Analyses of isoamylase gene activity in wild-type barley indicate its involvement in starch synthesis

The notion of debranching enzyme activity as a participant in starch synthesis is gaining acceptance. Inconsistent reports from mutant analyses implicate either isoamylase or pullulanase as a determinant in amylopectin formation and whether wild-type plants utilize one or the other, or both, of these debranching enzymes in starch synthesis is unclear. Recent results on the su1 mutant in maize suggest that both forms of debranching enzymes might be involved in amylopectin formation. We wished to find out if isoamylase takes part in starch synthesis by comparing isoamylase gene activity under three conditions: (1) during starch accumulation in developing sink tissues; (2) during starch degradation in germinating seeds; (3) in ectopic expression after applying sucrose, a starch precursor. We isolated the gene for barley isoamylase, iso1, and analysed its expression and regulation in germinating seeds, developing endosperm and vegetative tissues, and compared the isoamylase gene expression in sink tissues from three different species. Our results indicate that isoamylase gene activity is involved in starch synthesis in wild-type plants and is modulated by sucrose.     

Properties of cotton inorganic pyrophosphatase

The activity of inorganic pyrophosphatase and pyrophosphate content were studied in developing and germinating cotton seeds. It was shown that the content of pyrophosphate in germinating seeds reached its maximum value after two days of their development, and the activity of inorganic pyrophosphatase, one day after the beginning of seed bud formation. The low pyrophosphatase activity of dormant seeds increased during their germination under open-ground conditions, reaching its maximum on day 6-7. Properties of partly purified pyrophosphatase from three-day-old cotton seedlings grown under laboratory conditions were studied.     

The Effect of Growth Regulators and Cu2+ on the Activation of Amylopectin-l,6-glucosidase Activity in Pea Seedlings

No evidence could be obtained for hormonal control of amylopectin-l,6-glucosidase activity in germinating peas for the first 72 hours of germination. The embryonic axis did not stimulate the appearance of enzyme activity. The autolytic system which releases amylopectin-l,6-glucosidase activity from the particulate fraction, in which it originates, was studied in greater detail. Using Cu²⁺ ions to inhibit a proteolytic enzyme in vivo, it was shown that enzyme activation can occur in the zymogen-like granules without liberation of the enzyme into the soluble cell fraction. Activity so formed is labile. Some of the data on proteolytic enzymes in peas is discussed and an attempt made to interpret the liberation of amylopectin-l,6-glucosidase in peas on the basis of the involvement of at least two distinct proteolytic enzymes.     

Properties of cotton inorganic pyrophosphatase

The activity of inorganic pyrophosphatase and pyrophosphate content were studied in developing and germinating cotton seeds. It was shown that the content of pyrophosphate in germinating seeds reached its maximum value after two days of their development, and the activity of inorganic pyrophosphatase, one day after the beginning of seed bud formation. The low pyrophosphatase activity of dormant seeds increased during their germination under open-ground conditions, reaching its maximum on day 6–7. Properties of partly purified pyrophosphatase from three-day-old cotton seedlings grown under laboratory conditions were studied.     

Acid Phosphatases in Germinating Lettuce — Evidence for Partial Activation

At least nine acid phosphatases and a distinct phytase are present in different cell fractions of germinating lettuce. The enzymes could be partially characterised using acrylamide gel electrophoresis. Phosphatase formation is only partially inhibited by cycloheximide. A new soluble ATPase arises between 24 and 48 hours of germination. Its formation is not inhibited by cycloheximide. Phosphatase activity in the particulate fraction of the cell can be liberated and activated by detergent or trypsin treatment. It is suggested that the newly formed soluble ATPase arises by release and activation of a particulate phosphatase.     

Evidence for the Activation of NADH-cytochrome c Reductase during Germination of Lettuce

A very rapid increase in particulate cytochrome c reductase activity during the very early stages of germination of lettuce is demonstrated. The increase in activity does not parallel water uptake or the increase in cytochrome oxidase activity. The increase is reversible on drying of imbibed seeds and is not inhibited by cyanide. It is concluded that the increase in activity is due to some kind of activation process and not to de novo synthesis of protein. Possible mechanisms of activation were investigated. It was not possible to simulate the activation process in vitro, in the isolated particulate fraction.     

Soluble and particulate lysophospholipase in the aleurone and endosperm of germinating barley

Lysophospholipase was measured in extracts of germinating barley by determining the amount of free [¹⁴C]palmitate released from [1-¹⁴C] 1-palmitoyl-lysophosphatidylcholine (LPC). Soluble and particulate lysophospholipase activity was measured at 1-day intervals in extracts from the aleurone and endosperm of barley seeds germinated for 8 days. The soluble and particulate activities of the aleurone increase approximately in parallel with one another and after 8 days of germination have 20–30 times more activity than at day 1. The activity profiles and the distribution of the activity between the soluble and particulate forms of lysophospholipase in the endosperm are markedly different. With the exception of the first 2 days when the aleurone activity is low, the endosperm activity is less than that associated with the aleurone. The soluble activity increases during the first 3 days and is more active than that of the aleurone. Thereafter it diminishes and remains low. The particulate enzyme, however, increases dramatically between days 4 and 5 and remains moderately high. The fourth and fifth day represent that stage of germination when starch-bound LPC is released in concert with the increase in amylase activity. It is proposed that it is this particulate form of the endosperm activity which may be responsible for maintaining the level of free LPC low in the endosperm of the germinating seed.     

The effect of light on endogenous cytokinin levels in seeds of Rumex obtusifolius

Summary Exposure of Rumex obtusifolius seed to red light resulted in a rapid increase in extractable cytokinins. This increase can be reversed if the red light treatment is immediately followed by far-red irradiation. In germinating seed hardly any cytokinin activity could be detected in the butanol and aqueous extracts. An increase in the amount of activity present in the petroleum ether extracts of these seeds was, however, observed.The present findings suggest that cytokinin activity in light-sensitive seeds could be under the control of phytochrome.     

Sull'Attivazione Funzionale dei Semi Germinanti

Abstract

On the functional activation of germinanting seeds. Note V. Alcohol dehydrogenase activity. — The activity of alcohol dehydrogenase is determined by spettrophotometric method on acetone precipitates of dry and germinating seeds of leguminous and graminaceous plants.

The activity of alcohol dehydrogenase is present, even with remarkable different values, in all seeds and in their various parts, singularly examined.

During germination in aerobic conditions, after a first, not strong, increase, the alcohol dehydrogenase activity sensibly decreases.     

Regulation of the activity of Phosphoenolpyruvate carboxylase isolated from germinating maize (Zea mays L.) seeds by some metabolites

Phosphoenolpyruvate carboxylase (PEPC) was isolated from maize seeds which were germinated for 20 h, using a procedure which included extraction of seed homogenate with Tris-HCl or sodium phosphate buffer, precipitation of the extract with ammonium sulphate, chromatography on DEAE cellulose, and gel filtration on Sephadex G-200. Phosphate buffer was found to be less suitable than Tris-HCl buffer both for maize seed extraction and for further PEPC purification steps. The enzyme preparation obtained was electrophretically homogenous. PEPC activity was inhibited by both phosphate and malate. It values obtained at pH 8.1 which is the pH optimum of the reaction equelled to 42 mmoll^-1 for phosphate and to 13 mmoll^-1 for malate. PEPC isolated from germinating maize seeds was activated by glucose-6-phosphate, glucose-1-phosphate, ribulose-l,5-bisphosphate, fructose-1,6-bisphosphate, and fructose-2,6-bisphosphate. The authors intend to elucidate the mechanism of PEPC activation by sugars by means of the application of a number of derivatives of the sugar phosphates, among which for example 2-deoxy-2-fluoro glucosephosphate also activated PEPC. Sugar phosphates activated PEPC isolated from germinating maize seeds in this order, with increasing effect: fructose-l,6-bisphosphate, glucose-1-phosphate, glucose-6-phosphate, 2-deoxy-2-fluoro glucosephosphate, ribulose-l,5-bisphos-phate, fructose-2-6-bisphosphate.     

成熟度与烘干温度对结球甘蓝种子质量的影响

以结球甘蓝品种冬升种子为材料,研究了不同成熟度和烘干温度下种子秕粒率、千粒重、发芽率、生理活性情况以及不同烘干温度下种子的含水量.结果表明,结球甘蓝冬升开花后45～55 d采收的种子,发芽率均达到了95%以上;随着种子成熟度提高,其种子质量、发芽活力及其超氧化物歧化酶(SOD)、过氧化物酶(POD)、脱氢酶活性显著上升,而相对电导率显著下降.与对照(自然风干)相比,30～50℃的烘干温度对种子千粒重和秕粒率无显著性影响,也仅在50℃下可使种子的发芽活力显著降低;随着烘干温度的升高,种子的SOD、POD和脱氢酶活性逐渐显著下降,相对电导率则逐渐显著上升;30～50℃烘干6 h种子的含水量由13.3%降至5.4%左右.研究发现,结球甘蓝冬升开花授粉后45 d种子已达到了采收程度,30～50℃烘干6 h种子含水量已达到储藏要求,并且愈接近自然干燥温度(30～40℃)的处理,种子发芽能力愈好;甘蓝种子活力与其SOD、POD和脱氢酶活性呈正相关,而与其相对电导率呈负相关.     

Activation of protein kinase C isozymes by contractile stimuli in arterial smooth muscle.

Protein kinase C (PKC) has been proposed to be involved in the regulation of vascular smooth muscle (VSM) contractile activity. However, little is known in detail about the activation of this kinase or specific isozymes of this kinase by contractile stimuli in VSM. As an index of PKC activation, Ca(2+)- and phospholipid-dependent histone IIIS kinase activity was measured in the particulate fraction from individual strips of isometrically contracting carotid arterial smooth muscle. Phorbol 12,13-dibutyrate (PDB) increased PKC activity in the particulate fraction (155% over resting value by 15 min) with a time course which paralleled or preceded force development. Stimulation with the agonist histamine (10(-5) M) resulted in rapid increases in both force and particulate fraction PKC activity which was maximal by 2 min (increase of 139%) and partially sustained over 45 min (increase of 41%). KCl (109 mM), which evokes a sustained contractile response, caused a slow increase (124% by 45 min) in particulate fraction PKC activity. No significant increases in activator-independent histone kinase activity were observed in response to any stimulus tested. PKC alpha and PKC beta were identified as the principal Ca2+/phospholipid-dependent PKC isozymes expressed in this tissue. In unstimulated arterial tissue, the ratio of immunodetectable isozyme content (alpha:beta) was estimated to be 1:1 in the particulate and 1.5:1 in the cytosolic fractions. Upon stimulation with each of the three contractile stimuli, particulate fraction PKC content assessed by immunoblotting increased with a time course and to an extent comparable to the observed changes in PKC activity. There was no evidence of differential regulation of the PKC alpha or -beta isozymes by PDB compared to the other contractile stimuli. These results indicate that diverse contractile stimuli are capable of tonically activating PKC in preparations of functional smooth muscle, and are consistent with a functional role for PKC alpha and/or -beta in the regulation of normal smooth muscle contractile activity.     

Heart 6-phosphofructo-1-kinase. Subcellular distribution and binding to myofibrils

6-Phosphofructo-1-kinase (phosphofructokinase) (ATP:D-fructose-6-P 1-phosphotransferase, EC 2.7.1.11) can be identified in sheep heart homogenates in two forms, a soluble form and a form bound to the particulate fraction. Homogenates from immediately-dissected hearts have the enzyme in the soluble form, while those collected after a delay have the enzyme bound to the particulate fraction. Aldolase appears to show the same change in its location. Homogenization in a solution with concentrated macromolecular species (20% albumin) results in a greater association of phosphofructokinase and of aldolase to the particulate fraction in homogenates from immediately dissected hearts. Phosphofructokinase activity can be solubilized by two specific means: by high ionic strength, which is dependent upon specific salts; or by low ionic strength, which is dependent upon the presence of phosphofructokinase substrates or modifier ligands. These two means of solubilization are affected differently upon decreasing the pH below 6.9: the solubilization at low ionic strength is prevented, whereas phosphofructokinase is still solubilized by high ionic strength. Under the latter condition, the enzyme is in the inactive dimeric state, which can be activated at an alkaline pH. Myofibrils present in the particulate fraction can account for the binding of phosphofructokinase in heart homogenates. Purified myofibrils, when added to heart supernatant fluids, can bind phosphofructokinase at a slightly acidic pH. Conditions for phosphofructokinase binding to myofibrils, as well as its dissociation, follow what was observed with the binding of phosphofructokinase to the particulate fraction. At an acidic pH, and in the presence of a high concentration of ATP, phosphofructokinase exhibits low activity. However, if phosphofructokinase is assayed under these conditions while bound to myofibrils, the enzyme is activated.     

Purification and characterization of an alpha-glucosidase from germinating millet seeds

An α-glucosidase (α-d-glucoside glucohydrolase, EC 3.2.1.20) was isolated from germinating millet (Panicum miliaceum L.) seeds by a procedure that included ammonium sulfate fractionation, chromatography on CM-cellulofine/Fractogel EMD SO₃, Sephacryl S-200 HR and TSK gel Phenyl-5 PW, and preparative isoelectric focusing. The enzyme was homogenous by SDS-PAGE. The molecular weight of the enzyme was estimated to be 86,000 based on its mobility in SDS-PAGE and 80,000 based on gel filtration with TSKgel super SW 3000, which showed that it was composed of a single unit. The isoelectric point of the enzyme was 8.3. The enzyme readily hydrolyzed maltose, malto-oligosaccharides, and α-1,4-glucan, but hydrolyzed polysaccharides more rapidly than maltose. The K_m value decreased with an increase in the molecular weight of the substrate. The value for maltoheptaose was about 4-fold lower than that for maltose. The enzyme preferably hydrolyzed amylopectin in starch, but also readily hydrolyzed nigerose, which has an α-1,3-glucosidic linkage and exists as an abnormal linkage in the structure of starch. In particular, the enzyme readily hydrolyzed millet starch from germinating seeds that had been degraded to some extent.     

Rapporti Tra Assunzione D'acqua,Metabolismo e Sintesi di Enzimi Nell'endosperma Di Semi Germinanti di Ricinus Communis

Abstract

Water uptake, activation of metabolism and enzyme synthesis in germinating castor bean seeds. — During the first days of germination water uptake by the castor bean seed endosperm is accompanied by a rapid rise of respiratory activity and of the « in vitro » detectable activity of a number of enzymes. The finding that the increase of enzyme activity is strongly inibited by protein synthesis inhibitors suggests an « ex novo » synthesis of enzymes in the endosperm of the germinating seed. The present investigation on the relationship between water uptake, metabolic activity and enzyme activity level lead to the following conclusions:

I - The increase of enzyme activity is strictly dependent on the availability of water, and on the rate of water uptake. When water uptake is depressed by incubation of the seed in high osmolarity media, enzyme activation is also severely depressed.

This is also observed when the seeds are germinating in contact with an amount of water consistently lower then the one they would taken up, in a given time (24 h), under conditions of unlimeted water availability.

II - The temperature coefficient of water uptake is close to 1.5 during the first 24 h, higher than 2 in the following 3 days. Low temperature almost completely inhibits the increase of enzyme activities in the endosperm.

III - Anaerobiosis inhibits the rate of water uptake by about 50%, in the first 24 h, and almost completely, in the following 3 days. Also the rise of enzyme activities is severely inhibited by lack of oxygen. The effect of protein synthesis inhibitors on water uptake is somewhat smaller, and the one on enzyme activity is somewhat larger than that of anaerobiosis.

These results are interpreted as indicating that during the early period of germination water uptake becomes more and more dependent on the metabolic activities of the endosperm cells, in as much the latter lead to the appearance of osmotically active substances and, possibly, to changes of the cell wall properties.

On the other hand, the level of hydration of the cytoplasm represents a limiting factor for the development of the mechanism involved in enzyme synthesis and metabolic activation.     

Proof of guanylate cyclase activity in the coronary artery of cattle]

Guanylate cyclase activities were identified in a soluble fraction and a particular fraction obtained from the Arteria coronaria of cattle. The Km-value was 1.0 +/- 0.7 - 10(-4) M for the enzyme substrate complex of the guanylate cyclase of the soluble fraction and 9.2 +/- 1.5 - 10(-4) M for the particular fraction. For the enzyme activity of the soluble fraction Mn++ cannot be replaced by Ca++ or Mg++, whereas for the enzyme activity of the particulate fraction Mn++ can be replaced by Mg++ but not by Ca++. The guanylate cyclase of the particulate fraction can be activated by acetylcholine. This activation can be cancelled by atropine. Acetylcholine exerts no influence on the guanylate cyclase activity of the soluble fraction. ATP inhibits the enzyme activities of both fractions whereas cAMP shows no influence on the guanylate cyclase activity.     

The degree of branching in (alpha 1,4)-(alpha 1,6)-linked glucopolysaccharides is dependent on intrinsic properties of the branching enzymes

1. Branching enzymes from rat and rabbit liver, as well as from potato and maize were prepared. They were almost free from contaminating glucan-degrading enzymes. 2. In 'sweet corn' maize, two separate fractions with (alpha 1,4)glucan: (alpha 1,4)glucan alpha 6-glycosyltransferase activities were obtained. One of them synthesized amylopectin, the branched component of starch, in the presence of phosphorylase and Glc1P, while the other fraction synthesized phytoglycogen. Furthermore, in a maize variety which does not accumulate phytoglycogen, only one fraction of branching activity was found, that formed amylopectin under the above-mentioned conditions. 3. Comparative analyses performed with native (alpha 1,4)-(alpha 1,6)glucopolysaccharides, and those synthesized in vitro with the branching enzyme from the same tissue, demonstrated a close similarity between both glucans. 4. It may be concluded that the branching enzyme is responsible for the specific degree of (alpha 1,6) branch linkages found in the native polysaccharide.     

Decreased Protein Kinase C Activity During Cerebral Ischemia and After Reperfusion in the Adult Rat

The possible activation of protein kinase C (PKC) during total cerebral ischemia was investigated in the rat. Translocation of PKC activity from the soluble to the particulate fraction was used as an index of PKC activation. There was a drop in the proportion of particulate PKC activity from 30% for controls to 20% by 30 min of ischemia (p less than 0.01). By 20 min of cardiac arrest, there was a 40% decline of the total cellular PKC activity (p less than 0.01). This was not accompanied by an increase in activator-independent activity, a finding indicating PKC was not being converted to protein kinase M. These data suggest that PKC was not activated during ischemia, but rather that ischemia causes a reduction in cellular PKC activity. Translocation of PKC activity to the particulate fraction was not observed in the cerebral cortex or hippocampus of reperfused brain for up to 6 h of recovery following 11-13 min of total cerebral ischemia. The level of total, soluble, and particulate PKC activity in the cerebral cortex was reduced (p less than 0.05), corresponding to the decrease observed by 15 min of ischemia without reflow. A similar decline in activity was also observed in the hippocampus. No increase in activator-independent activity was observed. These data suggest that PKC was inhibited during cerebral ischemia and that this reduced level of PKC activity was maintained throughout 6 h of recovery. We conclude that pathological activation of PKC was not responsible for the evolution of ischemic brain damage.     

Regulation of storage lipid metabolism in developing and germinating lupin (<Emphasis Type="Italic">Lupinus</Emphasis> spp.) seeds

The main storage compound in lupin seeds is protein, whose content can reach up to 45–50 % of dry matter. However, seeds of some lupin species can also contain quite a large amount of storage lipid. The range of lipid content in lupin seeds is from about 6 to about 20 % of dry matter. Storage lipid in developing seeds is synthesized mainly from sugars delivered by mother plants. During seed germination, one of the main end-products of storage lipid breakdown is also sugars. Thus, the sugar level in tissues is considered an important regulatory agent, during both lipid accumulation and lipid breakdown. Generally, in developing legume seeds, there is a strong negative relation between accumulation of storage protein and storage lipid. Results obtained in developing lupin cotyledons cultured in vitro pointed to the possibility of a positive relation between protein and lipid accumulation. Such a positive effect could be caused by nitrate. During lupin seed germination and seedling development, the utilization of storage lipid is enhanced under sugar deficiency conditions in tissues and is controlled at the gene expression level. However, under sugar starvation conditions, autophagy is significantly enhanced, and it can cause disturbances in storage lipid breakdown. The hypothesis of pexophagy, i.e., autophagic degradation of peroxisomes under sugar starvation conditions during lupin seed germination, has been taken into consideration. The flow of lipid-derived carbon skeletons to amino acids was discovered in germinating lupin seeds, and this process is clearly more intense in sucrose-fed embryo axes. At least four alternative or mutually complementary pathways of carbon flow from storage lipid to amino acids in germinating lupin seeds are postulated. The different strategies of storage compound breakdown during lupin seed germination are also discussed.