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Items: 7

1.

In vitro cell growth of marine archaeal-bacterial consortia during anaerobic oxidation of methane with sulfate.

Nauhaus K, Albrecht M, Elvert M, Boetius A, Widdel F.

Environ Microbiol. 2007 Jan;9(1):187-96.

PMID:
17227423
2.

Biosynthesis of hopanoids by sulfate-reducing bacteria (genus Desulfovibrio).

Blumenberg M, Krüger M, Nauhaus K, Talbot HM, Oppermann BI, Seifert R, Pape T, Michaelis W.

Environ Microbiol. 2006 Jul;8(7):1220-7.

PMID:
16817930
3.

In vitro study of lipid biosynthesis in an anaerobically methane-oxidizing microbial mat.

Blumenberg M, Seifert R, Nauhaus K, Pape T, Michaelis W.

Appl Environ Microbiol. 2005 Aug;71(8):4345-51.

4.

Environmental regulation of the anaerobic oxidation of methane: a comparison of ANME-I and ANME-II communities.

Nauhaus K, Treude T, Boetius A, Krüger M.

Environ Microbiol. 2005 Jan;7(1):98-106.

PMID:
15643940
5.

Microbial reefs in the Black Sea fueled by anaerobic oxidation of methane.

Michaelis W, Seifert R, Nauhaus K, Treude T, Thiel V, Blumenberg M, Knittel K, Gieseke A, Peterknecht K, Pape T, Boetius A, Amann R, Jørgensen BB, Widdel F, Peckmann J, Pimenov NV, Gulin MB.

Science. 2002 Aug 9;297(5583):1013-5.

6.

In vitro demonstration of anaerobic oxidation of methane coupled to sulphate reduction in sediment from a marine gas hydrate area.

Nauhaus K, Boetius A, Krüger M, Widdel F.

Environ Microbiol. 2002 May;4(5):296-305.

PMID:
12080959
7.

Multitude and temporal variability of ecological niches as indicated by the diversity of cultivated bacterioplankton.

Jaspers E, Nauhaus K, Cypionka H, Overmann J.

FEMS Microbiol Ecol. 2001 Jul;36(2-3):153-164.

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