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991.
When fenugreek (Trigonella foenum-graecum L.) endosperms plus testa (endosperms), which had been isolated from 5-h-imbibed seeds, were incubated for at least 2 h under germination conditions, they leaked substances which, like exogenous abscisic acid (ABA), inhibited the production of fenugreek endosperm -galactosidase. However, unlike ABA, 8 h treatment with these inhibitors had no effect on fenugreek endosperms which had been isolated from 15-h-imbibed seeds and leached for 2 h. This indicated that either their inhibitory action was on processes which were related to the production of -galactosidase and had been completed by this time, or that there might be factors present which inactivate these inhibitors. It was also concluded that the action of the endosperm leachate could not be attributed to the presence of ABA. The activity of the leachate decreased when it originated from endosperms imbibed for periods longer than 25 h and thin-layer chromatography (TLC) of extracts from these endosperms showed decreased contents of the leachable inhibitors as imbibition proceeded. From the seed leachate, which had a TLC pattern and inhibitory action similar to that of the endosperm, were isolated three substances which, when applied to endosperms, inhibited the production of -galactosidase activity. According to their chromatographic behaviour and their reaction with specific reagents, there are strong indications that these substances are saponins. These diffusible saponin-like substances were located in both endosperm and perisperm and their physiological role is discussed.Abbreviations ABA
abscisic acid
- PEG
polyethylenglycol
- TLC
thin-layer chromatography
We wish to thank the Alexander S. Onasis Public Benefit Foundation for a grant to K.Z. and Dr. J.S.G. Reid (University of Stirling, Scotland) for a kind gift of fenugreek seeds. 相似文献
992.
Polyclonal antiserum raised against the native PG1 isoform of tomato fruit (Lycopersicon esculentum Mill.) polygalacturonase [poly(1,4--d-galacturonide) glycanohydrolase, EC 3.2.1.15] bound to each of the subunits of the protein and also to a range of other fruit proteins. Affinity purification was used to remove antibody molecules that bound to the native form of the PG2 isoform. The resulting serum bound to native PG1, denatured PG2 and -subunits of PG1 but not to native PG2 or other fruit proteins. This anti-PG1 serum was used to monitor the occurrence of the PG1 -subunit and PG2 in detergent extracts of tomato tissues. The -subunit polypeptide was detected in pericarp but not locule tissue of fruit, including fruit of the rin and nor mutants. It increased in amount in the pericarp tissues from an early stage to the mature green stage, clearly prior to any appreciable accumulation of the PG2 subunit. The -subunit polypeptide was not detected in stem or leaf tissues. A PG2-specific antiserum was used to study the interaction of PG2 with the isolated -subunit. The PG2 isoform was bound to the -subunit over a wide range of salt concentrations and pH; the interaction was independent of the presence of reducing agents. It is concluded that strong non-covalent forces are involved in the interaction. The results are consistent with a model in which the -subunit is positioned in the cell wall structure and provides a specific binding site for the active PG2 subunit when this is synthesised during ripening.Abbreviations B
breaker
- MG
mature green
- Mr
relative molecular mass
-
nor
non-ripening mutant
- PAGE
polyacrylamide gel electrophoresis
- PG
polygalacturonase
-
rin
ripening inhibitor mutant
- SDS
sodium dodecyl sulphate 相似文献
993.
We have used a cell-free polysome-based in-vitro mRNA-degradation system to investigate the halflives of plant cell mRNAs. In order to establish the fidelity of the in-vitro system, we used cordycepin to determine the in-vivo half-lives of -tubulin and actin mRNAs in the primary leaves of 4-d-old etiolated oat (Avena sativa L.) seedlings. The in-vitro rank order of half-lives for phytochrome A (45 min), -tubulin (105 min), and actin (220 min) mRNAs mimicked the in-vivo rank order. A pulse of red light given to excised etiolated primary leaves caused an in-vivo reduction in the half-life of -tubulin mRNA. The selectivity of the polysome-based system was further demonstrated by the decrease in the half-life of -tubulin mRNA (from 105 min to 60 min) induced by a pulse of red light given to the etiolated oat seedlings prior to isolation of polysomes. Red light did not affect the apparent half-lives of phytochrome A or actin mRNAs.Abbreviations
cab
gene for chlorophyll-a/b-binding protein
- kb(p)
kilobase (pair)
-
phyA
gene for type-I phytochrome protein
-
rbcS
gene for ribulose-1,5-bisphosphate-carboxylase small-subunit
We thank Dr. Richard B. Meagher for the pSAc3 actin clone. We thank Dr. Cecil Stewart for the use of his density-gradient fractionator, and Dr. Virginia Crane for instruction in using the fractionator. We also appreciate the helpful comments provided by the other members of the laboratory during the course of this research: Dr. Isaac John, Dr. Iffat Rahim, Linda Barnes, Bruce Held, David Higgs, and Theresa Tirimanne. This work was supported by USDA grants CRGO 88-37261-4196 and 91-37304-6397, and the Iowa State University Biotechnology Program. 相似文献
994.
The effect of nitrogen starvation on the NO3-dependent induction of nitrate reductase (NR) and nitrite reductases (NIR) has been investigated in the halophilic alga Dunaliella salina. When D. salina cells previously grown in a medium with NH 4 + as the only nitrogen source (NH 4 + -cells) were transferred into NO 3 ? medium, NR was induced in the light. In contrast, when cells previously grown in N-free medium were transferred into a medium containing NO 3 ? , NR was induced in light or in darkness. Nitrate-dependent NR induction, in darkness, in D. salina cells previously grown at a photon flux density of 500 umol · m?2 s?1 was observed after 4 h preculture in N-free medium, whilst in cells grown at 100 umol · m?2 s?1 NR induction was observed after 7–8 h. An inhibitor of mRNA synthesis (6-methylpurine) did not inhibit NO 3 ? -induced NR synthesis when the cells, previously grown in NH 4 + medium, were transferred into NO 3 ? medium (at time 0 h) after 4-h-N starvation. However, when 6-methylpurine was added simultaneously with the transfer of the cells from NH 4 + to NO 3 ? medium (at time 0 h), NO 3 ? induced NR synthesis was completely inhibited. The activity of NIR decreased in N-starved cells and the addition of NO 3 ? to those cells greatly stimulated NIR activity in the light. The ability to induce NR in darkness was observed when glutamine synthetase activity reached its maximal level during N starvation. Although cells grown in NO 3 ? medium exhibited high NR activity, only 0.33% of the total NR was found in intact chloroplasts. We suggest that the ability, to induce NR in darkness is dependent on the level of N starvation, and that NR in D. salina is located in the cytosol. Light seems to play an indirect regulatory role on NO 3 ? uptake and NR induction due to the expression of NR and NO 3 ? -transporter mRNAs. 相似文献
995.
The present study describes the biochemical characteristics of an acid -fructosidase (EC 3.2.1.26) purified from the fruit of sweet pepper (Capsicum annuum L.). The soluble form, which constitutes more than 95% of the total activity at pH 4.5, hydrolyzes sucrose, raffinose, and stachyose. Its pH and temperature optima are 4.5 and 55 °C, respectively. Metal cations such as Ag+ and Hg2+ strongly inhibit its activity, suggesting the presence of at least one sulfhydryl group at the catalytic site. After purification of the enzyme by means of ammonium sulfate fractionation, gel chromatography (diethyl-aminoethyl-Sephacel, hydroxylapatite, concanavalin A-Sepharose), and preparative gel electrophoresis, the purified enzyme was shown to be a 42 kDa glycoprotein interacting specifically with concanavalin A. After complete chemical deglycosylation with trifluoromethanesulfonic acid, the molecular weight of the constitutive polypeptide was estimated to be 39 kDa. The enzyme glycans were characterized using both affino- and immunodetection. The enzyme has at least two N-linked oligosaccharide sidechains, one of the high-mannose type, and the other of the complex type. The high-mannose glycan has a low molecular weight (1 kDa), and is responsible for the interaction between the enzyme and concanavalin A. The complex-type glycan has an estimated molecular weight of 2 kDa. It contains one 1 2-linked xylose residue, probably one fucose residue 1 3-linked to the chitobiose unit, and no terminal galactose residue. The two glycans, associated to the 39 kDa polypeptide, constitute the acid -fructosidase of the sweet-pepper fruit.Abbreviations F
-fructosidase
- ConA
concanavalin A
- DEAE
diethylaminoethyl
- DTNB
dithionitrobenzoic acid
- endo F
endo--N-acetylglucosamidase F
- endo H
endo--N-acetylglucosamidase H
- NEM
N-ethylmaleimide
- PCMB
parachloromercurobenzoate
- PNGase
glycopeptide-N-glycosidase
- TFMS
trifluoromethane sulfonic acid
This work was partly supported by a grant from the Commission Permanente de Coopération Franco-Québécoise to L. Faye, and S. Yelle. D. Michaud was a recipient of a graduate scholarship from the Natural Science and Engineering Research Council of Canada. 相似文献
996.
Kiwifruit β-galactosidase: Isolation and activity against specific fruit cell-wall polysaccharides 总被引:1,自引:0,他引:1
A -galactosidase (EC 3.2.1.23) capable of degrading a number of fruit cell-wall polysaccharides in vitro, was isolated from ripening kiwifruit (Actinidia deliciosa [A. Chev.] C.F. Liang et A.R. Ferguson cv. Hayward). The enzyme has a molecular weight of approximately 60 kDa by gel permeation and consists of several basic isoforms. Several polypeptides were enriched during purification, with 33-, 46- and 67-kDa bands being predominant after sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The optimum activity of the enzyme against p-nitrophenyl--d-galactopyranoside was at pH 3.2, but against a galactan purified from kiwifruit cell walls, it was at pH 4.9. The enzyme was specific for galactosyl residues in the -configuration, releasing galactose from a variety of kiwifruit cell-wall polysaccharide fractions including cell wall material, Na2CO3-soluble pectin, high-molecular-weight galactan, xyloglucan, and galactoglucomannan. A galactosylated glucuronomannan found throughout the kiwifruit plant was also a substrate for the enzyme. The results indicate that the enzyme attacks the non-reducing end of galactose side chains, cleaving single galactose residues which may be attached to the 2, 3, 4, or 6 position of the aglycone. Activity of the enzyme in-vitro was too low to account for the total loss of galactose from the cell walls during ripening. If the -galactosidase of this study is solely responsible for the removal of galactose from the cell wall during ripening then its in-vivo activity must be much greater than that observed in-vitro.Abbreviations CWM
cell wall material
- SDS-PAGE
sodium dodecyl sulphate-polyacrylamide gel electrophoresis
We thank Bronwyn Culling and Teresa Wegrzyn for assistance and acknowledge a contribution towards the cost of the research from the New Zealand Kiwifruit Marketing Board. 相似文献
997.
998.
Using pulses of nitrate, instead of the permanent presence of external nitrate, to induce the nitrate-assimilating system in Hordeum vulgare L., we demonstrated that nitrate can be considered as a trigger or signal for the induction of nitrate uptake, the appearance of nitratereductase activity and the synthesis of mRNA coding for nitrate reductase. Nitrate pulses stimulated the initial rate of nitrate uptake, even after subsequent cultivation in N-free medium, and resulted in a higher acceleration of the uptake rate in the presence of nitrate than in its absence.Abbreviations NR
nitrate reductase 相似文献
999.
The purpose of this work was to test whether induction of massive -carotene synthesis in the alga Dunaliella bardawil is triggered by oxygen radicals. The following results were obtained: (i) The induction of -carotene synthesis is preceded by a lag period of about 4 h during which the cells swell and photosynthesis is partially inhibited, (ii) Addition of promoters of oxygen radicals or of azide (an inhibitor of catalase and superoxide dismutase) during the induction period, under conditions which are suboptimal for massive -carotene accumulation, greatly enhances -carotene synthesis, photodegradation of chlorophyll and inhibition of photosynthesis, (iii) High irradiance, which induces massive -carotene accumulation, also induces a high catalase activity. It is suggested that photosynthetically produced oxygen radicals are involved in triggering massive -carotene accumulation in D. bardawil. 相似文献
1000.
Ross M. Welch Wendell A. Norvell Stephen C. Schaefer Jon E. Shaff Leon V. Kochian 《Planta》1993,190(4):555-561
We investigated the effects of Fe and Cu status of pea (Pisum sativum L.) seedlings on the regulation of the putative root plasma-membrane Fe(III)-chelate reductase that is involved in Fe(III)-chelate reduction and Fe2+ absorption in dicotyledons and nongraminaceous monocotyledons. Additionally, we investigated the ability of this reductase system to reduce Cu(II)-chelates as well as Fe(III)-chelates. Pea seedlings were grown in full nutrient solutions under control, -Fe, and -Cu conditions for up to 18 d. Iron(III) and Cu(II) reductase activity was visualized by placing roots in an agarose gel containing either Fe(III)-EDTA and the Fe(II) chelate, Na2bathophenanthrolinedisulfonic acid (BPDS), for Fe(III) reduction, or CuSO4, Na3citrate, and Na2-2,9-dimethyl-4,7-diphenyl-1, 10-phenanthrolinedisulfonic acid (BCDS) for Cu(II) reduction. Rates of root Fe(III) and Cu(II) reduction were determined via spectrophotometric assay of the Fe(II)-BPDS or the Cu(I)-BCDS chromophore. Reductase activity was induced or stimulated by either Fe deficiency or Cu depletion of the seedlings. Roots from both Fe-deficient and Cu-depleted plants were able to reduce exogenous Cu(II)-chelate as well as Fe(III)-chelate. When this reductase was induced by Fe deficiency, the accumulation of a number of mineral cations (i.e., Cu, Mn, Fe, Mg, and K) in leaves of pea seedlings was significantly increased. We suggest that, in addition to playing a critical role in Fe absorption, this plasma-membrane reductase system also plays a more general role in the regulation of cation absorption by root cells, possibly via the reduction of critical sulfhydryl groups in transport proteins involved in divalent-cation transport (divalent-cation channels?) across the root-cell plasmalemma. 相似文献