BioMed Central | Articles which cite: Transcriptome analysis of Sinorhizobium meliloti during symbiosis.

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Transcriptome analysis of Sinorhizobium meliloti during symbiosis.
Ampe F, Kiss E, Sabourdy F, Batut J
Genome Biol 2003, 4:R15
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PubMed Central articles that cite the above article:

1.	The Sinorhizobium meliloti fur gene regulates, with dependence on Mn(II), transcription of the sitABCD operon, encoding a metal-type transporter. Chao TC, Becker A, Buhrmester J, Pühler A, Weidner S J Bacteriol 2004 Jun, 186:3609-20 [PubMed Central] [PubMed] [Related articles]
2.	Biochemistry and molecular biology of antioxidants in the rhizobia-legume symbiosis. Matamoros MA, Dalton DA, Ramos J, Clemente MR, Rubio MC, Becana M Plant Physiol 2003 Oct, 133:499-509 [PubMed Central] [PubMed] [Related articles]
3.	A dual-genome Symbiosis Chip for coordinate study of signal exchange and development in a prokaryote-host interaction. Barnett MJ, Toman CJ, Fisher RF, Long SR Proc Natl Acad Sci U S A 2004 Nov 23, 101:16636-41 [PubMed Central] [PubMed] [Related articles]
4.	Glutathione plays a fundamental role in growth and symbiotic capacity of Sinorhizobium meliloti. Harrison J, Jamet A, Muglia CI, Van de Sype G, Aguilar OM, Puppo A, Frendo P J Bacteriol 2005 Jan, 187:168-74 [PubMed Central] [PubMed] [Related articles]
5.	The katA catalase gene is regulated by OxyR in both free-living and symbiotic Sinorhizobium meliloti. Jamet A, Kiss E, Batut J, Puppo A, Hérouart D J Bacteriol 2005 Jan, 187:376-81 [PubMed Central] [PubMed] [Related articles]
6.	The sulfate transporter SST1 is crucial for symbiotic nitrogen fixation in Lotus japonicus root nodules. Krusell L, Krause K, Ott T, Desbrosses G, Krämer U, Sato S, Nakamura Y, Tabata S, James EK, Sandal N, Stougaard J, Kawaguchi M, Miyamoto A, Suganuma N, Udvardi MK Plant Cell 2005 May, 17:1625-36 [PubMed Central] [PubMed] [Related articles]
7.	Transcriptome profiling of bacterial responses to root exudates identifies genes involved in microbe-plant interactions. Mark GL, Dow JM, Kiely PD, Higgins H, Haynes J, Baysse C, Abbas A, Foley T, Franks A, Morrissey J, O'Gara F Proc Natl Acad Sci U S A 2005 Nov 29, 102:17454-9 [PubMed Central] [PubMed] [Related articles]
8.	FixJ: a major regulator of the oxygen limitation response and late symbiotic functions of Sinorhizobium meliloti. Bobik C, Meilhoc E, Batut J J Bacteriol 2006 Jul, 188:4890-902 [PubMed Central] [PubMed] [Related articles]
9.	An integrated approach to functional genomics: construction of a novel reporter gene fusion library for Sinorhizobium meliloti. Cowie A, Cheng J, Sibley CD, Fong Y, Zaheer R, Patten CL, Morton RM, Golding GB, Finan TM Appl Environ Microbiol 2006 Nov, 72:7156-67 [PubMed Central] [PubMed] [Related articles]
10.	Only one of five groEL genes is required for viability and successful symbiosis in Sinorhizobium meliloti. Bittner AN, Foltz A, Oke V J Bacteriol 2007 Mar, 189:1884-9 [PubMed Central] [PubMed] [Related articles]
11.	Genomes of the symbiotic nitrogen-fixing bacteria of legumes. MacLean AM, Finan TM, Sadowsky MJ Plant Physiol 2007 Jun, 144:615-22 [PubMed Central] [PubMed] [Related articles]
12.	Rhizobial factors required for stem nodule maturation and maintenance in Sesbania rostrata-Azorhizobium caulinodans ORS571 symbiosis. Suzuki S, Aono T, Lee KB, Suzuki T, Liu CT, Miwa H, Wakao S, Iki T, Oyaizu H Appl Environ Microbiol 2007 Oct, 73:6650-9 [PubMed Central] [PubMed] [Related articles]

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