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1.
Protein content and activities of the enzymes glutamine synthetase (EC 6.3.1.2), NADH-glutamate synthase (EC 1.4.1.14), NADH-glutamate dehydrogenase (reductive amination (EC 1.4.1.2) and NAD+ -glutamate dehydrogenase (oxidative deamination) (EC 1.4.1.2) from the plant fraction of root nodules of alfalfa ( Medicago sativa L. cv. Aragon) were determined under water stress. Only NADH-glutamate synthase activity was inhibited during drought. The results indicate that the glutamine synthetase/NADH-glutamate synthase cycle was fully operational in alfalfa nodules of control or even mildly stressed plants when N2 -fixation was not inhibited, but that the coupling between glutamine synthetase and NADH-glutamate synthase was lost as drought progressed. Patterns of glutamine synthetase and NADH-/NAD+ -gluta-mate dehydrogenase activities reflect changes in ammonia content of nodules and/or availability of carbon substrates, and indicate that nodules maintain sufficient enzyme activity for ammonia assimilation throughout water stress. 相似文献
2.
3.
Molecular characterization and expression of alfalfa (Medicago sativa L.) flavanone-3-hydroxylase and dihydroflavonol-4-reductase encoding genes 总被引:2,自引:0,他引:2
Bénédicte Charrier Carmen Coronado Adam Kondorosi Pascal Ratet 《Plant molecular biology》1995,29(4):773-786
Flavonoids are plant phenolic compounds involved in leguminous plant-microbe interactions. Genes implied in the central branch (chalcone synthase (CHS), chalcone isomerase (CHI)) or in the isoflavonoid branch of the flavonoid biosynthesis pathway have been characterized in Medicago sativa. No information is available to date, however, on genes whose products are involved in the synthesis of other types of flavonoids. In this paper we present the genomic organization as well as the nucleotide sequence of one flavanone-3-hydroxylase (F3H) encoding gene of M. sativa, containing two introns and exhibiting 82–89% similarity at the amino acid level to other F3H proteins. This is the first report on the gennomic organization of a f3h gene so far. We present also the sequence of a partial dihydroflavonol-4-reductase (DFR) M. sativa cDNA clone. Southern blot experiments indicated that f3h and dfr genes are each represented by a single gene within the tetraploid genome of M. sativa. By a combination of Northern blot and RT-PCR analysis, we showed that both f3h and dfr genes are expressed in flowers, nodules and roots, with a pattern distinct from chs expression. Finally, we show that dfr is expressed in M. sativa leaves whereas f3h is not. The role played by these two genes in organs other than flowers remains to be determined. 相似文献
4.
Ziegelhoffer Thomas Will Jessica Austin-Phillips Sandra 《Molecular breeding : new strategies in plant improvement》1999,5(4):309-318
The genes encoding thermostable cellulases E2 and E3 of Thermomonospora fusca were expressed in plants under the control of the constitutive, hybrid Mac promoter. For both E2 and E3, the genes were modified so as to remove the sequence encoding the bacterial leader peptide. Western blot analysis indicated that expression levels of recombinant cellulase in tobacco lines ranged up to about 0.1% (E2) and 0.02% of soluble protein (E3). No phenotypic effect of cellulase expression was noted. Recombinant E2 expressed in either tobacco or alfalfa was active and retained heat stability. These findings are an important first step in the development of crop plants as a production system for cellulases. 相似文献
5.
Assimilation of ammonium ions and reutilization of nitrogen in rice (Oryza sativa L.) 总被引:2,自引:0,他引:2
A major source of inorganic nitrogen for rice plants grown in paddy soil is ammonium ions. The ammonium ions are actively taken up by the roots via ammonium transporters and subsequently assimilated into the amide residue of glutamine (Gln) by the reaction of glutamine synthetase (GS) in the roots. The Gln is converted into glutamate (Glu), which is a central amino acid for the synthesis of a number of amino acids, by the reaction of glutamate synthase (GOGAT). Although a small gene family for both GS and GOGAT is present in rice, ammonium-dependent and cell type-specific expression suggest that cytosolic GS1;2 and plastidic NADH-GOGAT1 are responsible for the primary assimilation of ammonium ions in the roots. In the plant top, approximately 80% of the total nitrogen in the panicle is remobilized through the phloem from senescing organs. Since the major form of nitrogen in the phloem sap is Gln, GS in the senescing organs and GOGAT in developing organs are important for nitrogen remobilization and reutilization, respectively. Recent work with a knock-out mutant of rice clearly showed that GS1;1 is responsible for this process. Overexpression studies together with age- and cell type-specific expression strongly suggest that NADH-GOGAT1 is important for the reutilization of transported Gln in developing organs. The overall process of nitrogen utilization within the plant is discussed. 相似文献
6.
Galili S Guenoune D Wininger S Hana B Schupper A Ben-Dor B Kapulnik Y 《Transgenic research》2000,9(2):137-144
Threonine, lysine, methionine, and tryptophan are essential amino acids for humans and monogastric animals. Many of the commonly used diet formulations, particularly for pigs and poultry, contain limiting amounts of these amino acids. One approach for raising the level of essential amino acids is based on altering the regulation of their biosynthetic pathways in transgenic plants. Here we describe the first production of a transgenic forage plant, alfalfa (Medicago sativa L.) with modified regulation of the aspartate-family amino acid biosynthetic pathway. This was achieved by over-expressing the Escherichia coli feedback-insensitive aspartate kinase (AK) in transgenic plants. These plants showed enhanced levels of both free and protein-bound threonine. In many transgenic plants the rise in free threonine was accompanied by a significant reduction both in aspartate and in glutamate. Our data suggest that in alfalfa, AK might not be the only limiting factor for threonine biosynthesis, and that the free threonine pool in this plant limits its incorporation into plant proteins. 相似文献
7.
Relationship between growth,nitrogen fixation and assimilation in a legume (Medicago sativa L.) 总被引:1,自引:0,他引:1
Summary Symbiotic N2 fixation, NO
3
−
assimilation and protein accumulation in the shoots were measured simultaneously in alfalfa (Medicago sativa L.) grown in the field or in pots, in order to study how the balance between the two modes of nitrogen nutrition could be
influenced by agronomic factors, such as harvest, mineral nitrogen supply and drought stress.
During periods of rapid growth, fixation and assimilation may function simultaneously; they are antagonistic at the beginning
and at the end of the growth cycle, when the nitrogen requirement of the plant is lower. When nitrogen nutrition does not
limit growth, mineral nitrogen supply favours assimilation at the expense of fixation, but does not modify the amount of nitrogen
accumulated, which is adjusted to the growth capacity of the plant.
After cutting, nitrate assimilation compensated for the decrease in fixation and supplied the plant with the nitrogen required
by the regrowth, the proliferation of which determined the fixation recovery.
Drought stress decreased N2 fixation much more than NO
3
−
assimilation. The latter made growth recovery possible when water supply conditions became normal again.
These results suggested the existence of an optimum level of nitrate assimilation, which differed depending on the age of
the plants and allowed both maximum growth and fixing activity. 相似文献
8.
Masaoka Y. Kojima M. Sugihara S. Yoshihara T. Koshino M. Ichihara A. 《Plant and Soil》1993,155(1):75-78
Alfalfa (Medicago sativa L.) was grown in hydroponic culture to investigate adaptation to Fe-deficiency. Root exudates released into the nutrient solution from Fe-deficient plants were trapped and condensed on an amberlite XAD-4 resin column. The diethyl ether fraction of these exudates dissolved ferric phosphate remarkably. The dissolving capability was about 62 times higher than that of root exudates obtained from Fe-sufficient plants in complete nutrient solution. The Fe-dissolving compound was separated and identified. It was a new natural compound with molecular formula C14H10O5 and was identified as 2-(3,5-dihydroxyphenyl)-5,6-dihydroxybenzofuran by means of mass spectrometry and 1H-nuclear magnetic resonance. This new compound worked as a phytoalexin and inhibited completely the fungal growth of Fusarium oxysporum f. sp. phaseoli. 相似文献
9.
Studies were conducted with one-year-old plants of the perennial legume, lucerne ( Medicago sativa L.), to determine the effects of various levels of S (0.3, 1.5, and 7.5 m M ) on N2 -fixation, photosynthesis, herbage free amino acid pools and protein amino acids, levels of protein, and activities of key enzymes of leaf nitrogen and carbon metabolism. Sulphur deficiencies in the 0.3 m M S treatment, as determined by N:S ratios, did not appear until the second growth cycle. This treatment was severely S-deficient by the end of the third growth cycle. Sulphur deficiencies did not occur in the other two treatments over three cycles of growth. By the middle of the second growth cycle acetylene reduction rates of plants grown with 0.3 m M S were lower than those of other treatments. At the end of the third growth cycle acetylene reduction rates of the 0.3 m M S treatment were ca . 30–35% that of the other treatments. There was no effect of S-deficiency on photosynthesis, levels of leaf NADP-isocitrate dehydrogenase and glutamine synthetase activity, or concentrations of leaf protein over the course of the experiments. Levels of NAD-glutamate dehydrogenase, NAD-malate dehydrogenase, and glutamate oxaloacetate trans-aminase activity and concentrations of free methionine, arginine, urea, and ammonia increased, with S-deficiency. Boron concentrations were very high (ca. 300 μg/g dry wt.) in S-deficient plants. The mole percent methiomne in leaf protein decreased slightly and chlorophyll concentration decreased markedly with S-deficiency. This study suggests that N2 -fixation is affected early during S-deprivation of lucerne and that subsequent effects of S-deficiency may be due to loss of fixed nitrogen. 相似文献
10.
With the aim of increasing the methionine level in alfalfa (Medicago sativa L.) and thus improving its nutritional quality, we produced transgenic alfalfa plants that expressed the Arabidopsis cystathionine gamma-synthase (AtCGS), the enzyme that controls the synthesis of the first intermediate metabolite in the methionine pathway. The AtCGS cDNA was driven by the Arabidopsis rubisco small subunit promoter to obtain expression in leaves. Thirty transgenic plants were examined for the transgene protein expression, and four lines with a high expression level were selected for further work. In these lines, the contents of methionine, S-methylmethionine (SMM), and methionine incorporated into the water-soluble protein fraction increased up to 32-fold, 19-fold, and 2.2-fold, respectively, compared with that in wild-type plants. Notably, in these four transgenic lines, the levels of free cysteine (the sulphur donor for methionine synthesis), glutathione (the cysteine storage and transport form), and protein-bound cysteine increased up to 2.6-fold, 5.5-fold, and 2.3-fold, respectively, relative to that in wild-type plants. As the transgenic alfalfa plants over-expressing AtCGS had significantly higher levels of both soluble and protein-bound methionine and cysteine, they may represent a model and target system for improving the nutritional quality of forage crops. 相似文献
11.
Maria J. Harrison Arvind D. Choudhary Ian Dubery Christopher J. Lamb Richard A. Dixon 《Plant molecular biology》1991,16(5):877-890
A chimeric gene consisting of a bean (Phaseolus vulgaris L.) chalcone synthase (CHS) promoter fused to a bacterial chloramphenicol acetyltransferase (CAT) reporter gene was strongly expressed, and further induced by fungal elicitor, when electroporated into alfalfa (Medicago sativa L.) suspension cell protoplasts. Functional analysis of 5 deletions of the CHS promoter-CAT construct in these protoplasts indicated that the region between –326 and –130 contained both activator and silencer elements. Co-electroporation experiments confirmed that these cis-acting elements were binding sites for functionally active trans factors. In vitro DNase I footprinting revealed four potential binding sites for alfalfa suspension cell nuclear proteins between positions –326 and –130 of the CHS promoter. These sites mapped to regions shown to contain functional cis-acting elements on the basis of the deletion analysis. Three of these sites mapped to previously identified binding sites for bean nuclear proteins. Competition gel retardation analysis using oligonucleotide probes containing binding site sequences revealed sequence-specific binding of alfalfa nuclear proteins to an AT-rich element and a putative GT-1 factor consensus binding sequence. Our results define cis elements and their cognate trans factors functionally active in determining the quantitative expression of a defense response gene in a heterologous transient expression system.Abbreviations CAT
chloramphenicol acetyltransferase
- CHS
chalcone synthase (EC 2.3.1.74)
- PAL
L-phenylalanine ammonia-lyase (EC 4.3.1.5) 相似文献
12.
Chen F Srinivasa Reddy MS Temple S Jackson L Shadle G Dixon RA 《The Plant journal : for cell and molecular biology》2006,48(1):113-124
Genes encoding seven enzymes of the monolignol pathway were independently downregulated in alfalfa (Medicago sativa) using antisense and/or RNA interference. In each case, total flux into lignin was reduced, with the largest effects arising from the downregulation of earlier enzymes in the pathway. The downregulation of l-phenylalanine ammonia-lyase, 4-coumarate 3-hydroxylase, hydroxycinnamoyl CoA quinate/shikimate hydroxycinnamoyl transferase, ferulate 5-hydroxylase or caffeic acid 3-O-methyltransferase resulted in compositional changes in lignin and wall-bound hydroxycinnamic acids consistent with the current models of the monolignol pathway. However, downregulating caffeoyl CoA 3-O-methyltransferase neither reduced syringyl (S) lignin units nor wall-bound ferulate, inconsistent with a role for this enzyme in 3-O-methylation ofS monolignol precursors and hydroxycinnamic acids. Paradoxically, lignin composition differed in plants downregulated in either cinnamate 4-hydroxylase or phenylalanine ammonia-lyase. No changes in the levels of acylated flavonoids were observed in the various transgenic lines. The current model for monolignol and ferulate biosynthesis appears to be an over-simplification, at least in alfalfa, and additional enzymes may be needed for the 3-O-methylation reactions of S lignin and ferulate biosynthesis. 相似文献
13.
Ferric ethylenediamine di-(o-hydroxyphenylacetate) (FeEDDHA) and ferric hydroxyethylethylenediaminetriacetic acid (FeHEDTA) were evaluated as Fe sources for hydroponic growth of alfalfa (Medicago sativa L., cv. Mesilla), either dependent on N2 fixation or supplied with NO3. The hydroponic medium was maintained at pH 7.5 by addition of CaCO3. Nitrogen-fixing cultures were inoculated with Rhizobium meliloti 102 F51 and grown in medium without added nitrogen. After five to seven weeks of growth under greenhouse conditions, plants were harvested. Nitrogen fixation was measured by the acetylene reduction method.When FeEDDHA was supplied, growth of alfalfa, whether dependent on N2 fixation or supplied with NO3, was severely limited at concentrations typically used in hydroponic medium (10 or 20 M). Maximum yield of NO3-supplied alfalfa was obtained at 100 M while maximum yield of N2-fixing alfalfa was obtained in the range of 33 to 200 M FeEDDHA. Nodule fresh weights and N2 fixation rates increased with FeEDDHA concentration up to 33 M and remained essentially constant up to 200 M. With FeHEDTA, maximum yields of both NO3-grown and N2-fixing alfalfa were obtained at 10 M. Growth of NO3-supplied plants was inhibited at 200 M FeHEDTA while growth of N2-fixing plants was inhibited at 100 M FeHEDTA. The numbers of nodules per plant increased between 3.3 and 10 M FeHEDTA; however, inhibition of nodule formation occurred at a concentration of 33 M or higher. Nodule weights per plant and N2 fixation rates were depressed at 3.3 M as well as at 100 M FeHEDTA. The results suggest that alfalfa dependent on N2 fixation is more sensitive to limited Fe availability than alfalfa supplied with NO3. 相似文献
14.
Direct shoot formation in spontaneously occurring root pseudonodules of alfalfa (Medicago sativa L.)
P. Sarul M. Vlahova A. Ivanova A. Atanassov 《In vitro cellular & developmental biology. Plant》1995,31(1):21-25
Summary A simple and rapid procedure for direct organogenesis from root nodulelike structures of alfalfa (Medicago sativa L.) line SGg, spontaneously induced on growth regulator-free Gamborg (B5) medium, was developed. Prolific adventitious shoot initiation was obtained using a combination of 1.0 mg/liter TIBA and
0.5 mg/liter 2iP. Transfer of shoots to a medium containing 0.5 mg/liter ABA and reduced concentration of TIBA (0.5 mg/liter)
before rooting markedly stimulated shoot development. Regenerated shoots rooted easily and revealed the early appearance of
nodulelike structures on basal medium (B5) lacking growth regulators. Analysis of endogenous growth regulator levels of SGg roots maintained on growth regulators free
media, showed that spontaneous shoot appearances was correlated with high cytokinin-to-auxin ratios. 相似文献
15.
Lorenzo Aleman Jose Luis Ortega Martha Martinez-Grimes Mark Seger Francisco Omar Holguin Diana J. Uribe David Garcia-Ibilcieta Champa Sengupta-Gopalan 《Planta》2010,231(2):233-244
Sucrose phosphate synthase (SPS) catalyzes the first step in the synthesis of sucrose in photosynthetic tissues. We characterized
the expression of three different isoforms of SPS belonging to two different SPS gene families in alfalfa (Medicago sativa L.), a previously identified SPS (MsSPSA) and two novel isoforms belonging to class B (MsSPSB and MsSPSB3). While MsSPSA
showed nodule-enhanced expression, both MsSPSB genes exhibited leaf-enhanced expression. Alfalfa leaf and nodule SPS enzymes
showed differences in chromatographic and electrophoretic migration and differences in V
max and allosteric regulation. The root nodules in legume plants are a strong sink for photosynthates with its need for ATP,
reducing power and carbon skeletons for dinitrogen fixation and ammonia assimilation. The expression of genes encoding SPS
and other key enzymes in sucrose metabolism, sucrose phosphate phosphatase and sucrose synthase, was analyzed in the leaves
and nodules of plants inoculated with Sinorhizobium meliloti. Based on the expression pattern of these genes, the properties of the SPS isoforms and the concentration of starch and soluble
sugars in nodules induced by a wild type and a nitrogen fixation deficient strain, we propose that SPS has an important role
in the control of carbon flux into different metabolic pathways in the symbiotic nodules. 相似文献
16.
Werner Kamberger 《Archives of microbiology》1977,115(1):103-108
Symbiotic nitrogen fixation of Rhizobium meliloti bacteroids in Medicago sativa root nodules was suppressed by several inorganic nitrogen sources. Amino acids like glutamine, glutamic acid and aspartic acid, which can serve as sole nitrogen sources for the unnodulated plant did not influence nitrogenase activity of effective nodules, even at high concentrations.Ammonia and nitrate suppressed symbiotic nitrogen fixation in vivo only at concentrations much higher than those needed for suppression of nitrogenase activity in free living nitrogen fixing bacteria. The kinetics of suppression were slow compared with that of free living nitrogen fixing bacteria. On the other hand, nitrite, which acts as a direct inhibitor of nitrogenase, suppressed very quickly and at low concentrations. Glutamic acid and glutamine enhanced the effect of ammonia dramatically, while the suppression by nitrate was enhanced only slightly. 相似文献
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Feraud M Masclaux-Daubresse C Ferrario-Méry S Pageau K Lelandais M Ziegler C Leboeuf E Jouglet T Viret L Spampinato A Paganelli V Hammouda MB Suzuki A 《Planta》2005,222(4):667-677
GLU1 encodes the major ferredoxin-dependent glutamate synthase (Fd-GOGAT, EC 1.4.7.1) in Arabidopsis thaliana (ecotype Columbia). With the aim of providing clues on the role of Fd-GOGAT, we analyzed the expression of Fd-GOGAT in tobacco
(Nicotiana tabacum L. cv. Xanthi). The 5′ flanking element of GLU1 directed the expression of the uidA reporter gene in the palisade and spongy parenchyma of mesophyll, in the phloem cells of vascular tissue and in the roots
of tobacco. White light, red light or sucrose induced GUS expression in the dark-grown seedlings in a pattern similar to the GLU1 mRNA accumulation in Arabidopsis. The levels of GLU2 mRNA encoding the second Fd-GOGAT and NADH-glutamate synthase (NADH-GOGAT, EC 1.4.1.14) were not affected by light. Both
in the light and in darkness, 15NH4+ was incorporated into [5−15N]glutamine and [2−15N]glutamate by glutamine synthetase (GS, EC 6.3.1.2) and Fd-GOGAT in leaf disks of transgenic tobacco expressing antisense
Fd-GOGAT mRNA and in wild-type tobacco. In the light, low level of Fd-glutamate synthase limited the [2−15N]glutamate synthesis in transgenic leaf disks. The efficient dark labeling of [2−15N]glutamate in the antisense transgenic tobacco leaves indicates that the remaining Fd-GOGAT (15–20% of the wild-type activity)
was not the main limiting factor in the dark ammonium assimilation. The antisense tobacco under high CO2 contained glutamine, glutamate, asparagine and aspartate as the bulk of the nitrogen carriers in leaves (62.5%), roots (69.9%)
and phloem exudates (53.2%). The levels of glutamate, asparagine and aspartate in the transgenic phloem exudates were similar
to the wild-type levels while the glutamine level increased. The proportion of these amino acids remained unchanged in the
roots of the transgenic plants. Expression of GLU1 in mesophyll cells implies that Fd-GOGAT assimilates photorespiratory and primary ammonium. GLU1 expression in vascular cells indicates that Fd-GOGAT provides amino acids for nitrogen translocation.
The nucleotide sequence data of the GLU1 gene reported in the present study is available from GenBank with the following accession number: AY189525 相似文献
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20.
Antisense repression of sucrose synthase in carrot (Daucus carota L.) affects growth rather than sucrose partitioning 总被引:4,自引:0,他引:4
To unravel the roles of sucrose synthase in carrot, we reduced its activity in transgenic carrot plants by an antisense approach. For this purpose, the cDNA for the main form of carrot sucrose synthase was expressed in antisense orientation behind the 35S promoter of cauliflower mosaic virus. In independent antisense plant lines grown in soil, sucrose synthase activity was reduced in tap roots but not in leaves. In the sink organs, sucrose utilization was markedly decreased and higher levels of sucrose but lower levels of UDP-glucose, glucose, fructose, starch and cellulose were found. The phenotype of the antisense plants clearly differed from that of control plants. Both leaves and roots were markedly smaller, and the antisense line with the lowest sucrose synthase activity also developed the smallest plants. In most of the plant lines, the leaf-to-root dry weight ratios were not changed, suggesting that sucrose synthase in carrot is a major determinant of plant growth rather than of sucrose partitioning. In contrast to the acid invertases, which are critical for partitioning of assimilated carbon between source leaves and tap roots (Tang et al., Plant Cell 11: 177–189 (1999)), sucrose synthase appears to be the main sucrose-cleaving activity, feeding sucrose into metabolism. 相似文献