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Items: 1 to 50 of 76

1.

Structural basis and mechanism for metallochaperone-assisted assembly of the CuA center in cytochrome oxidase.

Canonica F, Klose D, Ledermann R, Sauer MM, Abicht HK, Quade N, Gossert AD, Chesnov S, Fischer HM, Jeschke G, Hennecke H, Glockshuber R.

Sci Adv. 2019 Jul 31;5(7):eaaw8478. doi: 10.1126/sciadv.aaw8478. eCollection 2019 Jul.

2.

An Integrated Systems Approach Unveils New Aspects of Microoxia-Mediated Regulation in Bradyrhizobium diazoefficiens.

Fernández N, Cabrera JJ, Varadarajan AR, Lutz S, Ledermann R, Roschitzki B, Eberl L, Bedmar EJ, Fischer HM, Pessi G, Ahrens CH, Mesa S.

Front Microbiol. 2019 May 7;10:924. doi: 10.3389/fmicb.2019.00924. eCollection 2019.

3.

A Functional General Stress Response of Bradyrhizobium diazoefficiens Is Required for Early Stages of Host Plant Infection.

Ledermann R, Bartsch I, Müller B, Wülser J, Fischer HM.

Mol Plant Microbe Interact. 2018 May;31(5):537-547. doi: 10.1094/MPMI-11-17-0284-R. Epub 2018 Mar 15.

PMID:
29278144
4.

Requirements for Efficient Thiosulfate Oxidation in Bradyrhizobium diazoefficiens.

Masuda S, Hennecke H, Fischer HM.

Genes (Basel). 2017 Dec 15;8(12). pii: E390. doi: 10.3390/genes8120390.

5.

Metabolomic Profiling of Bradyrhizobium diazoefficiens-Induced Root Nodules Reveals Both Host Plant-Specific and Developmental Signatures.

Lardi M, Murset V, Fischer HM, Mesa S, Ahrens CH, Zamboni N, Pessi G.

Int J Mol Sci. 2016 May 27;17(6). pii: E815. doi: 10.3390/ijms17060815.

6.

Genome-wide transcription start site mapping of Bradyrhizobium japonicum grown free-living or in symbiosis - a rich resource to identify new transcripts, proteins and to study gene regulation.

Čuklina J, Hahn J, Imakaev M, Omasits U, Förstner KU, Ljubimov N, Goebel M, Pessi G, Fischer HM, Ahrens CH, Gelfand MS, Evguenieva-Hackenberg E.

BMC Genomics. 2016 Apr 23;17:302. doi: 10.1186/s12864-016-2602-9.

7.

Versatile Vectors for Efficient Mutagenesis of Bradyrhizobium diazoefficiens and Other Alphaproteobacteria.

Ledermann R, Strebel S, Kampik C, Fischer HM.

Appl Environ Microbiol. 2016 Apr 18;82(9):2791-2799. doi: 10.1128/AEM.04085-15. Print 2016 May.

8.

Stable Fluorescent and Enzymatic Tagging of Bradyrhizobium diazoefficiens to Analyze Host-Plant Infection and Colonization.

Ledermann R, Bartsch I, Remus-Emsermann MN, Vorholt JA, Fischer HM.

Mol Plant Microbe Interact. 2015 Sep;28(9):959-67. doi: 10.1094/MPMI-03-15-0054-TA. Epub 2015 Aug 20.

9.

Erratum to: Does egg deposition by herbivorous pine sawflies affect transcription of sesquiterpene synthases in pine?

Köpke D, Schröder R, Fischer HM, Gershenzon J, Hilker M, Schmidt A.

Planta. 2015 Jun;241(6):1561. doi: 10.1007/s00425-015-2302-8. No abstract available.

10.

The general stress response in Alphaproteobacteria.

Francez-Charlot A, Kaczmarczyk A, Fischer HM, Vorholt JA.

Trends Microbiol. 2015 Mar;23(3):164-71. doi: 10.1016/j.tim.2014.12.006. Epub 2015 Jan 10. Review.

PMID:
25582885
11.

The global response regulator RegR controls expression of denitrification genes in Bradyrhizobium japonicum.

Torres MJ, Argandoña M, Vargas C, Bedmar EJ, Fischer HM, Mesa S, Delgado MJ.

PLoS One. 2014 Jun 20;9(6):e99011. doi: 10.1371/journal.pone.0099011. eCollection 2014.

12.

Thioredoxin-like protein TlpA from Bradyrhizobium japonicum is a reductant for the copper metallochaperone ScoI.

Mohorko E, Abicht HK, Bühler D, Glockshuber R, Hennecke H, Fischer HM.

FEBS Lett. 2012 Nov 30;586(23):4094-9. doi: 10.1016/j.febslet.2012.10.026. Epub 2012 Nov 1.

13.

Copper starvation-inducible protein for cytochrome oxidase biogenesis in Bradyrhizobium japonicum.

Serventi F, Youard ZA, Murset V, Huwiler S, Bühler D, Richter M, Luchsinger R, Fischer HM, Brogioli R, Niederer M, Hennecke H.

J Biol Chem. 2012 Nov 9;287(46):38812-23. doi: 10.1074/jbc.M112.406173. Epub 2012 Sep 25.

14.

Reactive oxygen species-inducible ECF σ factors of Bradyrhizobium japonicum.

Masloboeva N, Reutimann L, Stiefel P, Follador R, Leimer N, Hennecke H, Mesa S, Fischer HM.

PLoS One. 2012;7(8):e43421. doi: 10.1371/journal.pone.0043421. Epub 2012 Aug 16.

15.

Lack of glyphosate resistance gene transfer from Roundup Ready soybean to Bradyrhizobium japonicum under field and laboratory conditions.

Isaza LA, Opelt K, Wagner T, Mattes E, Bieber E, Hatley EO, Roth G, Sanjuán J, Fischer HM, Sandermann H, Hartmann A, Ernst D.

Z Naturforsch C J Biosci. 2011 Nov-Dec;66(11-12):595-604.

PMID:
22351985
16.

Genome-wide transcription analysis of Escherichia coli in response to extremely low-frequency magnetic fields.

Huwiler SG, Beyer C, Fröhlich J, Hennecke H, Egli T, Schürmann D, Rehrauer H, Fischer HM.

Bioelectromagnetics. 2012 Sep;33(6):488-96. doi: 10.1002/bem.21709. Epub 2012 Feb 13.

PMID:
22331529
17.

Small RNAs of the Bradyrhizobium/Rhodopseudomonas lineage and their analysis.

Madhugiri R, Pessi G, Voss B, Hahn J, Sharma CM, Reinhardt R, Vogel J, Hess WR, Fischer HM, Evguenieva-Hackenberg E.

RNA Biol. 2012 Jan;9(1):47-58. doi: 10.4161/rna.9.1.18008. Epub 2012 Jan 1.

PMID:
22258152
18.

[Outpatient rehabilitation after myocardial infarction or for heart failure].

Fischer HM, Charrier A, Dörr R, Spitzer SG.

Herz. 2012 Feb;37(1):30-7. doi: 10.1007/s00059-011-3557-x. German.

PMID:
22231550
19.

Host-specific symbiotic requirement of BdeAB, a RegR-controlled RND-type efflux system in Bradyrhizobium japonicum.

Lindemann A, Koch M, Pessi G, Müller AJ, Balsiger S, Hennecke H, Fischer HM.

FEMS Microbiol Lett. 2010 Nov;312(2):184-91. doi: 10.1111/j.1574-6968.2010.02115.x. Epub 2010 Sep 30.

20.

Disparate pathways for the biogenesis of cytochrome oxidases in Bradyrhizobium japonicum.

Bühler D, Rossmann R, Landolt S, Balsiger S, Fischer HM, Hennecke H.

J Biol Chem. 2010 May 21;285(21):15704-13. doi: 10.1074/jbc.M109.085217. Epub 2010 Mar 24.

21.

An integrated proteomics and transcriptomics reference data set provides new insights into the Bradyrhizobium japonicum bacteroid metabolism in soybean root nodules.

Delmotte N, Ahrens CH, Knief C, Qeli E, Koch M, Fischer HM, Vorholt JA, Hennecke H, Pessi G.

Proteomics. 2010 Apr;10(7):1391-400. doi: 10.1002/pmic.200900710.

PMID:
20104621
22.

Posttranslational control of transcription factor FixK2, a key regulator for the Bradyrhizobium japonicum-soybean symbiosis.

Mesa S, Reutimann L, Fischer HM, Hennecke H.

Proc Natl Acad Sci U S A. 2009 Dec 22;106(51):21860-5. doi: 10.1073/pnas.0908097106. Epub 2009 Dec 2.

23.

The PhyR-sigma(EcfG) signalling cascade is involved in stress response and symbiotic efficiency in Bradyrhizobium japonicum.

Gourion B, Sulser S, Frunzke J, Francez-Charlot A, Stiefel P, Pessi G, Vorholt JA, Fischer HM.

Mol Microbiol. 2009 Jul;73(2):291-305. doi: 10.1111/j.1365-2958.2009.06769.x. Epub 2009 Jun 23.

24.

Comprehensive assessment of the regulons controlled by the FixLJ-FixK2-FixK1 cascade in Bradyrhizobium japonicum.

Mesa S, Hauser F, Friberg M, Malaguti E, Fischer HM, Hennecke H.

J Bacteriol. 2008 Oct;190(20):6568-79. doi: 10.1128/JB.00748-08. Epub 2008 Aug 8.

25.

Does egg deposition by herbivorous pine sawflies affect transcription of sesquiterpene synthases in pine?

Köpke D, Schröder R, Fischer HM, Gershenzon J, Hilker M, Schmidt A.

Planta. 2008 Aug;228(3):427-38. doi: 10.1007/s00425-008-0747-8. Epub 2008 May 21. Erratum in: Planta. 2015 Jun;241(6):1561.

26.

Evolutionary origins of a novel host plant detoxification gene in butterflies.

Fischer HM, Wheat CW, Heckel DG, Vogel H.

Mol Biol Evol. 2008 May;25(5):809-20. doi: 10.1093/molbev/msn014. Epub 2008 Feb 23.

PMID:
18296701
27.

Genome-wide transcript analysis of Bradyrhizobium japonicum bacteroids in soybean root nodules.

Pessi G, Ahrens CH, Rehrauer H, Lindemann A, Hauser F, Fischer HM, Hennecke H.

Mol Plant Microbe Interact. 2007 Nov;20(11):1353-63.

28.

New target genes controlled by the Bradyrhizobium japonicum two-component regulatory system RegSR.

Lindemann A, Moser A, Pessi G, Hauser F, Friberg M, Hennecke H, Fischer HM.

J Bacteriol. 2007 Dec;189(24):8928-43. Epub 2007 Oct 19.

29.

Dissection of the Bradyrhizobium japonicum NifA+sigma54 regulon, and identification of a ferredoxin gene (fdxN) for symbiotic nitrogen fixation.

Hauser F, Pessi G, Friberg M, Weber C, Rusca N, Lindemann A, Fischer HM, Hennecke H.

Mol Genet Genomics. 2007 Sep;278(3):255-71. Epub 2007 Jun 15.

PMID:
17569992
30.

Beyond the Fur paradigm: iron-controlled gene expression in rhizobia.

Rudolph G, Hennecke H, Fischer HM.

FEMS Microbiol Rev. 2006 Jul;30(4):631-48. Review.

31.

Bradyrhizobium japonicum senses iron through the status of haem to regulate iron homeostasis and metabolism.

Yang J, Sangwan I, Lindemann A, Hauser F, Hennecke H, Fischer HM, O'Brian MR.

Mol Microbiol. 2006 Apr;60(2):427-37.

32.

A multitude of CRP/FNR-like transcription proteins in Bradyrhizobium japonicum.

Mesa S, Hennecke H, Fischer HM.

Biochem Soc Trans. 2006 Feb;34(Pt 1):156-9. Review.

PMID:
16417509
33.

The Iron control element, acting in positive and negative control of iron-regulated Bradyrhizobium japonicum genes, is a target for the Irr protein.

Rudolph G, Semini G, Hauser F, Lindemann A, Friberg M, Hennecke H, Fischer HM.

J Bacteriol. 2006 Jan;188(2):733-44. Erratum in: J Bacteriol. 2006 Mar;188(6):2294.

34.

Design and validation of a partial-genome microarray for transcriptional profiling of the Bradyrhizobium japonicum symbiotic gene region.

Hauser F, Lindemann A, Vuilleumier S, Patrignani A, Schlapbach R, Fischer HM, Hennecke H.

Mol Genet Genomics. 2006 Jan;275(1):55-67. Epub 2005 Nov 17.

PMID:
16328374
35.

Transcription activation in vitro by the Bradyrhizobium japonicum regulatory protein FixK2.

Mesa S, Ucurum Z, Hennecke H, Fischer HM.

J Bacteriol. 2005 May;187(10):3329-38.

37.
38.
39.

Bradyrhizobium japonicum NnrR, a denitrification regulator, expands the FixLJ-FixK2 regulatory cascade.

Mesa S, Bedmar EJ, Chanfon A, Hennecke H, Fischer HM.

J Bacteriol. 2003 Jul;185(13):3978-82.

40.

Discovery of a haem uptake system in the soil bacterium Bradyrhizobium japonicum.

Nienaber A, Hennecke H, Fischer HM.

Mol Microbiol. 2001 Aug;41(4):787-800.

41.

Phosphatidylcholine levels in Bradyrhizobium japonicum membranes are critical for an efficient symbiosis with the soybean host plant.

Minder AC, de Rudder KE, Narberhaus F, Fischer HM, Hennecke H, Geiger O.

Mol Microbiol. 2001 Mar;39(5):1186-98.

42.

One of two hemN genes in Bradyrhizobium japonicum is functional during anaerobic growth and in symbiosis.

Fischer HM, Velasco L, Delgado MJ, Bedmar EJ, Schären S, Zingg D, Göttfert M, Hennecke H.

J Bacteriol. 2001 Feb;183(4):1300-11.

43.

An imperfect inverted repeat is critical for DNA binding of the response regulator RegR of Bradyrhizobium japonicum.

Emmerich R, Strehler P, Hennecke H, Fischer HM.

Nucleic Acids Res. 2000 Nov 1;28(21):4166-71.

44.

Three new NifA-regulated genes in the Bradyrhizobium japonicum symbiotic gene region discovered by competitive DNA-RNA hybridization.

Nienaber A, Huber A, Göttfert M, Hennecke H, Fischer HM.

J Bacteriol. 2000 Mar;182(6):1472-80.

45.
46.

Role of HrcA and CIRCE in the heat shock regulatory network of Bradyrhizobium japonicum.

Minder AC, Fischer HM, Hennecke H, Narberhaus F.

J Bacteriol. 2000 Jan;182(1):14-22.

47.

Classifying symbiotic proteins from Bradyrhizobium japonicum into functional groups by proteome analysis of altered gene expression levels.

Dainese-Hatt P, Fischer HM, Hennecke H, James P.

Electrophoresis. 1999 Dec;20(18):3514-20.

PMID:
10612277
48.

Phosphorylation, dephosphorylation and DNA-binding of the Bradyrhizobium japonicum RegSR two-component regulatory proteins.

Emmerich R, Panglungtshang K, Strehler P, Hennecke H, Fischer HM.

Eur J Biochem. 1999 Jul;263(2):455-63.

49.

Bradyrhizobium japonicum FixK2, a crucial distributor in the FixLJ-dependent regulatory cascade for control of genes inducible by low oxygen levels.

Nellen-Anthamatten D, Rossi P, Preisig O, Kullik I, Babst M, Fischer HM, Hennecke H.

J Bacteriol. 1998 Oct;180(19):5251-5.

50.

Expression of the fixR-nifA operon in Bradyrhizobium japonicum depends on a new response regulator, RegR.

Bauer E, Kaspar T, Fischer HM, Hennecke H.

J Bacteriol. 1998 Aug;180(15):3853-63.

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