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1.
Summary Five specific transposon-induced nodulation defective (Nod) mutants from different fast-growing species ofRhizobium were used as the recipients for the transfer of each of several endogenous Sym(biosis) plasmids or for recombinant plasmids that encode early nodulation and host-specificity functions. The Nod mutants were derived fromR. trifolii, R. meliloti and from a broad-host-rangeRhizobium strain which is able to nodulate both cowpea (tropical) legumes and the non-legumeParasponia. These mutants had several common features (a), they were Nod on all their known plant hosts, (b), they could not induce root hair curling (Hac) and (c), the mutations were all located on the endogenous Sym-plasmid of the respective strain. Transfer to these mutants of Sym plasmids (or recombinant plasmids) encoding heterologous information for clover nodulation (pBR1AN, pRt032, pRt038), for pea nodulation (pJB5JI, pRL1JI::Tn1831), for lucerne nodulation (pRmSL26), or for the nodulation of both tropical legumes and non-legumes (pNM4AN), was able to restore root hair curling capacity and in most cases, nodulation capacity of the original plant host(s). This demonstrated a functional conservation of at least some genes involved in root hair curling. Positive hybridization between Nod DNA sequences fromR. trifolii and from a broad-host-rangeRhizobium strain (ANU240) was obtained to other fast-growingRhizobium strains. These results indicate that at least some of the early nodulation functions are common in a broad spectrum ofRhizobium strains.  相似文献   

2.
A cyaA gene, encoding an adenylate cyclase, was isolated from a filamentous cyanobacterium, Spirulina platensis, by functional complementation of a cya mutant of Escherichia coli, defective in adenylate cyclase activity. The predicted gene product of cyaA contains a signal peptide-like domain, a putative sensor domain similar to the gene product of vsrA of Pseudomonas solanacearum, a putative membrane-spanning domain and an adenylate cyclase-like catalytic domain. Two other positive clones that complemented the E. coli mutant were isolated from the same cyanobacterium, suggesting that several cya genes are functioning in S. platensis.  相似文献   

3.
Multiple regulation of the activity of adenylate cyclase in Escherichia coli   总被引:18,自引:0,他引:18  
Summary We have studied the correlation between the activities of adenylate cyclase (ATP pyrophosphatelyase-(cyclizing); EC 4.6.1.1) and in vivo rates of synthesis and intracellular concentrations of adenosine 3,5 cyclic monophosphate (cAMP) under various growth conditions in wild-type Escherichia coli and in mutants lacking or overproducing the cAMP receptor protein (CAP). We showed that when wild-type bacteria are grown in the presence of a variety of carbon sources the intracellular concentrations of cAMP are inversely related to the adenylate cyclase activities determined in permeabilized cells, suggesting that the carbon source-dependent modulation of cAMP levels is not directly related to the regulation of adenylate cyclase activity. In mutants lacking functional CAP (crp) the in vivo rates of cAMP synthesis are several hundred-fold higher than in the wild-type parent without a parallel increase of adenylate cyclase activities. In a strain carrying multiple copies of the crp gene and overproducing CAP the activity of adenylate cyclase is severely inhibited, although the in vivo rate of cAMP synthesis is similar to the parental strain. We interpret these results as indicating that CAP controls mainly the activity rather than the synthesis of adenylate cyclase.  相似文献   

4.
The activity of adenylate cyclase of Escherichia coli measured in toluene-treated cells under standard conditions is subject to control by the phosphoenolpyruvate:sugar phosphotransferase system (PTS). Sugars such as glucose, which are transported by the PTS, will inhibit adenylate cyclase provided the PTS is functional. An analysis was made of the properties of E. coli strains carrying mutations in PTS proteins. Leaky mutants in the PTS protein HPr are similar to wild-type strains with respect to cAMp regulation; adenylate cyclase activity in toluene-treated cells and intracellular cAMP levels are in the normal range. Furthermore, adenylate cyclase in toluene-treated cells of leaky HPr mutants is inhibited by glucose. In contrast, mutations in the PTS protein Enzyme I result in abnormalities in cAMP regulation. Enzyme I mutants generally have low intracellular cAMP levels. Leaky Enzyme I mutants show an unusual phosphoenolpyruvate-dependent activation of adenylate cyclase that is not seen in Enzyme I+ revertants or in Enzyme I deletions. A leaky Enzyme I mutant exhibits changes in the temperature-activity profile for adenylate cyclase, indicating that adenylate cyclase activity is controlled by Enzyme I. Temperature-shift studies suggest a functional complex between adenylate cyclase and a regulator protein at 30 °C that can be reversibly dissociated at 40 °C. These studies further support the model for adenylate cyclase activation that involves phosphoenolpyruvate-dependent phosphorylation of a PTS protein complexed to adenylate cyclase.  相似文献   

5.
E. Jacobsen 《Plant and Soil》1984,82(3):427-438
Summary In pea (Pisum sativum L.), mutants could be induced, modified in the symbiotic interaction withRhizobium leguminosarum. Among 250 M2-families, two nodulation resistant mutants (K5 and K9) were obtained. In mutant K5 the nodulation resistance was monogenic recessive and not Rhizobium strain specific. Out of 220 M2-families one mutant nod3 was found which could form nodules at high nitrate concentrations (15 mM KNO3). This mutant nodulated abundantly with severalRhizobium strains, both in the absence and presence of nitrate. Probably as the result of a pleiotropic effect, its root morphology was also changed. Among 1800 M2-families, five nitrate reductase deficient mutants were obtained and one of them (mutant E1) was used to study the inhibitory effect of nitrate on nodulation and nitrogen fixation.The results of the present investigation show that pea mutants which are modified in their symbiosis withRhizobium leguminosarum, can readily be obtained. The significance of such mutants for fundamental studies of the legume-Rhizobium symbiosis and for applications in plant breeding is discussed.  相似文献   

6.
Summary cyrl-2 is a temperature-sensitive mutation of the yeast adenylate cyclase structural gene, CYR1. The cyrl-2 mutation has been suggested to be a UGA mutation since a UGA suppressor SUP201 has been isolated as a suppressor of the cyrl-2 mutation. Construction of chimeric genes restricted the region containing the cyrl-2 mutation, and the cyrl-2 UGA mutation was identified at codon 1282, which lies upstream of the region coding for the catalytic domain of adenylate cyclase. Alterations in the region upstream of the cyrl-2 mutation site result in null mutations. The complete open reading frame of the cyrl-2 gene expressed under the control of the GAL1 promoter complemented cyrl-dl in a galactose-dependent manner. These results suggest that at the permissive temperature weak readthrough occurs at the cyrl-2 mutation site to produce low levels of active adenylate cyclase. An endogenous suppressor in yeast cells is assumed to be responsible for this readthrough.  相似文献   

7.
When high dosages of wild-type Rhizobium meliloti RCR2011 were inoculated at two different times, 24 h apart, onto either the primary roots of alfalfa (Medicago sativa L.) seedlings or onto lateral roots on opposite sides of a split-root system, the number of nodules generated by the second inoculum was much smaller than the number generated by the first inoculum. These results provide evidence that alfalfa has an active, systemic mechanism for feedback control of nodulation. Non-nodulating mutants and delayed, weakly nodulating mutants did not elicit a discernable suppression of nodulation by subsequently inoculated wild-type cells. An appreciable number of Rhizobium infections thus seem required to elicit the suppressive response. Mutants in nodulation regions IIb and IIa nodulated extensively in the initially susceptible region of the root, but nodule initiation by these mutants was 100–1000 times less efficient, respectively, than the parent. Nodules formed by these mutants emerged 1 d later than normal. The IIb mutants elicited a relatively strong suppression of nodulation in younger parts of the root, but region-IIa mutants elicited only a weak response. These results indicate that elicitation of the regulatory response need not be proportional to nodule formation and imply that genes in region IIa play an important role in elicitation. At high dosages, the region-II mutants induced the development of thick, short roots in a considerably higher percentage of plants than the wild-type bacteria. Nodules generated by wild-type isolates and region-II mutants did not emerge in strict acropetal sequence, probably because some infections developed more slowly than others. Prior exposure of the root to non-nodulating mutants resulted in nodulation by the parent in regions of the root otherwise too mature to be susceptible, indicating that exposure to these mutants may affect the sequence of root development.Abbreviations RT root tip - EH smallest emergent root hair - Tsr thick, short roots This is contribution No. 79-88 of the Ohio Agricultural Research and Development Center  相似文献   

8.
In Escherichia coli, adenylate cyclase activity is regulated by phosphorylated EnzymeIIAGlc, a component of the phosphotransferase system for glucose transport. In strains deficient in EnzymeIIAGlc, CAMP levels are very low. Adenylate cyclase containing the D414N substitution produces a low level of cAMP and it has been proposed that D414 may be involved in the process leading to activation by EnzymeIIAGlc. In this work, spontaneous secondary mutants producing large amounts of cAMP in strains deficient in EnzymeIIAGlc were obtained. The secondary mutations were all deletions located in the cya gene around the D414N mutation, generating adenylate cyclases truncated at the carboxyl end. Among them, a 48 kDa protein (half the size of wild-type adenylate cyclase) was shown to produce ten times more cAMP than wild-type adenylate cyclase in strains deficient in EnzymeIIAGlc. In addition, this protein was not regulated in strains grown on glucose and diauxic growth was abolished. This allowed the definition of a catalytic domain that is not regulated by the phosphotransferase system and produces levels of cAMP similar to that of regulated wild-type adenylate cyclase in wild-type strains grown in the absence of glucose. Further analysis allowed the characterization of the COOH-terminal regulatory domain, which is proposed to be inhibitory to the activity of the catalytic domain.  相似文献   

9.
Four histidine auxotrophs of Bradyrhizobium japonicum strain USDA 122 were isolated by random transposon Tn5 mutagenesis. These mutants arose from different, single transposition events as shown by the comparison of EcoRI and XhoI-generated Tn5 flanking sequences of genomic DNA. The mutants grew on minimal medium supplemented with l-histidine or l-histidinol but failed to grow with l-histidinol phosphate. While two of the muants were symbiotically defective and did not form nodules on Glycine max cvs. Lee and Peking and on Glycine soja, the other two mutants were symbiotically competent. Reversion to prototrophy occurred at a frequency of about 10-7 on growth medium without added antibiotics, but prototrophs could not be isolated from growth medium containing 200 g/ml kanamycin and streptomycin. The prototrophic revertants formed nodules on all the soybean cultivars examined. When histidine was supplied to the plant growth medium, both nodulation deficient mutants formed effective symbioses. On histidine unamended plants, nodules were observed infrequently. Three classes of bacterial colonies were isolated from such infrequent nodules: class 1 were kanamycin resistant-auxotrophs; class 2 were kanamycin sensitive-prototrophs; and class 3 were kanamycin-sensitive auxotrophs. Our results suggest that two Tn5 insertion mutations in B. japonicum leading to histidine auxotrophy, affect nodulation in some way. These mutations are in regions that show no homology to the Rhizobium meliloti common nodulation genes.  相似文献   

10.
Exopolysaccharides (EPS) of nodulating strains of Rhizobium trifolii and Rhizobium leguminosarum added to red clover seedlings before inoculation reduced the number of nodules. The inhibition of the nodulation was correlated with the amount of EPS. The preparations of EPS from mutants defective in early stages of nodulation (Roa- or Hac-) did not affect the nodulation, whereas EPS from mutants deficient in late stages (post Hac-) exerted an inhibitory effect.Inactive preparation of EPS contained less O-acetyl groups and pyruvic acid residues. Deacetylation and depyruvylation of EPS from R. trifolii Nod+ abolished it inhibitory effect. It was concluded that noncarbohydrate substitutions (acetate, pyruvate) are involved in EPS effect.Abbreviations CPS capsular polysaccharide - EPS exopolysaccharide - LPS lipopolysaccharide - Nod nodulation - Fix nitrogen fixation - Hac root hairs curling - Roa root adhesion  相似文献   

11.
Summary After random Tn5 mutagenesis of the stem-nodulating Sesbania rostrata symbiont strain ORS571, Nif-, Fix- and Nod- mutants were isolated. The Nif- mutants had lost both free-living and symbiotic N2 fixation capacity. The Fix- mutants normally fixed N2 in the free-living state but induced ineffective nodules on S. rostrata. They were defective in functions exclusively required for symbiotic N2 fixation. A further analysis of the Nod- mutants allowed the identification of two nod loci. A Tn5 insertion in nod locus 1 completely abolished both root and stem nodulation capacity. Root hair curling, which is an initial event in S. rostrata root nodulation, was no longer observed. A 400 bp region showing weak homology to the nodC gene of Rhizobium meliloti was located 1.5 kb away from this nod Tn5 insertion. A Tn5 insertion in nod locus 2 caused the loss of stem and root nodulation capacity but root hair curling still occurred. The physical maps of a 20.5 kb DNA region of nod locus 1 and of a 40 kb DNA region of nod locus 2 showed no overlaps. The two nod loci are not closely linked to nif locus 1, containing the structural genes for the nitrogenase complex (Elmerich et al. 1982).  相似文献   

12.
Summary Rhizobium nodulation genes can produce active extracellular signals for legume nodulation. The R. meliloti host-range nodH gene has been postulated to mediate the transfer of a sulfate to a modified lipo-oligosaccharide, which in its sulfated form is a specific nodulation factor for alfalfa (Medicago sativa L.). We found that alfalfa was capable of effective nodulation with signal-defective and non-nodulating nodH mutants (Nnr) defining a novel gene-for-gene interaction that conditions nodulation. Bacteria-free nodules that formed spontaneously at about a 3–5% rate in unselected seed populations of alfalfa cv Vernal in the total absence of Rhizobium (Nar) exhibited all the histological, regulatory and ontogenetic characteristics of alfalfa nodules. Inoculation of such populations with nodH mutants, but not with nodA or nodC mutants, produced a four- to five-fold increase in the percentage of nodulated plants. Some 10–25% of these nodulated plants formed normal pink nitrogen-fixing nodules instead of white empty nodules. About 70% of the S1 progeny of such Nnr+ plants retained the parental phenotype; these plants were also able to form nodules in the absence of Rhizobium. If selected Nar+ plants were self-pollinated almost the entire progeny exhibited the parental Nar+ phenotype. Segregation analysis of S1 and S2 progeny from selected Nar+ plants suggests that the Nar character is monogenic dominant and that the nodulation phenotype is controlled by a gene dose effect. The inoculation of different S1 Nar+ progeny with nodH mutant bacteria gave only empty non-fixing nodules. Our results indicate that certain alfalfa genotypes can be selected for suppression of the non-nodulation phenotype of nodH mutants. The fact that the Nnr plant phenotype behaved as a dominant genetic trait and that it directly correlated with the ability of the selected plants to form nodules in the absence of Rhizobium suggests that the interaction of plant and bacterial alleles occurs early during signal transduction through the alteration of a signal reception component of the plant so that it responds to putative signal precursors.Abbreviations Nara Nodulation in the absence of Rhizobium - Nara nodulation with non-nodulating Rhizobium  相似文献   

13.
Adrenaline is a weak aggregating agonist for human platelets acting through G-protein-coupled α2-adrenoceptors to inhibit adenylate cyclase and thus reduce cyclic AMP levels. Studies of equine platelets have shown that adrenaline is unable to promote their aggregation. We now confirm that adrenaline is without effect on equine platelet aggregation and demonstrate that it is also without effect on equine platelet membrane adenylate cyclase activity. We have previously shown that equine platelet membranes contain conventionally regulated adenylate cyclase activity, with both stimulatory ligands (forskolin and PGE1) and inhibitory ligands (collagen and PAF) each showing substantial and dose-dependent effects. We now show, in Western blots, that equine platelet membranes contain G proteins, including Gi2 (which mediates inhibition of adenylate cyclase by adrenaline in human platelets), Gi3, Gs, and Gq. Hence, all the necessary components and responses are in place in equine platelets to provide for a conventional role for cyclic AMP and adenylate cyclase in modulating platelet aggregation. The basis for the failure of adrenaline, unlike other ligands, to deliver such a signal, appears to be a marked lack of α2-adrenoceptors. This is supported by the low receptor density we found in idazoxan binding studies.  相似文献   

14.
Summary Mutagenesis provoked by exposure at elevated temperature of the cold-adapted, arctic Rhizobium strain N31 resulted in the generation of five deletion mutants, which exhibited loss of their smaller plasmid (200 kb), whereas the larger plasmid (> 500 kb) was still present in all mutants. Deletion mutants did not show differences from the wild type in the antibiotic resistance pattern, the carbohydrates and organic acids utilization, and the growth rate at low temperature. However, deletion mutants differed from the wild type and among themselves in the ex planta nitrogenase activity, the nodulation index, and the symbiotic effectiveness. The deletion mutant N31.6rif r showed higher nodulation index and exhibited higher nitrogenase activity and symbiotic efficiency than the other deletion mutants and the wild type. The process of deletion mutation resulted in the improvement of an arctic Rhizobium strain having an earlier and higher symbiotic nitrogen fixation efficiency than the wild type.  相似文献   

15.
Four Medicago truncatula sunn mutants displayed shortened roots and hypernodulation under all conditions examined. The mutants, recovered in three independent genetic screens, all contained lesions in a leucine-rich repeat (LRR) receptor kinase. Although the molecular defects among alleles varied, root length and the extent of nodulation were not significantly different between the mutants. SUNN is expressed in shoots, flowers and roots. Although previously reported grafting experiments showed that the presence of the mutated SUNN gene in roots does not confer an obvious phenotype, expression levels of SUNN mRNA were reduced in sunn-1 roots. SUNN and the previously identified genes HAR1 (Lotus japonicus) and NARK (Glycine max) are orthologs based on gene sequence and synteny between flanking sequences. Comparison of related LRR receptor kinases determined that all nodulation autoregulation genes identified to date are the closest legume relatives of AtCLV1 by sequence, yet sunn, har and nark mutants do not display the fasciated clv phenotype. The M. truncatula region is syntenic with duplicated regions of Arabidopsis chromosomes 2 and 4, none of which harbor CLV1 or any other LRR receptor kinase genes. A novel truncated copy of the SUNN gene lacking a kinase domain, RLP1, is found immediately upstream of SUNN and like SUNN is expressed at a reduced level in sunn-1 roots.  相似文献   

16.
Morandi D  Prado E  Sagan M  Duc G 《Mycorrhiza》2005,15(4):283-289
From a pool of Medicago truncatula mutants—obtained by gamma-irradiation or ethyl methanesulfonate mutagenesis—impaired in symbiosis with the N-fixing bacterium Sinorhizobium meliloti, new mutants are described and genetically analysed, and for already reported mutants, complementary data are given on their phenotypic and genetic analysis. Phenotypic data relate to nodulation and mycorrhizal phenotypes. Among the five new mutants, three were classified as [Nod+ Fix Myc+] and the mutations were ascribed to two loci, Mtsym20 (TRV43, TRV54) and Mtsym21 (TRV49). For the two other new mutants, one was classified as [Nod–/+ Myc+] with a mutation ascribed to gene Mtsym15 (TRV48), and the other as [Nod Myc-/+] with a mutation ascribed to gene Mtsym16 (TRV58). Genetic analysis of three previously described mutants has shown that [Nod–/+ Myc+] TR74 mutant can be ascribed to gene Mtsym14, and that [Nod–/+ Myc–/+] TR89 and TRV9 mutants are ascribed to gene Mtsym2 (dmi2). Using a detailed analysis of mycorrhizal phenotype, we have observed a delayed typical arbuscular mycorrhizal formation on some mutants that present thick lens-shaped appressoria. This phenotype was called [Myc–/+] and mutants TR25, TR26, TR89, TRV9, P1 and Y6 were reclassified as [Myc–/+]. Mutant P1 was reclassified as [Nod–/+] because of a late nodulation observed on roots of this mutant.  相似文献   

17.
Summary n-Alkanols (from methanol to decanol) have a biphasic effect on rat cardiac adenylate cyclase either basal or stimulated by GTP, GppNHp, NaF or hormones (isoproterenol, glucagon, secretin) in the presence of GTP. At high concentration, all the enzyme activities are inhibited. At low concentration, adenylate cyclase activity is either unchanged or potentiated depending on both the stimulus and the alkanols involved. Potentiation is due to an increase of maximum velocity with no change in the activation constant of the enzyme. Basal activity is unchanged as well as the isoproterenol-and glucagon-stimulated enzyme. The secretin-stimulated enzyme is potentiated. It is the guanyl nucleotide regulatory protein-mediated stimulation of adenylate cyclase which is mainly affected. An attempt was made to relate these effects on adenylate cyclase with physical parameters of the alkanols (partition coefficient). From the data obtained as a function of the alkanol chain-length and of temperature on the adenylate cyclase stimulated by GTP, GppNHp, NaF and permanently activated, it is concluded that the increase in efficacy observed in the presence of alkanol is due to an interaction with the protein moeity particularly with the guanyl nucleotide regulatory protein.  相似文献   

18.
Thirty Tn5- or Tn1831-induced nodulation (nod) mutants of Rhizobium leguminosarum were examined for their genetic and symbiotic properties. Thirteen mutants contained a deletion in Sym plasmid pRL1JI. These deletions cover the whole nod region and are 50 kb in size. All remaining seventeen mutations are located in a 6.6 kb EcoRI nod fragment of the Sym plasmid. Mutations in a 3.5 kb part on the right hand side of this 6.6 kb fragment completely prevent nodulation on Vicia sativa. All mutants in this 3.5 kb area are unable to induce marked root hair curling and thick and short roots.Mutations in a 1.5 kb area on the left hand side of the 6.6 kb nod fragment generate other symbiotic defects in that nodules are only rarely formed and only so after a delay of several days. Moreover, infection thread formation is delayed and root hair curling is more excessive than that caused by the parental strain. Their ability to induce thick and short roots is unaltered.Mutations in this 1.5 kb region are not complemented by pRmSL26, which carries nod genes of R. meliloti, whereas mutations in the 3.5 kb region are all complemented by pRmSL26.Abbreviations Rps repression of production of small bacteriocin - Mep medium bacteriocin production - Nod nodulation - Fix fixation - Tsr thick and short roots - Flac root hair curling - Hsp host specificity - Flad root hair deformation - Tc tetracycline - Km kanamycin - Cm chloramphenicol - Sp spectinomycin - Sm streptomycin - R resistant  相似文献   

19.
The nodulation regulon of Rhizobium meliloti AK631 includes several operons (nodABC, hsnABC, hsnD, efn locus) which have in common a consensus promoter sequence called the nod box. A synthetic nod box probe was used to identify two additional nod boxes, n4 and n5, which were subcloned for study. By constructing lac fusions, we show that n4 and n5 sponsor induction of downstream regions as previously shown for n1-nodABC and n2-hsnABC. Using site-directed Tn5 mutagenesis, we find that the n5 locus plays a significant role in nodulation of alfalfa and sweetclover, whereas the n4 locus is important for alfalfa, but not for sweetclover. Hybridization data suggest that the n5 locus is conserved among Rhizobium species. In contrast, the n4 locus seems to be unique to Rhizobium meliloti strains, in agreement with the host-specific phenotype of n4 locus mutants. Thus, the use of a promoter probe allows us to identify nodulation genes which may be overlooked by standard methods such as random Tn5 mutagenesis.  相似文献   

20.
Summary Using cloned Rhizobium phaseoli nodulation (nod) genes as hybridization probes homologous restriction fragments were detected in the genome of the slow-growing soybean symbiont, Bradyrhizobium japonicum strain 110. These fragments were isolated from a cosmid library, and were shown to lie 10 kilobasepairs (kb) upstream from the nifA and fixA genes. Specific nod probes from Rhizobium leguminosarum were used to identify nodA-, nodB-, and nodC-like sequences clustered within a 4.5 kb PstI fragment. A mutant was constructed in which the kanamycin resistance gene from Tn5 was inserted into the nodA homologous B. japonicum region. This insertion was precisely located, by DNA sequencing, to near the middle of the nodA gene. B. japonicum mutants carrying this insertion were completely nodulation deficient (Nod-).  相似文献   

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