Your search keyword '"Starch Phosphorylase"' showing total 8 results

1. Sucrose and starch metabolism during Fargesia yunnanensis shoot growth

Author

Shuguang Wang, Guo-jian Tang, Yulong Ding, Xiaopeng Peng, Li Juan, Chang-ming Wang, Jing-wei Zhao, Pei Jialong, and Shuangxi Nie

Subjects

0106 biological sciences, 0301 basic medicine, Sucrose, Physiology, Starch, Plant Science, Biology, Poaceae, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Genetics, Sugar, Plant stem, Starch phosphorylase, beta-Fructofuranosidase, fungi, food and beverages, Starch Phosphorylase, Cell Biology, General Medicine, Horticulture, 030104 developmental biology, Invertase, chemistry, Glucosyltransferases, Shoot, biology.protein, Carbohydrate Metabolism, Sucrose synthase, Plant Shoots, 010606 plant biology & botany

Abstract

Bamboo is one of the fastest growing plants in the world, but their shoot buds develop very slowly. Information about the sugar storage and metabolism during the shoot growth is lacking. In the present study, we determined the activity of sucrose and starch metabolizing enzymes during the developmental period of Fargesia yunnanensis from shoot buds to the young culms that have achieved their full height. The soluble sugars and starch contents were also determined and analyzed in shoot buds and shoots at different developmental stages. The results showed that there were higher sucrose contents in shoot buds than shoots, which coincides with the sweeter taste of shoot buds. As the shoot buds sprouted out of the ground, the starch and sucrose were depleted sharply. Coupled with this, the activity of soluble acid invertase (SAI), cell wall-bound invertase (CWI), sucrose synthase at cleavage direction (SUSYC) and starch phosphorylase (STP) increased significantly in the rapidly elongating internodes. These enzymes dominated the rapid elongation of internodes. The activities of SAI, CWI, SUSYC and STP and adenosine diphosphate-glucose pyrophosphorylase were higher as compared to other enzymes in the shoot buds, but were far lower than those in the developing shoots. The slow growth of shoot buds was correlated with the low activity of these enzymes. These results complement our understanding of the physiological differences between shoot buds and elongating shoots and ascertain the physiological mechanism for the rapid growth of bamboo shoots.

Published

2019

2. Effect of hypoxia on sugar accumulation, respiration, activities of amylase and starch phosphorylase, and induction of alternative oxidase and acid invertase during storage of potato tubers (Solanum tuberosum cv. Russet Burbank) at 1°C.

Author

Dingbo Zhou and Solomos, Theophanes

Subjects

*POTATOES, *HYPOXEMIA, *SUGARS, *RESPIRATION in plants, *PLANT genetics, *PLANT physiology

Abstract

The transfer of potato (Solanum tuberosum) tubers from 10 to 1°C was associated with an initial decline in the rate of CO2 output followed by a rapid increase reaching, within some 12 days, a peak which was about 3-fold higher than at 10°C. Thereafter the rate of CO2 evolution declined gradually for the duration of the experiment. The specific rate of mitochondrial O2 uptake decreased initially, followed by a rise to a level similar to that of mitochondria prepared from tubers stored at 10°C. Low temperature decreased by 30% the capacity of the cytochrome pathway while it sharply increased the capacity of the alternative pathway. Sucrose was the first sugar to accumulate at 1°C, followed after a delay of 6-7 days by glucose and fructose. Low temperature induced within 4-5 days a rise in amylase activity which increased by 10-fold after 30 days. The increase was reflected in only two out of four existing isoforms. In addition a novel isoform of amylase was detected later in storage. The induction and the accumulation of invertase mRNA and extractable activity followed the increase in sucrose but preceded that of hexoses. The activity of starch phosphorylase isoforms was not affected by temperature. There was a 3-fold increase in chlorogenic acid at 1°C. Hypoxia strongly inhibited the accumulation of sugars and chlorogenic acid, the increase in the amylase activity, and the appearance of the novel isoform. Low O2 totally suppressed the induction of invertase mRNA and increased the capacity of the alternative oxidase. It did not, however, prevent the decrease in cytochrome capacity; neither did it affect the activity of starch phosphorylase isoforms. [ABSTRACT FROM AUTHOR]

Published

1998

3. Carbohydrate metabolism in one- and two-year-old spruce needles, and stem carbohydrates from three months before until three months after bud break.

Author

Egger, Bernd, Einig, Werner, Schlereth, Armin, Wallenda, Thomas, Magel, Elisabeth, Loewe, Anja, and Hampp, Rüdiger

Subjects

*SUCROSE, *SUGARS, *SPRUCE, *GLUCOSE, *GLYCOSIDES, *METABOLISM

Abstract

Starch and sucrose metabolism of one- and two-year-old needles of Norway spruce (Picea abies [L.] Karst., about 30 years old) was investigated from three months before until three months after bud break at a natural site. We distinguish different metabolic states according to the extractable activities of enzymes (α-amylase [EC 3.2.1.1 ], ADP-glucose pyrophosphorylase [AGP, EC 2.7.7.27], D-enzyme [EC 2.4.1.25], starch phosphorylase [STP, EC 2.4.1.1]), sucrose phosphate synthase [SPS, EC 2.4.1.14], sucrose synthase [SS, EC 2.4.1.13], acid invertase [AI, EC 3.2.1.26]) and pool sizes of related metabolites (starch, glucose, fructose, sucrose, raffinose, stachyose, fructose 6-phosphate [F6P], glucose 6-phosphate [G6P], fructose 2,6-bisphosphate [F26BP], and inorganic phosphate [Pi]). The period ending with bud break was characterized by high rates of net photosynthesis, a pronounced decrease in the amount of soluble sugars, and a steep rise in starch (from the detection limit to approximately 600 nmol glycosyl units [mg dry weight]-1). In parallel, the extractable activity of AGP increased, while D-enzyme was on a relative high level when compared with the period after bud break. With respect to sucrose metabolism, F26BP, an inhibitor of sucrose synthesis, decreased from 1 to 0.4 pmol (mg dry weight)-1. This was complemented by SPS activity, which was due to both increased protein levels shown by immunoblotting and activation under metabolite control (high levels of G6P and a low Pi/G6P ratio). This indicates a high capacity of synthesis of starch and sucrose in the period before bud break. These observations are in accordance with estimates of photosynthetic carbon gain, which indicate that in early spring large amounts of carbon from current photosynthesis are exported out of the needles. In addition, the content of nonstructural carbohydrates (expressed as hexoses) increased in the bark of the stem. This could also be a consequence of an enhanced carbon export from the needles. After the onset of bud break, starch concentration decreased in all tissues under investigation. In contrast, the level of total nonstructural carbohydrates in the outermost sapwood nearly doubled from bud break until the end of sampling. In the needles, net photosynthesis was reduced by about 75% and a decrease in SPS activity and protein level were found together with lower G6P concentration, and an increased Pi/G6P ratio. These results suggest that during that period sucrose synthesis was reduced in the older needles. In addition, under conditions of reduced photosynthesis, carbon demand of current year needles was in part ensured by the mobilization of starch in the older needles. Taken together our data show that before bud break carbon metabolism of mature leaves is related with the sink demands of storage organs. After bud break the accumulated assimilate pools in needles and stem, mainly the bark, are mobilized and support carbon supply to new tissues. [ABSTRACT FROM AUTHOR]

Published

1996

4. Biochemical changes during germination and seedling growth in Cuscuta campestris.

Author

Charles, Denys J., Singh, Madhav, and Sanwal, C. C.

Subjects

*CUSCUTACEAE, *GERMINATION, *SEEDS, *ALKALINE phosphatase, *ACID phosphatase, *ALANINE, *ASPARTATE aminotransferase, *DEOXYRIBONUCLEASES

Abstract

Changes in the contents of starch, protein, DNA, RNA, total phosphorus., acid soluble phosphorus and inorganic phosphorus, and in the activities of some enzymes. of carbohydrate, amino acid, nucleic acid and phosphate metabolism were studied during the germination of Cuscuta campestris seeds. The results are expressed on per seed basis. Starch content in Cuscuta seeds showed: .a steady decline with most of it depleted by the end of the eighth day of germination. Protein content increased with germination up to 48 h and then decreased. RNA and DNA contents increased to a maximal level on the fourth day of germination aid then decreased, Total phosphorus in the seeds remained almost unchanged during the period of study, Both trichioroacetic add soluble and inorganic phosphorus increased until the third day and then decreased. Phytin was rapidly hydrolyzed with little being detectable by the seventh day of germination. Glucose-6-phosphate dehydrogenase increased with germination, while fructose bisphosphate aldolase which is indispensable for glycolysis, decreased with germination. Ribonuclease and ,deoxyribonuclease increased till the third and fourth day, respectively, and then decreased. Aspartate and alanine aminotransferases showed .a maximum on the second day and then decreased. Activities of alkaline fructose-1,6-bisphosphatase and phytase were absent in the dry seeds. and appeared only on the second day of germination. Both α- and β-amylase activities were present in the dry seed. [ABSTRACT FROM AUTHOR]

Published

1982

5. Carbohydrate metabolism in one- and two-year-old spruce needles, and stem carbohydrates from three months before until three months after bud break

Author

Anja Loewe, Elisabeth Magel, Rüdiger Hampp, Thomas Wallenda, B. Egger, Armin Sclereth, and Werner Einig

Subjects

Starch phosphorylase, Sucrose, biology, Physiology, Fructose, Cell Biology, Plant Science, General Medicine, Carbohydrate metabolism, chemistry.chemical_compound, Invertase, Animal science, chemistry, Botany, biology.protein, Genetics, Sucrose synthase, Sucrose-phosphate synthase, Raffinose

Abstract

Starch and sucrose metabolism of one- and two-year-old needles of Norway spruce (Picea abies [L.] Karst., about 30 years old) was investigated from three months before until three months after bud break at a natural site. We distinguish different metabolic states according to the extractable activities of enzymes (α-amylase [EC 3.2.1.1], ADP-glucose pyrophosphorylase [AGP, EC 2.7.7.27], D-enzyme [EC 2.4.1.25], starch phosphorylase [STP. EC 2.4.1.1]), sucrose phosphate synthase [SPS, EC 2.4.1.14], sucrose syntbase [SS, EC 2.4.1.13]. acid invertase [AI, EC 3.2.1.261) and pool sizes of related metabolites (starch, glucose, fructose, sucrose, raffinose, stachyose, fructose 6-phosphate [F6P], glucose 6-phosphate [G6P], fructose 2,6-bisphosphate [F26BP], and inorganic phosphate [P1]). The period ending with bud break was characterized by high rates of net photosynthesis, a pronounced decrease in the amount of soluble sugars, and a steep rise in starch (from the detection limit to approximately 600 nmol glycosyl units [mg dry weight]-1). In parallel, the extractable activity of AGP increased, while D-enzyme was on a relative high level when compared with the period after bud break. With respect to sucrose metabolism, F26BP, an inhibitor of sucrose synthesis, decreased from 1 to 0.4 pmol (mg dry weight)-1. This was complemented by SPS activity, which was due to both increased protein levels shown by immunoblotting and activation under metabolite control (high levels of G6P and a low Pi/G6P ratio). This indicates a high capacity of synthesis of starch and sucrose in the period before bud break. These observations are in accordance with estimates of photosynthetic carbon gain, which indicate that in early spring large amounts of carbon from current photosynthesis are exported out of the needles. In addition, the content of nonstructural carbohydrates (expressed as hexoses) increased in the bark of the stem. This could also be a consequence of an enhanced carbon export from the needles. After the onset of bud break, starch concentration decreased in all tissues under investigation. In contrast, the level of total nonstructural carbohydrates in the outermost sapwood nearly doubled from bud break until the end of sampling. In the needles, net photosynthesis was reduced by about 75% and a decrease in SPS activity and protein level were found together with lower G6P concentration, and an increased Pi/G6P ratio. These results suggest that during that period sucrose synthesis was reduced in the older needles. In addition, under conditions of reduced photosynthesis, carbon demand of current year needles was in part ensured by the mobilization of starch in the older needles. Taken together our data show that before bud break carbon metabolism of mature leaves is related with the sink demands of storage organs. After bud break the accumulated assimilate pools in needles and stem, mainly the bark, are mobilized and support carbon supply to new tissues.

Published

1996

6. Regulation of the catalytic behaviour of L-form starch phosphorylase from sweet potato roots by proteolysis

Author

Shih-Chung Chang, Chi-Chen Wu, Han-Min Chen, Jiann-Shing Wu, Rong-Huay Juang, and Ting-Shen Cuo

Subjects

chemistry.chemical_classification, Starch phosphorylase, Physiology, Starch, food and beverages, Cell Biology, Plant Science, General Medicine, Biology, Amino acid, chemistry.chemical_compound, Glycogen phosphorylase, Enzyme, chemistry, Biochemistry, Genetics, Phosphorylase kinase, Peptide sequence, Phosphorolysis

Abstract

Starch phosphorylase (SP) is an enzyme used for the reversible phosphorolysis of the alpha-glucan in plant cells. When compared to its isoform in an animal cell, glycogen phosphorylase, a peptide containing 78 amino acids (L78) is inserted in the centre of the low-affinity type starch phosphorylase (L-SP). We found that the amino acid sequence of L78 had several interesting features including the presence of a PEST region, which serves as a signal for rapid degradation. Indeed, most L-SP molecules isolated from mature sweet potato roots were nicked in the middle of a molecule, but still retained their tertiary or quaternary structures, as well as full catalytic activity. The nicking sites on the L78 were identified by amino acid sequencing of these peptides, which also enabled us to propose a proteolytic process for L-SP. Enzyme kinetic studies of L-SP in the direction of starch synthesis indicated that the Km decreased during the proteolytic process when starch was used as the limiting substrate, but the Km for the other substrate (Glc-1-P) increased. On the other hand, the maximum velocities (Vmax) increased for both substrates. Mobility of the nicked L-SP was retarded on a native polyacrylamide gel containing soluble starch, indicating the increased affinity for starch. Results in this study suggested that L78 and its proteolytic modifications might play a regulatory role on the catalytic behaviour of L-SP in starch biosynthesis.

Published

2002

7. Effect of gibberellic acid on growth and carbohydrate metabolism of developing tubers of potato (Solanum tuberosum)

Author

Daryl J. Mares, H. Marscfaner, and A. Krauss

Subjects

Starch phosphorylase, Physiology, Starch, Stolon, fungi, food and beverages, Cell Biology, Plant Science, General Medicine, Biology, Carbohydrate metabolism, Solanum tuberosum, chemistry.chemical_compound, Horticulture, chemistry, Botany, Genetics, biology.protein, Starch synthase, Sugar, Gibberellic acid

Abstract

Potato plants (Solanum tuberosum L. cv. Ostara) were grown in aerated water culture in a controlled environment. When the tubers had reached a diameter of 1–3 cm. 14C-labelled or unlabelled gibberellic acid (GA3) was applied to the surface of the stolons at points approximately 1 crn from the developing tubers, and treatment continued for 10 days. - Significant quantities of GA3 moved into tuber tissue within 2–4 days of hormone application. This influx of GA3 was accompanied by a marked reduction in both the activity of ADPG-pyrophospharylase and the ratio ADPG-pyrophosphorylase/starch phosphorylase and an increase in the activity of UDPG-pyrophosphorylase. Starch phosphorylase activity initially increased slightly but then fell, whereas the activity of starch synthase remained constant throughout the experiment. The soluble sugar composition of the tubers changed qualitatively towards a pattern characteristic of growing stolon tips prior to tuber initiation, but there was no clear evidence of net starch degradation. Changes in the activities of the enzymes were observed prior to noticeable effects of the hormone on tuber growth rate or the development of new stolons at the tuber eyes. - GA3- treated tubers imported more 14C from labelled photosynthate than expected on the basis of growth rate. However, the capacity to convert solub#e-14C to ethaTiol-insoluble-14C (predominantly starch) was reduced in comparison with non-treated tubers. - The observed changes in carbohydrate composition and enzyme activities indicate that GA3 induces a drastic change in potato tuber metabolism towards a pattern characteristic for the termination of the storage process.

Published

1981

8. Biochemical changes in the developing seeds of Cuscuta campestris

Author

G.G. Sanwal, Madhav Singh, and Denys J. Charles

Subjects

chemistry.chemical_classification, Phytic acid, Starch phosphorylase, Physiology, Cell Biology, Plant Science, General Medicine, Biology, Cuscuta campestris, Phosphate, biology.organism_classification, chemistry.chemical_compound, Enzyme, Biochemistry, chemistry, Genetics, Nucleic acid, Alkaline phosphatase, Phytase

Abstract

Metabolic changes in developing Cuscuta campestris Yunck seeds were studied with respect to TCA-soluble phosphate fractions, nucleic acids and the enzymes, viz, acid and alkaline phosphatase, neutral and alkaline FDPase, starch phosphorylase, α-amylase ribonuclease, deoxyribonuclease and phytase. RNA and DNA contents increased steadily, and then remained stationary during the last two stages. The activities of all the enzymes studied increased with development with a sharp fall in the final stage. Interestingly, α-amylase was present throughout the seed development. Phytic acid (16% of the total P) does not seem to function as phosphate reservoir, instead orthophosphate (13% of the total P) and nucleic acids (30% of the total P) may serve this function.

Published

1980