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Molecular cloning and characterization of a sym plasmid locus that regulates cultivar-specific nodulation of soybean by Rhizobium fredii USDA257 总被引:4,自引:1,他引:3
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. Transposonmutant 257DH4 has two new phenotypes: it nodulates McCall, and its ability to do so is sensitive to the presence of parental strain U5DA257, 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. nolWand nolX are of the opposite polarity. The initiation codon for nolW lies 155bp upstream from that of nolB, and it is separated from nolXby 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 mudll1734 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 anti 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. 相似文献
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Mode of infection, nodulation specificity, and indigenous plasmids of 11 fast-growing Rhizobium japonicum strains. 总被引:12,自引:2,他引:10 下载免费PDF全文
Eleven fast-growing strains of Rhizobium japonicum were characterized with respect to indigenous plasmids and abilities to infect (Inf+) and nodulate (Nod+) cowpea, siratro, wild soybean, and three commercial cultivars of soybean. All strains caused infection via infection threads in root hairs and consistently nodulated cowpea, siratro, and wild soybean in growth pouches. Interactions with commercial cultivars of soybean were strikingly strain specific. Some combinations were Nod-, and infection was delayed in others. The ratios of infections to nodules and the distribution of nodules on primary and lateral roots also varied substantially. A modified in-gel lysis procedure was devised for electrophoretic separation of plasmids from the strains. Plasmids (ranging in size from 35 to greater than 300 megadaltons) were reproducibly detected in all strains. 相似文献
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Isotherm for Adsorption of Agrobacterium tumefaciens to Susceptible Potato (Solanum tuberosum L.) Tissues 总被引:2,自引:2,他引:0 下载免费PDF全文
Potato tuber disks were submerged in suspensions containing 101 to 109 cells of Agrobacterium tumefaciens B6 per ml. After 60 min, the disks were rinsed and homogenized, and portions of the homogenates were plated to measure the number of adsorbed bacteria. At low initial bacterial concentrations (105/ml), 5 to 23% of the bacteria adsorbed. At higher bacterial concentrations, the corresponding value was approximately 1.2%. Adsorption was a reversible equilibrium process. Binding saturation was not achieved, and adsorbed bacteria were confined to monolayers on the surfaces of tissue prepared for scanning electron microscopy. Adsorption of strain B6 to potato tuber tissues is described accurately by the Freundlich adsorption isotherm and may be a nonspecific phenomenon. 相似文献
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Characterization of RFRS9, a second member of the Rhizobium fredii repetitive sequence family from the nitrogen-fixing symbiont R. fredii USDA257. 下载免费PDF全文
The genome of the nitrogen-fixing symbiont, Rhizobium fredii USDA257, contains nine copies of repetitive sequences known as the R. fredii repetitive sequence (RFRS) family. We previously sequenced RFRS3, which is linked to symbiosis plasmid-borne nodulation genes of this organism and has substantial homology to the T-DNA of Agrobacterium rhizogenes and lesser homology to reiterated sequences of Bradyrhizobium japonicum. Here we characterize a second family member, RFRS9. The EcoRI fragment containing RFRS9 is 1,248 bp in length and contains a single 666-bp open reading frame that is flanked by perfect 8-bp inverted repeats. Nucleic and amino acid sequences corresponding to the C terminus of the putative RFRS9 protein are nearly identical to those of RFRS3, and they retain homology to DNA from A. rhizogenes. The central portion of the RFRS9 protein also appears to be related to the S locus-specific glycoprotein family of pollen stigma incompatibility glycoproteins from Brassica oleracea, which are involved in signal perception. Sequences that define the RFRS family are restricted to the open reading frame of RFRS9 and associated upstream sequences. These regions also contain a second group of repetitive sequences, which is present in four copies within the genome of USDA257. Both families of repetitive sequences are ubiquitous in R. fredii, and they are preferentially localized on symbiosis plasmids. Southern hybridization confirms that sequences homologous to RFRS9 are present in broad-host-range Rhizobium sp. strain NGR234, in A. rhizogenes, and in two biotype 3 strains of Agrobacterium tumefaciens. 相似文献
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Broad-host-range Rhizobium species strain NGR234 secretes a family of carbamoylated, and fucosylated, nodulation signals that are O-acetylated or sulphated 总被引:21,自引:0,他引:21
N. P. J. Price B. RelicA † F. Talmont A. Lewin † D. Promé S. G. Pueppke F. Maillet J. Dénarié J.-C. Promé W. J. Broughton 《Molecular microbiology》1992,6(23):3575-3584
Rhizobium species strain NGR234 is the most promiscuous known rhizobium. In addition to the non-legume Parasponia andersonii, it nodulates at least 70 genera of legumes. Here we show that the nodulation genes of this bacterium determine the production of a large family of Nod-factors which are N-acylated chitin pentamers carrying a variety of substituents. The terminal non-reducing glucosamine is N-acylated with vaccenic or palmitic acids, is N-methylated, and carries varying numbers of carbamoyl groups. The reducing N-acetyl-glucosamine residue is substituted on position 6 with 2-O-methyl-L-fucose which may be acetylated or sulphated or non-substituted. All three internal residues are N-acetylated. At pico- to nanomolar concentrations, these signal molecules exhibit biological activities on the tropical legumes Macroptilium and Vigna (Phaseoleae), as well as on both the temperate genera Medicago (Trifoliae) and Vicia (Viciae). These data strongly suggest that the uniquely broad host range of NGR234 is mediated by the synthesis of a family of varied sulphated and non-sulphated lipo-oligosaccharide signals. 相似文献
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Role of lectins in plant-microorganism interactions: I. Binding of soybean lectin to rhizobia 下载免费PDF全文
Highly purified soybean lectin (SBL) was labeled with fluorescein isothiocyanate (FITC-SBL) or tritium ((3)H-SBL) and repurified by affinity chromatography. FITC-SBL was found to bind to living cells of 15 of the 22 Rhizobium japonicum strains tested. The lectin did not bind to cells of the other seven R. japonicum strains, or to cells of any of the nine Rhizobium strains tested which do not nodulate soybean. The binding of the lectin to the SBL-positive strains of R. japonicum was shown to be specific and reversible by hapten inhibition with d-galactose or N-acetyl-d-galactosamine.The lectin-binding properties of the SBL-positive R. japonicum strains were found to change substantially with culture age. The percentage of cells in a population exhibiting fluorescence after exposure to FITC-SBL varied between 0 and 70%. The average number of SBL molecules bound per cell varied between 0 and 2 x 10(6). While most strains had their highest percentage of SBL-positive cells and maximum number of SBL-binding sites per cell in the early and midlog phases of growth, one strain had a distinctly different pattern. The SBL-negative strains did not bind lectin at any stage of growth.Quantitative binding studies with (3)H-SBL indicated that the affinity constant for binding of SBL to its receptor sites on R. japonicum is approximately 4 x 10(7)m(-1). Many of the binding curves were biphasic. An inhibitor of SBL binding was found to be present in R. japonicum culture filtrates. 相似文献