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Items: 1 to 20 of 129

1.

Conversion of methionine to cysteine in Bacillus subtilis and its regulation.

Hullo MF, Auger S, Soutourina O, Barzu O, Yvon M, Danchin A, Martin-Verstraete I.

J Bacteriol. 2007 Jan;189(1):187-97. Epub 2006 Oct 20.

2.

In Helicobacter pylori, LuxS is a key enzyme in cysteine provision through a reverse transsulfuration pathway.

Doherty NC, Shen F, Halliday NM, Barrett DA, Hardie KR, Winzer K, Atherton JC.

J Bacteriol. 2010 Mar;192(5):1184-92. doi: 10.1128/JB.01372-09. Epub 2010 Jan 8.

3.

Global control of cysteine metabolism by CymR in Bacillus subtilis.

Even S, Burguière P, Auger S, Soutourina O, Danchin A, Martin-Verstraete I.

J Bacteriol. 2006 Mar;188(6):2184-97.

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Bacillus subtilis cysteine synthetase is a global regulator of the expression of genes involved in sulfur assimilation.

Albanesi D, Mansilla MC, Schujman GE, de Mendoza D.

J Bacteriol. 2005 Nov;187(22):7631-8.

6.

The PatB protein of Bacillus subtilis is a C-S-lyase.

Auger S, Gomez MP, Danchin A, Martin-Verstraete I.

Biochimie. 2005 Feb;87(2):231-8.

PMID:
15760717
7.

Functional analysis of the Bacillus subtilis cysK and cysJI genes.

van der Ploeg JR, Barone M, Leisinger T.

FEMS Microbiol Lett. 2001 Jul 10;201(1):29-35.

8.

The cmaR gene of Corynebacterium ammoniagenes performs a novel regulatory role in the metabolism of sulfur-containing amino acids.

Lee SM, Hwang BJ, Kim Y, Lee HS.

Microbiology. 2009 Jun;155(Pt 6):1878-89. doi: 10.1099/mic.0.024976-0. Epub 2009 Apr 21.

PMID:
19383689
9.

Regulation of the metC-cysK operon, involved in sulfur metabolism in Lactococcus lactis.

Fernández M, Kleerebezem M, Kuipers OP, Siezen RJ, van Kranenburg R.

J Bacteriol. 2002 Jan;184(1):82-90.

10.

The global regulator Spx functions in the control of organosulfur metabolism in Bacillus subtilis.

Choi SY, Reyes D, Leelakriangsak M, Zuber P.

J Bacteriol. 2006 Aug;188(16):5741-51.

11.

Pathways of assimilative sulfur metabolism in Pseudomonas putida.

Vermeij P, Kertesz MA.

J Bacteriol. 1999 Sep;181(18):5833-7.

12.

The metIC operon involved in methionine biosynthesis in Bacillus subtilis is controlled by transcription antitermination.

Auger S, Yuen WH, Danchin A, Martin-Verstraete I.

Microbiology. 2002 Feb;148(Pt 2):507-18.

PMID:
11832514
13.

Global regulation of the response to sulfur availability in the cheese-related bacterium Brevibacterium aurantiacum.

Forquin MP, Hébert A, Roux A, Aubert J, Proux C, Heilier JF, Landaud S, Junot C, Bonnarme P, Martin-Verstraete I.

Appl Environ Microbiol. 2011 Feb;77(4):1449-59. doi: 10.1128/AEM.01708-10. Epub 2010 Dec 17.

14.

The CymR regulator in complex with the enzyme CysK controls cysteine metabolism in Bacillus subtilis.

Tanous C, Soutourina O, Raynal B, Hullo MF, Mervelet P, Gilles AM, Noirot P, Danchin A, England P, Martin-Verstraete I.

J Biol Chem. 2008 Dec 19;283(51):35551-60. doi: 10.1074/jbc.M805951200. Epub 2008 Oct 29.

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Identification and characterization of a strain-dependent cystathionine beta/gamma-lyase in Lactobacillus casei potentially involved in cysteine biosynthesis.

Irmler S, Schäfer H, Beisert B, Rauhut D, Berthoud H.

FEMS Microbiol Lett. 2009 Jun;295(1):67-76. doi: 10.1111/j.1574-6968.2009.01580.x.

18.

Pathways and regulation of homocysteine metabolism in mammals.

Finkelstein JD.

Semin Thromb Hemost. 2000;26(3):219-25. Review.

PMID:
11011839
19.

Global expression profile of Bacillus subtilis grown in the presence of sulfate or methionine.

Auger S, Danchin A, Martin-Verstraete I.

J Bacteriol. 2002 Sep;184(18):5179-86.

20.

Functional demonstration of reverse transsulfuration in the Mycobacterium tuberculosis complex reveals that methionine is the preferred sulfur source for pathogenic Mycobacteria.

Wheeler PR, Coldham NG, Keating L, Gordon SV, Wooff EE, Parish T, Hewinson RG.

J Biol Chem. 2005 Mar 4;280(9):8069-78. Epub 2004 Dec 2.

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