 27, 30. Dezember 2010, ISSN 0028-4793, S. 2600–2610, doi:10.1056/NEJMoa1007097, PMID 21190454, PMC 3069846 (freier Volltext) – (nejm.org [abgerufen am 8. Oktober 2022]).
Kathryn Akong-Moore, Ohn A. Chow, Maren von Köckritz-Blickwede, Victor Nizet: Influences of Chloride and Hypochlorite on Neutrophil Extracellular Trap Formation. In: PLoS ONE. Band 7, Nr. 8, 13. August 2012, ISSN 1932-6203, S. e42984, doi:10.1371/journal.pone.0042984, PMID 22912772, PMC 3418225 (freier Volltext) – (plos.org [abgerufen am 8. Oktober 2022]).
Quinten Remijsen, Tom Vanden Berghe, Ellen Wirawan, Bob Asselbergh, Eef Parthoens: Neutrophil extracellular trap cell death requires both autophagy and superoxide generation. In: Cell Research. Band 21, Nr. 2, Februar 2011, ISSN 1001-0602, S. 290–304, doi:10.1038/cr.2010.150, PMID 21060338, PMC 3193439 (freier Volltext) – (nature.com [abgerufen am 8. Oktober 2022]).

plos.org

dx.plos.org

Kathryn Akong-Moore, Ohn A. Chow, Maren von Köckritz-Blickwede, Victor Nizet: Influences of Chloride and Hypochlorite on Neutrophil Extracellular Trap Formation. In: PLoS ONE. Band 7, Nr. 8, 13. August 2012, ISSN 1932-6203, S. e42984, doi:10.1371/journal.pone.0042984, PMID 22912772, PMC 3418225 (freier Volltext) – (plos.org [abgerufen am 8. Oktober 2022]).

spektrum.de

Bakterienzellwand. In: Lexikon der Biologie. Spektrum, Akademischer Verlag, 1. Januar 1999, abgerufen am 8. Oktober 2022.

zdb-katalog.de

David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).
Artur Muszyński, Kol A. Zarember, Christian Heiss, Joseph Shiloach, Lars J. Berg: Granulibacter bethesdensis, a Pathogen from Patients with Chronic Granulomatous Disease, Produces a Penta-Acylated Hypostimulatory Glycero-D-talo-oct-2-ulosonic Acid–Lipid A Glycolipid (Ko-Lipid A). In: International Journal of Molecular Sciences. Band 22, Nr. 7, 24. März 2021, ISSN 1422-0067, S. 3303, doi:10.3390/ijms22073303, PMID 33804872, PMC 8036547 (freier Volltext) – (mdpi.com [abgerufen am 8. Oktober 2022]).
Corentine Alauzet, Corinne Teyssier, Estelle Jumas-Bilak, Anne Gouby, Raphael Chiron: Gluconobacter as Well as Asaia Species, Newly Emerging Opportunistic Human Pathogens among Acetic Acid Bacteria. In: Journal of Clinical Microbiology. Band 48, Nr. 11, November 2010, ISSN 0095-1137, S. 3935–3942, doi:10.1128/JCM.00767-10, PMID 20826638, PMC 3020812 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Kol A. Zarember, Kimberly R. Marshall-Batty, Anna R. Cruz, Jessica Chu, Michael E. Fenster: Innate Immunity against Granulibacter bethesdensis, an Emerging Gram-Negative Bacterial Pathogen. In: Infection and Immunity. Band 80, Nr. 3, März 2012, ISSN 0019-9567, S. 975–981, doi:10.1128/IAI.05557-11, PMID 22184421, PMC 3294668 (freier Volltext) – (asm.org [abgerufen am 8. Oktober 2022]).
Jessica Chu, Helen H. Song, Kol A. Zarember, Teresa A. Mills, John I. Gallin: Persistence of the Bacterial Pathogen Granulibacter bethesdensis in Chronic Granulomatous Disease Monocytes and Macrophages Lacking a Functional NADPH Oxidase. In: The Journal of Immunology. Band 191, Nr. 6, 15. September 2013, ISSN 0022-1767, S. 3297–3307, doi:10.4049/jimmunol.1300200, PMID 23956436, PMC 3769460 (freier Volltext) – (jimmunol.org [abgerufen am 8. Oktober 2022]).
David E. Greenberg, Stephen F. Porcella, Adrian M. Zelazny, Kimmo Virtaneva, Dan E. Sturdevant, John J. Kupko, Kent D. Barbian, Amenah Babar, David W. Dorward, Steven M. Holland: Genome Sequence Analysis of the Emerging Human Pathogenic Acetic Acid Bacterium Granulibacter bethesdensis. In: Journal of Bacteriology. Band 189, Nr. 23, Dezember 2007, ISSN 0021-9193, S. 8727–8736, doi:10.1128/JB.00793-07, PMID 17827295.
David E. Greenberg, Stephen F. Porcella, Frida Stock, Alexandra Wong, Patricia S. Conville: Granulibacter bethesdensis gen. nov., sp. nov., a distinctive pathogenic acetic acid bacterium in the family Acetobacteraceae. In: International Journal of Systematic and Evolutionary Microbiology. Band 56, Nr. 11, 1. November 2006, ISSN 1466-5026, S. 2609–2616, doi:10.1099/ijs.0.64412-0 (microbiologyresearch.org [abgerufen am 8. Oktober 2022]).
Douglas B. Kuhns, W. Gregory Alvord, Theo Heller, Jordan J. Feld, Kristen M. Pike: Residual NADPH Oxidase and Survival in Chronic Granulomatous Disease. In: New England Journal of Medicine. Band 363, Nr. 27, 30. Dezember 2010, ISSN 0028-4793, S. 2600–2610, doi:10.1056/NEJMoa1007097, PMID 21190454, PMC 3069846 (freier Volltext) – (nejm.org [abgerufen am 8. Oktober 2022]).
Kathryn Akong-Moore, Ohn A. Chow, Maren von Köckritz-Blickwede, Victor Nizet: Influences of Chloride and Hypochlorite on Neutrophil Extracellular Trap Formation. In: PLoS ONE. Band 7, Nr. 8, 13. August 2012, ISSN 1932-6203, S. e42984, doi:10.1371/journal.pone.0042984, PMID 22912772, PMC 3418225 (freier Volltext) – (plos.org [abgerufen am 8. Oktober 2022]).
Quinten Remijsen, Tom Vanden Berghe, Ellen Wirawan, Bob Asselbergh, Eef Parthoens: Neutrophil extracellular trap cell death requires both autophagy and superoxide generation. In: Cell Research. Band 21, Nr. 2, Februar 2011, ISSN 1001-0602, S. 290–304, doi:10.1038/cr.2010.150, PMID 21060338, PMC 3193439 (freier Volltext) – (nature.com [abgerufen am 8. Oktober 2022]).