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Flavonoid activation of nodulation genes in Rhizobium reversed by other compounds present in plants
Bacteria of the genus Rhizobium specifically recognize and infect legume plants, resulting in a complex morphological and bio-chemical differentiation into nitrogen-fixing root nodules. In R. leguminosarum , whose host plant is the pea, and several other Rhizobium species, groups of linked plasmid-b...
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Published in: | Nature (London) 1986-11, Vol.324 (6092), p.90-92 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Bacteria of the genus
Rhizobium
specifically recognize and infect legume plants, resulting in a complex morphological and bio-chemical differentiation into nitrogen-fixing root nodules. In
R. leguminosarum
, whose host plant is the pea, and several other
Rhizobium
species, groups of linked plasmid-borne genes are involved in nitrogen fixation (
nif
genes) and nodulation (
nod
genes)
1,2
. The
nod
genes are organized in several transcription units on the symbiotic plasmid pRL1JI of
R. leguminosarum
; these comprise
nodABCIJ
,
nodD
and
nodFE
3–6
with
nodD
being a positively acting regulatory gene whose product activates transcription of the other two operons which contain genes essential for the nodulation process
5,7
. Although the precise biochemical functions of most of the pRL1JI
nod
genes are unknown, it has recently been discovered that their expression requires not only the product of the regulatory
nodD
gene, but also a factor (or factors) present in pea root exudate
5,7
, and similar results have been reported for
Rhizobium meliloti
8
and
Rhizobium trifolii
9
. The finding of plant-produced products that ‘signal’ the
Rhizobium
offers the possibility of identifying one of the key biochemical reactions required for the infection process. Here we describe the characteristics of several plant-specified compounds that activate the transcription of the pRL1JI
nodABCIJ
and
nodFE
genes and present a novel phenomenon, namely that other, naturally occurring compounds can antagonize this induction. |
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ISSN: | 0028-0836 1476-4687 |
DOI: | 10.1038/324090a0 |