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Items: 1 to 20 of 157

1.

Deletion of the archaeal histone in Methanosarcina mazei Gö1 results in reduced growth and genomic transcription.

Weidenbach K, Glöer J, Ehlers C, Sandman K, Reeve JN, Schmitz RA.

Mol Microbiol. 2008 Feb;67(3):662-71. Epub 2007 Dec 17.

2.

Insights into the NrpR regulon in Methanosarcina mazei Gö1.

Weidenbach K, Ehlers C, Kock J, Ehrenreich A, Schmitz RA.

Arch Microbiol. 2008 Sep;190(3):319-32. doi: 10.1007/s00203-008-0369-3. Epub 2008 Apr 16.

PMID:
18415079
4.
5.

A novel inducible protein production system and neomycin resistance as selection marker for Methanosarcina mazei.

Mondorf S, Deppenmeier U, Welte C.

Archaea. 2012;2012:973743. doi: 10.1155/2012/973743. Epub 2012 Jul 19. Erratum in: Archaea. 2012;2012:910205.

6.

Integration of foreign DNA in an intergenic region of the archaeon Methanosarcina mazei without effect on transcription of adjacent genes.

Conway de Macario E, Guerrini M, Dugan CB, Macario AJ.

J Mol Biol. 1996 Sep 13;262(1):12-20.

PMID:
8809175
7.

DNA microarray analysis of Methanosarcina mazei Gö1 reveals adaptation to different methanogenic substrates.

Hovey R, Lentes S, Ehrenreich A, Salmon K, Saba K, Gottschalk G, Gunsalus RP, Deppenmeier U.

Mol Genet Genomics. 2005 May;273(3):225-39. Epub 2005 Apr 7.

PMID:
15902489
8.

Characterization of GlnK1 from Methanosarcina mazei strain Gö1: complementation of an Escherichia coli glnK mutant strain by GlnK1.

Ehlers C, Grabbe R, Veit K, Schmitz RA.

J Bacteriol. 2002 Feb;184(4):1028-40. Erratum in: J Bacteriol 2002 Apr;184(8):2331.

9.

Genetic analysis of the role of the ABC transporter Ota and Otb in glycine betaine transport in Methanosarcina mazei Gö1.

Saum R, Mingote A, Santos H, Müller V.

Arch Microbiol. 2009 Apr;191(4):291-301. doi: 10.1007/s00203-008-0449-4. Epub 2008 Dec 19.

PMID:
19096827
10.

Global transcriptional analysis of Methanosarcina mazei strain Gö1 under different nitrogen availabilities.

Veit K, Ehlers C, Ehrenreich A, Salmon K, Hovey R, Gunsalus RP, Deppenmeier U, Schmitz RA.

Mol Genet Genomics. 2006 Jul;276(1):41-55. Epub 2006 Apr 20.

PMID:
16625354
11.

Identification of genes involved in salt adaptation in the archaeon Methanosarcina mazei Gö1 using genome-wide gene expression profiling.

Pflüger K, Ehrenreich A, Salmon K, Gunsalus RP, Deppenmeier U, Gottschalk G, Müller V.

FEMS Microbiol Lett. 2007 Dec;277(1):79-89.

12.

Development of genetic methods and construction of a chromosomal glnK1 mutant in Methanosarcina mazei strain Gö1.

Ehlers C, Weidenbach K, Veit K, Deppenmeier U, Metcalf WW, Schmitz RA.

Mol Genet Genomics. 2005 Jun;273(4):290-8. Epub 2005 Apr 12.

PMID:
15824904
13.

The transcriptional activator NrpA is crucial for inducing nitrogen fixation in Methanosarcina mazei Gö1 under nitrogen-limited conditions.

Weidenbach K, Ehlers C, Schmitz RA.

FEBS J. 2014 Aug;281(15):3507-22. doi: 10.1111/febs.12876. Epub 2014 Jul 4.

14.

Transcriptional profiling of methyltransferase genes during growth of Methanosarcina mazei on trimethylamine.

Krätzer C, Carini P, Hovey R, Deppenmeier U.

J Bacteriol. 2009 Aug;191(16):5108-15. doi: 10.1128/JB.00420-09. Epub 2009 Jun 12.

16.
17.

The F1FO ATP synthase genes in Methanosarcina acetivorans are dispensable for growth and ATP synthesis.

Saum R, Schlegel K, Meyer B, Müller V.

FEMS Microbiol Lett. 2009 Nov;300(2):230-6. doi: 10.1111/j.1574-6968.2009.01785.x. Epub 2009 Sep 7.

18.

Mutational analysis of archaeal histone-DNA interactions.

Soares DJ, Sandman K, Reeve JN.

J Mol Biol. 2000 Mar 17;297(1):39-47.

PMID:
10704305
19.

Archaeal histone stability, DNA binding, and transcription inhibition above 90 degrees C.

Soares D, Dahlke I, Li WT, Sandman K, Hethke C, Thomm M, Reeve JN.

Extremophiles. 1998 May;2(2):75-81.

PMID:
9672681
20.

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