Molecular cloning and characterization of a sym plasmid locus that regulates cultivar-specific nodulation of soybean by Rhizobium fredii USDA257

Rhizobium fredii strain USDA257 produces nitrogen-fixing nodules on primitive soybean cultivars such as Peking but fails to nodulate agronomically improved cultivars such as McCall. Transposon-mutant 257DH4 has two new phenotypes: it nodulates McCall, and its ability to do so is sensitive to the pre...

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Published in	Molecular microbiology Vol. 9; no. 1; p. 17
Main Authors	Meinhardt, L W, Krishnan, H B, Balatti, P A, Pueppke, S G
Format	Journal Article
Language	English
Published	England 01.07.1993
Subjects	Amino Acid Sequence Base Sequence Cosmids - genetics DNA, Bacterial - genetics Flavonoids - pharmacology Gene Expression Regulation, Bacterial - drug effects Genes, Bacterial Glycine max - classification Glycine max - microbiology Molecular Sequence Data Mutagenesis, Insertional Open Reading Frames Phenotype Recombinant Fusion Proteins - biosynthesis Rhizobium - genetics Rhizobium - physiology Sequence Homology, Amino Acid Species Specificity Symbiosis - genetics
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Abstract	Rhizobium fredii strain USDA257 produces nitrogen-fixing nodules on primitive soybean cultivars such as Peking but fails to nodulate agronomically improved cultivars such as McCall. Transposon-mutant 257DH4 has two new phenotypes: it nodulates McCall, and its ability to do so is sensitive to the presence of parental strain USDA257, i.e. it is subject to competitive nodulation blocking. We have isolated a cosmid containing DNA that corresponds to the site of transposon insertion in 257DH4 and have localized Tn5 on an 8.0 kb EcoRI fragment. The 5596 bp DNA sequence that surrounds the insertion site contains seven open reading frames. Five of these, designated nolBTU, ORF4, and nolV, are closely spaced and of the same polarity. nolW and nolX are of the opposite polarity. The initiation codon for nolW lies 155 bp upstream from that of nolB, and its is separated from nolX by 281 bp. The predicted NolT and NolW proteins have putative membrane-spanning regions. The N-terminus of the hypothetical NolW protein also has limited homology to NodH of Rhizobium meliloti, but none of the deduced protein sequences has significant homology to known nodulation gene products. Site-directed mutagenesis with mudII1734 confirms that inactivation of nolB, nolT, nolU, nolV, nolW, or nolX extends host range for nodulation to McCall soybean. This phenotype could not be genetically dissected from sensitivity to competitive nodulation blocking. Expression of nolBTU and nolX is induced as much as 30-fold by flavonoid signal molecules, even though these genes lack nod-box promoters. Histochemical staining of McCall roots inoculated with nolB-, nolU-, or nolX-lacZ fusions verifies that these genes are expressed continuously from preinfection to the stage of the functional nodule. Although a nolU-ORF4-nolV clone hybridizes to a single 8.0 kb EcoRI fragment from 10 strains of R. fredii and broad-host-range Rhizobium sp. NGR234, hybridizing sequences are not detectable in other rhizobia.
AbstractList	Rhizobium fredii strain USDA257 produces nitrogen-fixing nodules on primitive soybean cultivars such as Peking but fails to nodulate agronomically improved cultivars such as McCall. Transposon-mutant 257DH4 has two new phenotypes: it nodulates McCall, and its ability to do so is sensitive to the presence of parental strain USDA257, i.e. it is subject to competitive nodulation blocking. We have isolated a cosmid containing DNA that corresponds to the site of transposon insertion in 257DH4 and have localized Tn5 on an 8.0 kb EcoRI fragment. The 5596 bp DNA sequence that surrounds the insertion site contains seven open reading frames. Five of these, designated nolBTU, ORF4, and nolV, are closely spaced and of the same polarity. nolW and nolX are of the opposite polarity. The initiation codon for nolW lies 155 bp upstream from that of nolB, and its is separated from nolX by 281 bp. The predicted NolT and NolW proteins have putative membrane-spanning regions. The N-terminus of the hypothetical NolW protein also has limited homology to NodH of Rhizobium meliloti, but none of the deduced protein sequences has significant homology to known nodulation gene products. Site-directed mutagenesis with mudII1734 confirms that inactivation of nolB, nolT, nolU, nolV, nolW, or nolX extends host range for nodulation to McCall soybean. This phenotype could not be genetically dissected from sensitivity to competitive nodulation blocking. Expression of nolBTU and nolX is induced as much as 30-fold by flavonoid signal molecules, even though these genes lack nod-box promoters. Histochemical staining of McCall roots inoculated with nolB-, nolU-, or nolX-lacZ fusions verifies that these genes are expressed continuously from preinfection to the stage of the functional nodule. Although a nolU-ORF4-nolV clone hybridizes to a single 8.0 kb EcoRI fragment from 10 strains of R. fredii and broad-host-range Rhizobium sp. NGR234, hybridizing sequences are not detectable in other rhizobia.
Author	Balatti, P A Pueppke, S G Meinhardt, L W Krishnan, H B
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SubjectTerms	Amino Acid Sequence Base Sequence Cosmids - genetics DNA, Bacterial - genetics Flavonoids - pharmacology Gene Expression Regulation, Bacterial - drug effects Genes, Bacterial Glycine max - classification Glycine max - microbiology Molecular Sequence Data Mutagenesis, Insertional Open Reading Frames Phenotype Recombinant Fusion Proteins - biosynthesis Rhizobium - genetics Rhizobium - physiology Sequence Homology, Amino Acid Species Specificity Symbiosis - genetics
Title	Molecular cloning and characterization of a sym plasmid locus that regulates cultivar-specific nodulation of soybean by Rhizobium fredii USDA257
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