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981.
Comparison of phosphorus mobilization during monocarpic senescence in rice cultivars with sequential and non-sequential leaf senescence 总被引:1,自引:0,他引:1
The senescence pattern of the three uppermost leaves of four rice (Oryza sativa L.) cultivars viz. Ratna, Jaya, Masuri and Kalojira was analysed in terms of decline of chlorophyll and by measuring [32P]-phosphate retention and export from leaf to grains during the reproductive development. With the advancement of reproductive development, the cultivars Masuri and Kalojira showed a sequential mode of senescence, but the cultivars Ratna and Jaya showed a non-sequential mode of leaf senescence where the flag leaf senesced earlier than the older second leaf. Foliar spraying with benzyladenine (0.5 mM) significantly delayed, and abscisic acid (0.1 mM) accelerated, leaf senescence. In untreated control plants, the second leaf had the highest export of labelled phosphate among the leaves at the grain formation stage (0–7 days) in Masuri and Kalojira. This was compensated by the flag leaf at the grain development stage (7–14 days), whereas export of [32P]-phosphate was highest from the flag leaf of Ratna and Jaya at the grain development stage. Compared with the control, benzyladenine treatment caused higher retention of [32P]-phosphate in the leaves and also export to the grains, but abscisic acid treatment gave lower retention and export of [32P]-phosphate to the grains. The amount of [32P]-phosphate export from a mother to a daughter shoot developed in the axil of the second leaf of plants with the panicle removed, was less than that to panicles remaining on control plants of all cultivars. When the panicle had been excised, the greatest export of [32P]-phosphate took place from the second leaf to the daughter shoot in all cultivars. Excision of the panicle delayed leaf senescence as compared with intact controls and maintained an age-related leaf senescence pattern in all the four cultivars. The results presented here demonstrate that mobilization of phosphorus from leaf to grains, regardless of cultivar or age and position of the leaf, correlates well with the senescence of that leaf. 相似文献
982.
Lynda J. Burditt Anthony Ratcliffe Patricia R. Fryer Tim E. Hardingham 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1985,844(2):247-255
Pig laryngeal chondrocytes incubated in the presence of monensin showed inhibition of [35S]sulphate incorporation and decreased secretion of proteoglycan into the culture medium, but no large decrease in protein synthesis. This lead to the intracellular accumulation of proteoglycan protein core, which was detected in immunoprecipitates of cell extracts. Using the same antiserum protein core was localised by electron microscopy with protein A-coated gold. In control chondrocytes, it was detected only in elements of the Golgi and in secretory vesicles, but following monensin treatment labelling was more intense in the Golgi and extended into the distended cisternae of the rough endoplasmic reticulum. The results suggest that monensin blocks proteoglycan protein core translocation between different elements of the Golgi and that this occurs prior to the major site of chondroitin sulphate synthesis on proteoglycan. 相似文献
983.
Manfred Keller Rolf Jackisch Andras Seregi Georg Hertting 《Neurochemistry international》1985,7(4):655-665
Prostaglandin (PG) and thromboxane (TX) biosynthesis in primary neuronal and astroglial cell cultures was studied. Cultures obtained from fetal (15–16 days old) and neonatal rat brain hemispheres were characterized by chemical and immunocytochemical staining techniques as predominantly neurons or mature and immature astrocytes, respectively. Six-day old neuronal cell cultures grown in the presence of cytosine arabinoside (2 μM) from the day 3 onwards were contaminated up to 10% with glioblasts. In astroglial cultures up to 3% of the cells were postively stained with a marker for oligodendroglial cells. Fibroblast contamination was below 1% in both cultures. Prostanoid formation (measured by specific radioimmunoassays) in 6-day old neuronal cell cultures was low (sum of the amount of PGs and TX formed: 1.16 ± 0.17 (ng/mg protein/15 min) as compared to 14-day old cultured astroglial cells: 21.27 ± 2.53 (ng/mg protein/15 min). Also the pattern of prostanoids formed was different in neuronal (PGD2 ? PGF2α > TXB2 ? PGE2) and astroglial cells (PGD2 > TXB2 ? PGF2α ? PGE2 ? 6-ketoPGF1α). Preincubation with arachidonic acid (1 μg/ml) did not affect prostanoid formation in both cultures, whereas it was stimulated 4–6-fold by addition of the calcium ionophore A23187 (1 μM). These results, although found on cultured neuronal and glial cells of different stages of development, support the view that astroglial cells might play a crucial role in brain prostanoid synthesis. 相似文献
984.
985.
986.
The anion permeability of membrane vesicles prepared from the electric organ of was inhibited by the addition of 4,4′-diisothiocyano-stilbene-2,2′-disulfonic acid (DIDS). The permeability was measured by measuring changes in the scattered-light intensity caused by the osmotic volume change of vesicles; and also by the efflux measurement of ions from the vesicles using radioisotopes. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of membrane vesicles treated with dihydro analog of DIDS ([3H]H2DIDS) showed that the H2DIDS binding protein has a molecular weight of 180,000, and exists in membrane vesicles as a dimer formed by a disulfide bond between monomers of molecular weight 90,000. 相似文献
987.
Seasonal changes in glutamine synthetase (EC 6.3.1.2), glutamate synthase (EC 2.6.1.53), and glutamate dehydrogenase (EC 1.4.1.3) were measured in both senescing leaf and bark tissues of ‘Golden Delicious’ apple trees (Malus domestica Borkh.). From the measured enzyme activities we attempted to estimate the in vivo catalytic potentials of the enzymes with special reference to nitrogen mobilization and conservation of senescing apple trees. The cumulative glutamine synthetase activity of leaf tissue was about three times higher than that of bark. The estimated catalytic potential of leaf glutamine synthetase was 800-fold higher than the actual protein nitrogen loss of senescing leaves. The cumulative glutamate synthase activity of bark was about six times higher than that of leaf. The estimated catalytic potential of bark glutamate synthase was 160-times higher than the actual protein nitrogen gain in that tissue. The cumulative glutamate dehydrogenase activities in leaf and bark tissue were approximately the same. However, the catalytic potential of leaf glutamate dehydrogenase was twice that of leaf glutamate synthase. It is thus concluded that the physiological role of glutamine synthetase in senescing leaf tissue is to furnish the amide(s) prior to mobilization of nitrogen to storage tissue. The higher activity of glutamate synthase in bark tissue could provide a mechanism to transform the imported amide nitrogen to amino nitrogen of glutamate for storage protein synthesis. The possible regulatory factors upon the activity of these enzymes in the tissues of senescing apple trees are discussed. 相似文献
988.
989.
Cell wall material (CWM) isolated from beeswing wheat bran contains 66% carbohydrate, 12% Klason lignin, 6% protein and 4% ash. The relative proportions of sugars in the CWM are arabinose 34%, xylose 26%, galactose 2%, glucose 32% and uronic acid 6%. The uronic acid was shown to consist of glucuronic acid and its 4-O-Me analogue in the ratio 1.8:1. Partial acid hydrolysis of the CWM yielded neutral sugars and a uronic acid fraction. The latter was shown to contain Glc p A-(1→2)-Xyl p and Glc p A-(1→2)-O-Xyl p-(1→4)-Xyl p and their 4-O-Me substituted uronic acid analogues. Methylation analysis of the whole CWM and partially degraded methylated CWM revealed the nature of the constituent glycosidic linkages. From the combined evidence we infer that the major structural features of the non-cellulosic polysaccharides are a linear chain of xylopyranose units joined by (1→4)-linkages, and arabinofuranose, xylose, galactose (and uronic acid) end groups, which in at least some of the polysaccharides, are attached directly by (1→2)- and/or (1→3)-linkages to the xylan chain. The CWM has been fractionated by successive extractions with water at 80°, 0.2 M (NH4)2C2O4 at 80°, Na chlorite/HOAc at 70°, 0.2 M (NH4)2C2O4 at 80°, 1 M and 4 M KOH, and the neutral sugar composition of the fractions determined. It is concluded from these and other experiments that the CWM contains two main types of polysaccharides, the arabinoxylans and cellulosic polymers, and that phenolic ester linkages play a role in holding them together. 相似文献
990.
A question that is central to understanding the mechanisms of aging and cellular deterioration is whether enzymes involved in recognition and metabolism of spontaneously damaged proteins are themselves damaged, either becoming substrates for their own activity; or being unable to act upon themselves, initiating cascades of cellular damage. We show here byin vitro experiments that protein (d-aspartyl/l-isoaspartyl) carboxyl methyltransferase (PCM) from bovine erythrocytes does methylate age-dependent amino acid damage in its own sequence. The subpopulation that is methylated, termed thePCM fraction, appears to be formed through age-dependent deamidation of an asparaginyl site to either anl-isoaspartyl ord-aspartyl site because (a) the stoichiometry of automethylation of purified PCM is less than 1%, a value typical of the substoichiometric methylation of many other aged protein substrates, (b)PCM is slightly more acidic than the bulk of PCM, and (c) the methyl esterified site inPCM has the characteristic base-lability of this type of methyl ester. Also, the methyl group is not incorporated into the enzyme as an active site intermediate because the incorporated methyl group is not chased onto substrate protein. The effect of enzyme dilution on the rate of the automethylation reaction is consistent with methylation occurring between protein molecules, showing that the pool of PCM is autocatalytic even though individual molecules may not be. The automethylation and possible self-repair of the PCM pool has implications for maintaining thein vivo efficiency of methylation-dependent protein repair. 相似文献