Indian Streams Research Journal

Volume : IV, Issue : VII, August - 2014

CHARACTERIZATION OF BARLEY SUCROSE PHOSPHATE SYNTHASE

Amani Abdel-Latif, None

By : Laxmi Book Publication

Abstract :

Sucrose phosphate synthase (SPS) is one of a number of sucrose-metabolizing enzymes that regulates the sucrose synthesis pathway. SPS was assayed from green barley(HordeurnvulgareL.) seedlings (GBS),from etiolated barley seedlings (DBS) that were continuously grown in darkness, and barley seedlings that were grown in darkness and illuminated only for 30 minutes before returning to the dark conditions again (EBS).Except for DBS, both GBS and EBSSPS activities wereallosterically regulated by G-6-P (activator) or Pi (inhibitor).Thiol reagents became sensitized to the enzyme activity, but could be restored with DTT or â-ME. Glucose, maltose and lactose activated the enzymewhile ä-gluconolactone and mannose inhibited it. When compared to those plants which were maintained in total darkness, extractable sucrose-P synthase activity of 30-min.illuminated seedlings increased about 4 folds by 1h .The activity remained constant for an additional two hours and then decreased to about 50% of maximal 5 h post illumination

Keywords :

• Barley
• Sucrose Phosphate Synthase
• Barley
• Sucrose Phosphate Synthase

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References :

1. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
2. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
3. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
4. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
5. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
6. 174: 217-230.
7. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
8. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
9. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
10. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
11. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
12. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
13. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
14. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
15. London, pp. 53-57.
16. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
17. Physiol., 76: 165-169.
18. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
19. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
20. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
21. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
22. Pisumsativum. Phytochemistry, 29: 1057-1063.
23. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
24. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
25. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
26. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
27. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
28. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
29. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
30. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
31. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
32. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
33. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
34. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
35. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
36. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
37. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
38. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
39. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
40. Sucrose in Higher Plants. Iger innovations 6-9.
41. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
42. Pisumsativum. Phytochemistry, 29: 1057-1063.
43. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
44. Sucrose in Higher Plants. Iger innovations 6-9.
45. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
46. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
47. Sucrose in Higher Plants. Iger innovations 6-9.
48. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
49. 174: 217-230.
50. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
51. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
52. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
53. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
54. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
55. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
56. Physiol., 76: 165-169.
57. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
58. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
59. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
60. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
61. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
62. 174: 217-230.
63. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
64. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
65. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
66. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
67. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
68. 174: 217-230.
69. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
70. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
71. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
72. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
73. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
74. Sucrose in Higher Plants. Iger innovations 6-9.
75. Plant Physiol.,100: 1230-1237.
76. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
77. London, pp. 53-57.
78. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
79. Sucrose in Higher Plants. Iger innovations 6-9.
80. 69: 1027-1030.
81. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
82. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
83. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
84. London, pp. 53-57.
85. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
86. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
87. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
88. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
89. 174: 217-230.
90. Plant Physiol.,100: 1230-1237.
91. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
92. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
93. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
94. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
95. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
96. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
97. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
98. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
99. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
100. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
101. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
102. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
103. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
104. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
105. Pisumsativum. Phytochemistry, 29: 1057-1063.
106. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
107. Pisumsativum. Phytochemistry, 29: 1057-1063.
108. 69: 1027-1030.
109. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
110. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
111. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
112. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
113. Pisumsativum. Phytochemistry, 29: 1057-1063.
114. Plant Physiol.,100: 1230-1237.
115. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
116. 69: 1027-1030.
117. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
118. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
119. London, pp. 53-57.
120. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
121. Pisumsativum. Phytochemistry, 29: 1057-1063.
122. Physiol. Plant Mol. Biol., 17: 431-444.
123. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
124. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
125. from Prosopisjuliflora. Phytochemistry 46: 441-447.
126. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
127. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
128. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
129. from Prosopisjuliflora. Phytochemistry 46: 441-447.
130. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
131. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
132. Sucrose in Higher Plants. Iger innovations 6-9.
133. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
134. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
135. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
136. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
137. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
138. London, pp. 53-57.
139. Physiol. Plant Mol. Biol., 17: 431-444.
140. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
141. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
142. from Prosopisjuliflora. Phytochemistry 46: 441-447.
143. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
144. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
145. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
146. Plant Physiol.,100: 1230-1237.
147. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
148. London, pp. 53-57.
149. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
150. Physiol., 76: 165-169.
151. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
152. Physiol. Plant Mol. Biol., 17: 431-444.
153. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
154. Plant Physiol.,100: 1230-1237.
155. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
156. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
157. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
158. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
159. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
160. 174: 217-230.
161. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
162. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
163. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
164. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
165. Plant Physiol.,100: 1230-1237.
166. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
167. Sucrose in Higher Plants. Iger innovations 6-9.
168. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
169. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
170. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
171. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
172. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
173. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
174. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
175. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
176. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
177. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
178. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
179. 174: 217-230.
180. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
181. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
182. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
183. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
184. Sucrose in Higher Plants. Iger innovations 6-9.
185. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
186. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
187. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
188. Plant Physiol.,100: 1230-1237.
189. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
190. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
191. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
192. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
193. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
194. Physiol. Plant Mol. Biol., 17: 431-444.
195. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
196. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
197. from Prosopisjuliflora. Phytochemistry 46: 441-447.
198. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
199. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
200. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
201. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
202. Sucrose in Higher Plants. Iger innovations 6-9.
203. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
204. 69: 1027-1030.
205. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
206. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
207. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
208. Physiol. Plant Mol. Biol., 17: 431-444.
209. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
210. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
211. from Prosopisjuliflora. Phytochemistry 46: 441-447.
212. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
213. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
214. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
215. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
216. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
217. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
218. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
219. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
220. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
221. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
222. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
223. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
224. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
225. Sucrose in Higher Plants. Iger innovations 6-9.
226. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
227. London, pp. 53-57.
228. Physiol. Plant Mol. Biol., 17: 431-444.
229. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
230. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
231. from Prosopisjuliflora. Phytochemistry 46: 441-447.
232. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
233. 1127-1128.
234. sucrose biosynthesis. Plant Physiol., 73:428-433
235. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
236. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
237. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
238. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
239. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
240. Physiol., 76: 165-169.
241. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
242. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
243. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
244. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
245. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
246. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
247. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
248. Sucrose in Higher Plants. Iger innovations 6-9.
249. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
250. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
251. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
252. 1127-1128.
253. sucrose biosynthesis. Plant Physiol., 73:428-433
254. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
255. Physiol., 76: 165-169.
256. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
257. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
258. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
259. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
260. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
261. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
262. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
263. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
264. London, pp. 53-57.
265. 69: 1027-1030.
266. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
267. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
268. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
269. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
270. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
271. London, pp. 53-57.
272. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
273. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
274. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
275. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
276. London, pp. 53-57.
277. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
278. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
279. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
280. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
281. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
282. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
283. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
284. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
285. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
286. 174: 217-230.
287. 69: 1027-1030.
288. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
289. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
290. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
291. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
292. London, pp. 53-57.
293. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
294. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
295. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
296. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
297. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
298. 1127-1128.
299. sucrose biosynthesis. Plant Physiol., 73:428-433
300. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
301. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
302. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
303. 69: 1027-1030.
304. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
305. Plant Physiol.,100: 1230-1237.
306. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
307. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
308. Sucrose in Higher Plants. Iger innovations 6-9.
309. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
310. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
311. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
312. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
313. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
314. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
315. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
316. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
317. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
318. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
319. 174: 217-230.
320. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
321. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
322. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
323. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
324. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
325. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
326. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
327. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
328. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
329. 174: 217-230.
330. Plant Physiol.,100: 1230-1237.
331. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
332. Physiol., 76: 165-169.
333. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
334. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
335. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
336. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
337. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
338. Pisumsativum. Phytochemistry, 29: 1057-1063.
339. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
340. Sucrose in Higher Plants. Iger innovations 6-9.
341. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
342. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
343. Sucrose in Higher Plants. Iger innovations 6-9.
344. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
345. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
346. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
347. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
348. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
349. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
350. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
351. London, pp. 53-57.
352. 69: 1027-1030.
353. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
354. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
355. 69: 1027-1030.
356. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
357. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
358. London, pp. 53-57.
359. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
360. Pisumsativum. Phytochemistry, 29: 1057-1063.
361. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
362. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
363. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
364. London, pp. 53-57.
365. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
366. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
367. 174: 217-230.
368. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
369. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
370. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
371. Sucrose in Higher Plants. Iger innovations 6-9.
372. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
373. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
374. Pisumsativum. Phytochemistry, 29: 1057-1063.
375. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
376. London, pp. 53-57.
377. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
378. Sucrose in Higher Plants. Iger innovations 6-9.
379. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
380. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
381. Sucrose in Higher Plants. Iger innovations 6-9.
382. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
383. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
384. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
385. Sucrose in Higher Plants. Iger innovations 6-9.
386. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
387. London, pp. 53-57.
388. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
389. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
390. Physiol., 76: 165-169.
391. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
392. London, pp. 53-57.
393. Plant Physiol.,100: 1230-1237.
394. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
395. Pisumsativum. Phytochemistry, 29: 1057-1063.
396. Plant Physiol.,100: 1230-1237.
397. 69: 1027-1030.
398. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
399. Sucrose in Higher Plants. Iger innovations 6-9.
400. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
401. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
402. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
403. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
404. Pisumsativum. Phytochemistry, 29: 1057-1063.
405. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
406. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
407. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
408. 174: 217-230.
409. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
410. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
411. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
412. 174: 217-230.
413. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
414. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
415. London, pp. 53-57.
416. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
417. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
418. 174: 217-230.
419. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
420. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
421. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
422. Physiol., 76: 165-169.
423. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
424. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
425. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
426. 174: 217-230.
427. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
428. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
429. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
430. 69: 1027-1030.
431. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
432. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
433. Sucrose in Higher Plants. Iger innovations 6-9.
434. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
435. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
436. Physiol., 76: 165-169.
437. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
438. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
439. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
440. 174: 217-230.
441. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
442. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
443. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
444. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
445. Pisumsativum. Phytochemistry, 29: 1057-1063.
446. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
447. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
448. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
449. Sucrose in Higher Plants. Iger innovations 6-9.
450. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
451. Plant Physiol.,100: 1230-1237.
452. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
453. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
454. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
455. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
456. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
457. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
458. 174: 217-230.
459. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
460. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
461. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
462. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
463. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
464. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
465. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
466. Sucrose in Higher Plants. Iger innovations 6-9.
467. 69: 1027-1030.
468. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
469. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
470. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
471. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
472. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
473. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
474. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
475. 174: 217-230.
476. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
477. 1127-1128.
478. sucrose biosynthesis. Plant Physiol., 73:428-433
479. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
480. Sucrose in Higher Plants. Iger innovations 6-9.
481. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
482. 69: 1027-1030.
483. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
484. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
485. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
486. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
487. Pisumsativum. Phytochemistry, 29: 1057-1063.
488. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
489. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
490. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
491. 69: 1027-1030.
492. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
493. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
494. London, pp. 53-57.
495. London, pp. 53-57.
496. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
497. Sucrose in Higher Plants. Iger innovations 6-9.
498. 174: 217-230.
499. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
500. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
501. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
502. 174: 217-230.
503. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
504. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
505. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
506. from Prosopisjuliflora. Phytochemistry 46: 441-447.
507. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
508. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
509. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
510. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
511. 174: 217-230.
512. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
513. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
514. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
515. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
516. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
517. 174: 217-230.
518. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
519. London, pp. 53-57.
520. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
521. Plant Physiol.,100: 1230-1237.
522. 1127-1128.
523. sucrose biosynthesis. Plant Physiol., 73:428-433
524. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
525. London, pp. 53-57.
526. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
527. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
528. London, pp. 53-57.
529. Physiol. Plant Mol. Biol., 17: 431-444.
530. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
531. Physiol. Plant Mol. Biol., 17: 431-444.
532. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
533. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
534. from Prosopisjuliflora. Phytochemistry 46: 441-447.
535. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
536. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
537. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
538. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
539. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
540. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
541. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
542. Pisumsativum. Phytochemistry, 29: 1057-1063.
543. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
544. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
545. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
546. 174: 217-230.
547. 69: 1027-1030.
548. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
549. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
550. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
551. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
552. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
553. London, pp. 53-57.
554. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
555. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
556. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
557. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
558. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
559. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
560. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
561. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
562. Plant Physiol.,100: 1230-1237.
563. 1127-1128.
564. sucrose biosynthesis. Plant Physiol., 73:428-433
565. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
566. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
567. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
568. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
569. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
570. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
571. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
572. Plant Physiol.,100: 1230-1237.
573. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
574. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
575. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
576. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
577. 174: 217-230.
578. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
579. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
580. 174: 217-230.
581. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
582. 69: 1027-1030.
583. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
584. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
585. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
586. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
587. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
588. 174: 217-230.
589. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
590. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
591. Plant Physiol.,100: 1230-1237.
592. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
593. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
594. Physiol., 76: 165-169.
595. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
596. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
597. London, pp. 53-57.
598. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
599. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
600. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
601. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
602. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
603. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
604. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
605. Sucrose in Higher Plants. Iger innovations 6-9.
606. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
607. 69: 1027-1030.
608. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
609. 174: 217-230.
610. London, pp. 53-57.
611. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
612. 174: 217-230.
613. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
614. 1127-1128.
615. sucrose biosynthesis. Plant Physiol., 73:428-433
616. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
617. London, pp. 53-57.
618. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
619. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
620. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
621. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
622. 174: 217-230.
623. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
624. London, pp. 53-57.
625. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
626. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
627. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
628. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
629. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
630. Sucrose in Higher Plants. Iger innovations 6-9.
631. Physiol. Plant Mol. Biol., 17: 431-444.
632. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
633. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
634. from Prosopisjuliflora. Phytochemistry 46: 441-447.
635. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
636. 69: 1027-1030.
637. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
638. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
639. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
640. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
641. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
642. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
643. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
644. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
645. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
646. Sucrose in Higher Plants. Iger innovations 6-9.
647. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
648. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
649. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
650. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
651. Sucrose in Higher Plants. Iger innovations 6-9.
652. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
653. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
654. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
655. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
656. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
657. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
658. 174: 217-230.
659. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
660. 1127-1128.
661. sucrose biosynthesis. Plant Physiol., 73:428-433
662. 1127-1128.
663. sucrose biosynthesis. Plant Physiol., 73:428-433
664. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
665. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
666. 174: 217-230.
667. 69: 1027-1030.
668. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
669. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
670. Plant Physiol.,100: 1230-1237.
671. 174: 217-230.
672. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
673. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
674. Physiol., 76: 165-169.
675. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
676. Physiol., 76: 165-169.
677. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
678. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
679. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
680. 69: 1027-1030.
681. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
682. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
683. London, pp. 53-57.
684. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
685. London, pp. 53-57.
686. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
687. 174: 217-230.
688. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
689. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
690. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
691. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
692. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
693. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
694. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
695. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
696. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
697. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
698. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
699. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
700. Physiol., 76: 165-169.
701. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
702. Plant Physiol.,100: 1230-1237.
703. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
704. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
705. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
706. Physiol. Plant Mol. Biol., 17: 431-444.
707. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
708. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
709. from Prosopisjuliflora. Phytochemistry 46: 441-447.
710. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
711. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
712. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
713. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
714. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
715. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
716. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
717. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
718. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
719. 174: 217-230.
720. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
721. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
722. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
723. 174: 217-230.
724. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
725. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
726. Plant Physiol.,100: 1230-1237.
727. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
728. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
729. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
730. London, pp. 53-57.
731. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
732. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
733. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
734. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
735. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
736. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
737. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
738. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
739. Sucrose in Higher Plants. Iger innovations 6-9.
740. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
741. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
742. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
743. Sucrose in Higher Plants. Iger innovations 6-9.
744. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
745. Sucrose in Higher Plants. Iger innovations 6-9.
746. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
747. London, pp. 53-57.
748. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
749. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
750. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
751. Pisumsativum. Phytochemistry, 29: 1057-1063.
752. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
753. Sucrose in Higher Plants. Iger innovations 6-9.
754. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
755. London, pp. 53-57.
756. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
757. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
758. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
759. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
760. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
761. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
762. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
763. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
764. 1127-1128.
765. sucrose biosynthesis. Plant Physiol., 73:428-433
766. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
767. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
768. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
769. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
770. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
771. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
772. 174: 217-230.
773. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
774. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
775. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
776. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
777. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
778. Pisumsativum. Phytochemistry, 29: 1057-1063.
779. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
780. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
781. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
782. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
783. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
784. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
785. Plant Physiol.,100: 1230-1237.
786. Plant Physiol.,100: 1230-1237.
787. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
788. 1127-1128.
789. sucrose biosynthesis. Plant Physiol., 73:428-433
790. Plant Physiol.,100: 1230-1237.
791. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
792. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
793. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
794. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
795. 174: 217-230.
796. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
797. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
798. Sucrose in Higher Plants. Iger innovations 6-9.
799. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
800. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
801. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
802. 174: 217-230.
803. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
804. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
805. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
806. 174: 217-230.
807. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
808. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
809. Sucrose in Higher Plants. Iger innovations 6-9.
810. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
811. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
812. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
813. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
814. London, pp. 53-57.
815. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
816. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
817. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
818. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
819. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
820. 174: 217-230.
821. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
822. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
823. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
824. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
825. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
826. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
827. 174: 217-230.
828. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
829. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
830. Physiol. Plant Mol. Biol., 17: 431-444.
831. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
832. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
833. from Prosopisjuliflora. Phytochemistry 46: 441-447.
834. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
835. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
836. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
837. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
838. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
839. Pisumsativum. Phytochemistry, 29: 1057-1063.
840. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
841. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
842. Physiol. Plant Mol. Biol., 17: 431-444.
843. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
844. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
845. Sucrose in Higher Plants. Iger innovations 6-9.
846. 1127-1128.
847. sucrose biosynthesis. Plant Physiol., 73:428-433
848. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
849. from Prosopisjuliflora. Phytochemistry 46: 441-447.
850. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
851. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
852. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
853. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
854. Sucrose in Higher Plants. Iger innovations 6-9.
855. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
856. Pisumsativum. Phytochemistry, 29: 1057-1063.
857. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
858. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
859. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
860. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
861. 174: 217-230.
862. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
863. Pisumsativum. Phytochemistry, 29: 1057-1063.
864. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
865. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
866. Pisumsativum. Phytochemistry, 29: 1057-1063.
867. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
868. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
869. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
870. 174: 217-230.
871. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
872. London, pp. 53-57.
873. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
874. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
875. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
876. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
877. Sucrose in Higher Plants. Iger innovations 6-9.
878. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
879. Sucrose in Higher Plants. Iger innovations 6-9.
880. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
881. London, pp. 53-57.
882. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
883. Sucrose in Higher Plants. Iger innovations 6-9.
884. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
885. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
886. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
887. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
888. Plant Physiol.,100: 1230-1237.
889. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
890. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
891. Sucrose in Higher Plants. Iger innovations 6-9.
892. Pisumsativum. Phytochemistry, 29: 1057-1063.
893. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
894. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
895. London, pp. 53-57.
896. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
897. Pisumsativum. Phytochemistry, 29: 1057-1063.
898. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
899. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
900. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
901. 69: 1027-1030.
902. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
903. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
904. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
905. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
906. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
907. 174: 217-230.
908. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
909. Physiol., 76: 165-169.
910. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
911. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
912. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
913. 174: 217-230.
914. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
915. Physiol., 76: 165-169.
916. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
917. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
918. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
919. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
920. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
921. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
922. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
923. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
924. 174: 217-230.
925. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
926. Pisumsativum. Phytochemistry, 29: 1057-1063.
927. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
928. London, pp. 53-57.
929. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
930. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
931. Plant Physiol.,100: 1230-1237.
932. Physiol. Plant Mol. Biol., 17: 431-444.
933. sucrose biosynthesis. Plant Physiol., 73:428-433
934. 69: 1027-1030.
935. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
936. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
937. Sucrose in Higher Plants. Iger innovations 6-9.
938. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
939. Sucrose in Higher Plants. Iger innovations 6-9.
940. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
941. Sucrose in Higher Plants. Iger innovations 6-9.
942. Physiol. Plant Mol. Biol., 17: 431-444.
943. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
944. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
945. Sucrose in Higher Plants. Iger innovations 6-9.
946. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
947. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
948. London, pp. 53-57.
949. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
950. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
951. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
952. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
953. 174: 217-230.
954. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
955. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
956. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
957. 174: 217-230.
958. 69: 1027-1030.
959. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
960. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
961. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
962. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
963. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
964. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
965. from Prosopisjuliflora. Phytochemistry 46: 441-447.
966. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
967. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
968. London, pp. 53-57.
969. London, pp. 53-57.
970. 1127-1128.
971. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
972. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
973. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
974. 174: 217-230.
975. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
976. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
977. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
978. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
979. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
980. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
981. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
982. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
983. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
984. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
985. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
986. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
987. 174: 217-230.
988. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
989. 1127-1128.
990. sucrose biosynthesis. Plant Physiol., 73:428-433
991. Physiol. Plant Mol. Biol., 17: 431-444.
992. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
993. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
994. from Prosopisjuliflora. Phytochemistry 46: 441-447.
995. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
996. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
997. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
998. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
999. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1000. London, pp. 53-57.
1001. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
1002. Pisumsativum. Phytochemistry, 29: 1057-1063.
1003. from Prosopisjuliflora. Phytochemistry 46: 441-447.
1004. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
1005. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1006. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1007. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1008. 174: 217-230.
1009. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1010. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1011. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1012. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
1013. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1014. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1015. 174: 217-230.
1016. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
1017. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
1018. Physiol. Plant Mol. Biol., 17: 431-444.
1019. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
1020. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
1021. from Prosopisjuliflora. Phytochemistry 46: 441-447.
1022. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
1023. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1024. Physiol., 76: 165-169.
1025. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1026. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1027. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1028. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1029. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1030. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1031. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1032. London, pp. 53-57.
1033. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1034. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1035. 69: 1027-1030.
1036. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1037. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1038. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1039. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1040. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
1041. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
1042. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1043. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
1044. London, pp. 53-57.
1045. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1046. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1047. Sucrose in Higher Plants. Iger innovations 6-9.
1048. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1049. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1050. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1051. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1052. 174: 217-230.
1053. 1127-1128.
1054. sucrose biosynthesis. Plant Physiol., 73:428-433
1055. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1056. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1057. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1058. 174: 217-230.
1059. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1060. London, pp. 53-57.
1061. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1062. London, pp. 53-57.
1063. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1064. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1065. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1066. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
1067. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1068. Sucrose in Higher Plants. Iger innovations 6-9.
1069. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1070. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1071. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
1072. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
1073. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
1074. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1075. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1076. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1077. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1078. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1079. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1080. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1081. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1082. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1083. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
1084. Pisumsativum. Phytochemistry, 29: 1057-1063.
1085. 1127-1128.
1086. sucrose biosynthesis. Plant Physiol., 73:428-433
1087. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1088. Physiol., 76: 165-169.
1089. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1090. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1091. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1092. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1093. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1094. 69: 1027-1030.
1095. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1096. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1097. Sucrose in Higher Plants. Iger innovations 6-9.
1098. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1099. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1100. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
1101. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1102. London, pp. 53-57.
1103. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
1104. 174: 217-230.
1105. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1106. London, pp. 53-57.
1107. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1108. 1127-1128.
1109. sucrose biosynthesis. Plant Physiol., 73:428-433
1110. Plant Physiol.,100: 1230-1237.
1111. 1127-1128.
1112. sucrose biosynthesis. Plant Physiol., 73:428-433
1113. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1114. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1115. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1116. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1117. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1118. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1119. 69: 1027-1030.
1120. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1121. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1122. Galtier, N., Foyer,C. Murchie, E., Alred, R.and Quick,P. 1995. Effects of light and atmospheric carbon dioxide
1123. Pisumsativum. Phytochemistry, 29: 1057-1063.
1124. Plant Physiol.,100: 1230-1237.
1125. Plant Physiol.,100: 1230-1237.
1126. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1127. Physiol., 76: 165-169.
1128. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1129. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
1130. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
1131. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1132. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1133. Physiol., 76: 165-169.
1134. 1127-1128.
1135. sucrose biosynthesis. Plant Physiol., 73:428-433
1136. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1137. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1138. Physiol., 76: 165-169.
1139. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1140. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1141. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1142. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1143. 69: 1027-1030.
1144. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1145. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1146. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1147. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
1148. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1149. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1150. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1151. Physiol. Plant Mol. Biol., 17: 431-444.
1152. Enzymes in Tall Fescue in Response to Deficit Irrigation. J. AMER. SOC. HORT. SCI., 135(6):506–510.
1153. Reimholz, R., Geigenberger,P. and Stitt, M. 1994. Sucrose phosphate synthase is regulated via metabolites and
1154. from Prosopisjuliflora. Phytochemistry 46: 441-447.
1155. Stitt, M., I. Wilke, R. Feil and H.W. Heldt. 1988. Coarse control of sucrose -phosphate synthase inleaves. Planta,
1156. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
1157. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1158. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1159. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1160. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1161. Physiol., 76: 165-169.
1162. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1163. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1164. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
1165. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1166. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1167. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1168. 174: 217-230.
1169. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1170. Physiol., 76: 165-169.
1171. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1172. London, pp. 53-57.
1173. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1174. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1175. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1176. Sucrose in Higher Plants. Iger innovations 6-9.
1177. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1178. London, pp. 53-57.
1179. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1180. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1181. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1182. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1183. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1184. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1185. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1186. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1187. Physiol., 76: 165-169.
1188. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1189. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1190. 69: 1027-1030.
1191. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1192. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1193. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1194. 174: 217-230.
1195. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1196. Sucrose in Higher Plants. Iger innovations 6-9.
1197. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1198. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1199. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1200. 69: 1027-1030.
1201. Huber, S. and Huber,J.1992. Role of sucrose-phosphate synthase biochemistry of a drought tolerant cultivar of
1202. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1203. Sucrose in Higher Plants. Iger innovations 6-9.
1204. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1205. Physiol., 76: 165-169.
1206. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1207. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1208. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1209. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1210. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1211. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1212. 174: 217-230.
1213. Sucrose in Higher Plants. Iger innovations 6-9.
1214. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1215. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1216. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1217. 174: 217-230.
1218. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
1219. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1220. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1221. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
1222. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
1223. reductase are phosphorylated/inactivated by multiple protein kinasein vitro. Plant Physiol., 108: 1077-1082.
1224. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1225. London, pp. 53-57.
1226. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
1227. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
1228. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1229. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1230. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1231. Douglas, C. and Huber,S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1232. common bean (Phaseolus vulgaris L.). Ann. Bot., 83: 57-63.
1233. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1234. London, pp. 53-57.
1235. Rees, A. 1984. Sucrose metabolism. In Storage Carbohydrates in Vascular Plants. Cambridge University Press.
1236. Harbron, S., Foyer,C. and Walker,D. 1981. The purification and properties of sucrose-phosphate synthase from
1237. Jinmin, F., Bingru, H. and Jack, F. 2010. Osmotic Potential, Sucrose Level, and Activity of Sucrose Metabolic
1238. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1239. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1240. Plant Physiol.,100: 1230-1237.
1241. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1242. Huber, S and Huber,J.1996. Role and regulation of sucrose-phosphate synthase in higher plants. Annu. Rev. Plant
1243. biosynthesis. Arch. Biochem. Biophys., 212: 237-246.
1244. McMichael, R.W.Jr., R.R. Klein, M.E. Salvucci, and S.C. Huber 1993. Identification of the major regulation
1245. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1246. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1247. protein phosphorylation in potato tubers, in a manner analogous to the enzyme in leaves. Planta, 192: 480-488.
1248. Physiol., 76: 165-169.
1249. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1250. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1251. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant
1252. Cheink, N. and Brenner,M. 1992. Effect of dark and light conditions and role of gibberellins and abscisic acid.
1253. Barber,G. 1985. The equilibrium of the reaction catalyzed by sucrose phosphate synthase. Plant Physiol., 79:
1254. Sinha, A.K., U.V. Pathre, and P.V. Sane 1997. Purification and characterization of sucrose- phosphate synthase
1255. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1256. Sucrose in Higher Plants. Iger innovations 6-9.
1257. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1258. Plant Physiol.,100: 1230-1237.
1259. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1260. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1261. Sucrose in Higher Plants. Iger innovations 6-9.
1262. Lunn, J.E. and A. Rees. 1990. Purification and properties of sucrose phosphate synthase from seeds of
1263. Rufty, T., PS, Kerr,G.and Huber, S. 1983. Characterization ofdiurnal changes in activities of enzymes involved in
1264. 174: 217-230.
1265. Chris, P., Cairns,A., Gallagher, J, Farrar, D., Tomos,D. and Koroleva,O. 1999. Sweetness and Light: the Role of
1266. Sucrose in Higher Plants. Iger innovations 6-9.
1267. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1268. Lee, M.,Yang, C., Wang, H. and Lee, P. 2003. Regulation of sucrose phosphate synthase of the sweet potato callus
1269. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1270. over-expressing sucrose phosphate synthase. J. Exp. Bot., 46: 1335-1344.
1271. Amir, J. andPreiss, J.1982. Kinetic characterization of spinach leaf sucrose-phosphate synthase. Plant Physiol.,
1272. London, pp. 53-57.
1273. London, pp. 53-57.
1274. inorganic phosphate, and pH. Plant Physiol., 73: 989-994.
1275. spinach leaves: the involvement of this enzyme and fructose bisphosphatase in the regulation of sucrose
1276. enrichment on photosynthesis and carbon partitioning in the leaves of tomato (Lycopersiconesculentum L.) plant
1277. is related to illumination and osmotic stress. Bot. Bull. Acad. Sin., 44: 257-265.
1278. Doehlert, D. and Huber, S. 1983. Regulation of spinach leaf sucrose phosphate synthase by glucose-6-phosphate,
1279. 1127-1128.
1280. sucrose biosynthesis. Plant Physiol., 73:428-433
1281. McMichael, R.W.Jr., M. Bachman, and S.C. Huber 1995. Spinach leaf sucrose-phosphate synthase and nitrate
1282. inorganic phosphate and pH. Plant Physiol., 73: 989-994.
1283. phosphorylation site in sucrose phosphate synthase. Arch. Biochem. Biophys., 307: 248-252
1284. Sicher,R., Kremer, D. and Harris, W. 1984. The diurnal carbohydrate metabolism of barley primary leaves. Plant

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