Robert F. Fisher scite author profile

The scarcity of usable nitrogen frequently limits plant growth. A tight metabolic association with rhizobial bacteria allows legumes to obtain nitrogen compounds by bacterial reduction of dinitrogen (N2) to ammonium (NH4+). We present here the annotated DNA sequence of the alpha-proteobacterium Sinorhizobium meliloti, the symbiont of alfalfa. The tripartite 6.7-megabase (Mb) genome comprises a 3.65-Mb chromosome, and 1.35-Mb pSymA and 1.68-Mb pSymB megaplasmids. Genome sequence analysis indicates that all three elements contribute, in varying degrees, to symbiosis and reveals how this genome may have emerged during evolution. The genome sequence will be useful in understanding the dynamics of interkingdom associations and of life in soil environments.

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Rhizobium–plant signal exchange

Fisher

Long

1992

Nature

579

323

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Initial stages in the Rhizobium-legume symbiosis can be thought of as a reciprocal molecular conversation: transmission of a gene inducer from legume host to bacterium, with ensuing bacterial synthesis of a morphogen that is transmitted to the plant, switching the developmental fate of the legume root. These signal molecules have a key role in determining bacterium-host specificity and the purified Nod factor compounds provide useful new tools to probe plant cell function.

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A dual-genome Symbiosis Chip for coordinate study of signal exchange and development in a prokaryote–host interaction

Barnett

Toman

Fisher

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

277

281

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The soil-dwelling ␣-proteobacterium Sinorhizobium meliloti engages in a symbiosis with legumes: S. meliloti elicits the formation of plant root nodules where it converts dinitrogen to ammonia for use by the plant in exchange for plant photosynthate. To study the coordinate differentiation of S. meliloti and its legume partner during nodule development, we designed a custom Affymetrix GeneChip with the complete S. meliloti genome and Ϸ10,000 probe sets for the plant host, Medicago truncatula. Expression profiling of free-living S. meliloti grown with the plant signal molecule luteolin in defined minimal and rich media or of strains altered in the expression of key regulatory proteins (NodD1, NodD3, and RpoN) confirms previous data and identifies previously undescribed regulatory targets. Analyses of root nodules show that this Symbiosis Chip allows the study of gene expression in both partners simultaneously. Our studies detail nearly 5,000 transcriptome changes in symbiosis and document complex transcriptional profiles of S. meliloti in different environments.expression ͉ Medicago ͉ microarray ͉ Sinorhizobium meliloti

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Nucleotide sequence and predicted functions of the entire Sinorhizobium meliloti pSymA megaplasmid

Barnett

Fisher

Jones

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

281

227

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The symbiotic nitrogen-fixing soil bacterium Sinorhizobium meliloti contains three replicons: pSymA, pSymB, and the chromosome. We report here the complete 1,354,226-nt sequence of pSymA. In addition to a large fraction of the genes known to be specifically involved in symbiosis, pSymA contains genes likely to be involved in nitrogen and carbon metabolism, transport, stress, and resistance responses, and other functions that give S. meliloti an advantage in its specialized niche.

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Robert F. Fisher

The Composite Genome of the Legume Symbiont Sinorhizobium meliloti

Rhizobium–plant signal exchange

A dual-genome Symbiosis Chip for coordinate study of signal exchange and development in a prokaryote–host interaction

Nucleotide sequence and predicted functions of the entire Sinorhizobium meliloti pSymA megaplasmid

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