Chinese Agricultural Science Bulletin ›› 2007, Vol. 23 ›› Issue (7): 318-318.
• 目次 • Previous Articles Next Articles
Shao Huifang, Hu Yajie, Jiao Guizhen, Wu Jun
Online:
2007-07-05
Published:
2007-07-05
CLC Number:
Shao Huifang, Hu Yajie, Jiao Guizhen, Wu Jun. The Kinds and Physiological Function of Invertase and Effects on Tobacco Quality[J]. Chinese Agricultural Science Bulletin, 2007, 23(7): 318-318.
[1] Sturm A. Invertases:primary structures,functions and roles in plant development and sucrose partitioning. Plant Physiol, 1999,l2l:l-7. [2] Isla MI, Vattuone MA, Ordonez RM, et a1. Invertase activity associated with the walls of Solanum tuberosum tubers. Phytochemistry, 1999,50:525-534. [3] 吕英民,张大鹏,严海燕.苹果果实韧皮部及其周围薄壁细胞的超微结构观察和功能分析.植物学报,2000,42:32-42. [4] Zhang DP, Lu YM, Wang YZ, et a1.Acid invertase is predominantly localized to cell walls of both partically symplasmically isolated sieve element/companion cell complex and parenchyma cells in developing apple fruits.Plant Cell Environ,2001,24:69l-702. [5] Miller EM, Chourey PS. The maize invertase—deficient miniature-l seed mutant is associated with aberrant pedicel and endosperm development. Plant Cell, 1992,4:297-305. [6] Hedley PE, Maddison AL, Davison D, et a1. Differential expression of invertase genes in internal and external phloem tissues of potato. J Exp Bot, 2000,51:817-82l. [7] Weil M , Rausch T. Cell wall invertase in tobacco crown gall cells:enzyme properties and regulation by auxin. Plant Physiol, l990,94:l575-l581. [8] Roitsch T, Tanner W. Cell wall invertase:bridging the gap. Hot Acta, 1996,109:93-96. [9] Klann EM, Hall Bradford, Bennett AB. Antisense acid invertase(TIV1)gene alters soluble sugar composition and size in transgenic tomato fruit. Plant Physio1,1996,112:1321-1330. [10] Bachelier C, Granam J, Manoir J du, et a1. Integration of all invertase gene to control sucrose metabolism in strawberry cultivars. 4cta Horticul, 1997,439:161-163. [11 Sturm A, Tang GQ. The sucrose-cleaving enzymes of plants are crucial for development,growth and carbon partitioning. Trends in PlantSci(Reviews), 1999,4:401-407. [12] Huber SC. Biochemical mechanism for regulation of sucrose accumulation in leaves during phtotsynthesis. Plant Physiol, 1989,91:656-626. [13] Foyer CH. The basis for source-sink interaction in leaves. Plant Physiol Biochem, 1987,25:649-659. [14] Pfeiffer I, Kutschera U. Sucrose Metabolism and Cell elongation in Developing Sunfloner Hypocotyls. J Exp Bot,1995,46:631-638. [15] Sturm A, Chrispeels MJ. cDNA cloning of carrot extracellular β-fructosidase and its expression in response to wounding and bacterial infection. Plant Cell, l990,2:ll07-1ll9. [16] Benhamou N, Genier J, Chrispeels MJ. Accumulation ofβ-fructosidase in the cell walls of tomato roots following infection by a fungi wilt pathogen. Plant Physio1, 1991,97:739-750. [17] 刘慧英,朱祝军.转化酶在高等植物蔗糖代谢中的作用研究进展.植物学通报,2002,19(6):666-674. [18] Estruch J J, Beltran J P. Changes in invertase activities precede ovary growth induced by gibberelic acid in pisum sativum. Physiol Plant, 1991,81:319-326. [19] 张西仲,徐晓燕,黄义德.烤烟醇化过程中主要化合物的变化及其与烟叶品质的关系.安徽农业科学,2006,34(16):4016-4017. [20] 孙海林,孟冬玲,朱海军,等.高效液相色谱法测定烟草中的四种糖[J].光谱实验室,2005,22(1):140-141. [21] 刘百战,徐玉田,孙哲建,等.加料前后烟草中游离及糖苷结合态香味成分的分析研究[J],中国烟草学报,1998,4(1):1-8. [22] 陈范骏,曹敏建,陈艳茹.玉米对氮素营养利用的遗传差异及其生理机制[J].沈阳农业大学学报,1998,29(4):314-318. [23] 李潮海,刘奎,连艳鲜.玉米碳氮代谢研究进展[J].河南农业大学学报,2000,4(34):318-323. [24] 刘卫群,张新要,李天福,等.饼肥用量对烤烟叶片蔗糖代谢相关酶和碳水化合物代谢的影响[J].烟草科技,2003(11):37-40. [25] 唐湘如,官春云.作物产量和品质的碳氮及脂肪代谢调控的研究进展[J].湖南农业大学学报,1997,23(1):93-102. [26] 李玉潜,谢九生,谭中文.甘蔗叶片碳、氮代谢与产量、品质关系研究初探[J].中国农业科学,1995,28(4):46-51. [27] 刘卫群,张联合,刘建利.烤烟生长发育过程中叶片Inv活性变化初探[J].河南农业大学学报,2002,36(1):15-17. [28] 史宏志.烤烟碳氮代谢及其与烟叶品质关系的研究[D].长沙:湖南农业大学,1998:29-31. [29] 李建伟,郑少清,石俊雄,等.不同氮素形态组合对烟叶硝酸还原酶和酸性转化酶的影响.耕作与栽培,2003,2:51-52. [30] 时向东,顾会战,汪文杰,等.调制过程中温度对雪茄外包皮烟叶碳水化合物动态变化的影响.河南农业大学学报,2006,2(40):133-136. [31] 章启发.施肥技术对上部烟叶使用价值的影响[J].中国烟草科学,1999,(4):16-18. [32] 宫长荣,李巍,司辉,等.下部烟叶采收时间对上部叶生理生化变化及烤后质量的影响.烟草科技/栽培与调制,2003,(9):36-41. [33] 周冀衡,朱小平,王彦亭,等.烟草生理与生物化学.合肥:中国科学技术大学出版社,1996:464. [34] 金闻博,戴亚主编.烟草化学.北京:清华大学出版社,1993:124. [35] 韩锦峰,朱大恒,杨素勤,等.不同陈化时期烤烟几种酶活性及相关化学成分的分析.中国烟草科学,1999,20(1):1-2. [36] 朱大恒,陈锐,陈再根,等.烤烟自然醇化与人工发酵过程中微生物变化及其与酶活性关系的研究.中国烟草学报,2001,7(2):26-30. [37] 宫长荣,刘东洋.烤烟烟叶内几种酶活性变化及对化学成分的影响.中国烟草科学,2003(1):1-2. |
[1] | HOU Jianlin, LI Sijun, HE Mingyu, XIAO Hanqian, XIANG Tiejun, HUANG Jie, LI Wujin, XIAO Yansong, JIANG Zhimin, XU Junhua, DENG Xiaohua. Effects of Different Fertilization Modes on the Growth, Dry Matter Accumulation, Yield and Quality of Paddy-tobacco [J]. Chinese Agricultural Science Bulletin, 2022, 38(33): 39-43. |
[2] | WANG Yuemin, KE Yuqin, XIE Rongrong, LI Chunying, LI Wenqing. Effects of Spraying Microelement-fertilizer on Physiological Metabolism of Tobacco Plant at Mature Stage Under Localized Fertilization [J]. Chinese Agricultural Science Bulletin, 2022, 38(31): 24-30. |
[3] | CHEN Jianfeng, ZHAO Wenjun, FU Libo, YIN Mei, WANG Zhiyuan, WANG Wei, WANG Yingxue, YANG Yanxian, CHEN Hua. Influence of Fertilization System of Nutrient Critical Value for Optimum Yield of Tobacco on Yield and Quality of Flue-cured Tobacco in Yuxi [J]. Chinese Agricultural Science Bulletin, 2022, 38(28): 1-6. |
[4] | ZHAO Wenjun, XUE Kaizheng, YANG Jizhou, HU Baowen, FU Libo, YIN Mei, CHEN Jianfeng, WANG Wei, WANG Zhiyuan, WANG Yingxue, LI Yanrun, CHEN Hua. Green Manure Rotation in Tobacco Field: Effects on the Yield and Quality of Flue-cured Tobacco [J]. Chinese Agricultural Science Bulletin, 2022, 38(25): 8-15. |
[5] | DONG Shiliang, ZHAN Siwen, HE Jiewang, QIU Tong, ZHANG Xueqiong, LIU Fengfeng. Quality Classification of Flue-cured Tobacco Based on HPLC Fingerprint Technique [J]. Chinese Agricultural Science Bulletin, 2022, 38(25): 151-157. |
[6] | SUN Jiping, LI Xuejun, SUN Huan. Response of Signal Molecules and CAT Activities to Aphid in Resistant and Susceptible Tobacco Varieties [J]. Chinese Agricultural Science Bulletin, 2022, 38(25): 120-124. |
[7] | WANG Zheng, LIU Jiuyu, KAN Hongwei, HUANG Shaoli, LI Zhi, DONG Shuchao, LIU Yangxu, LI Xiaoting, YANG Xiaobin, LI Xiancai. Effects of Nitrogen Application on Root Morphology and Leaf Quality of ‘Hongda’ Flue-cured Tobacco [J]. Chinese Agricultural Science Bulletin, 2022, 38(25): 1-7. |
[8] | ZHANG Yanyan, DAI Chen, ZHAO Baiying, LIU Meng, ZHANG Benqiang, WU Bo, GAO Yang, ZHANG Qiang. Correlation Between Chemical Compositions and Sensory Quality of Flue-cured Tobacco in Hilly Ecological Region of Yimeng [J]. Chinese Agricultural Science Bulletin, 2022, 38(22): 145-150. |
[9] | WANG Jun, TIAN Junling, LIU Lan, ZONG Zhaohui, FAN Miaomiao, LUO Fuming. Effects of Different Fertilization Levels on Dry Matter and Nutrient Accumulation and Distribution in Flue-cured Tobacco [J]. Chinese Agricultural Science Bulletin, 2022, 38(22): 8-14. |
[10] | FENG Changqing, WEI Xiaoling, HUANG Yunxia, XU Shichang, QIU Fuxiang, WU Ti, ZHENG Yingjie, LI Wenqing, HE Huaqin. The Physiological Basis of Magnesium Recovering Tobacco Plants from High Temperature and Strong Light Stress [J]. Chinese Agricultural Science Bulletin, 2022, 38(20): 53-60. |
[11] | ZHOU Dong, ZHANG Yan, LV Jun, ZHANG Jiankui, DENG Kexuan, ZONG Xuefeng, DAI Xiumei. Aroma Substances of Flue-cured Tobacco ‘Yujinxiang No.1’ [J]. Chinese Agricultural Science Bulletin, 2022, 38(19): 146-151. |
[12] | ZHONG Qiu, LIU Tao, WU Junqian, CHEN Yong, XU Hao, YI Kai, FAN Dan. The Impact of Cooperative Membership on the Economic Benefits of Cigar Leaf Cultivation: A Case of Shifang in Sichuan Province [J]. Chinese Agricultural Science Bulletin, 2022, 38(17): 134-142. |
[13] | WU Ti, WEI Xiaoling, FENG Changqing, HUANG Yunxia, XU Shichang, QIU Fuxiang, ZHENG Yingjie, LI Wenqing, HE Huaqin. Identification and Expression Analysis of MRS2/MGT Gene Family in Tobacco [J]. Chinese Agricultural Science Bulletin, 2022, 38(16): 18-26. |
[14] | LI Yunxia, LI Lei, LI Sijun, ZHENG Weiwei, ZENG Bei. A New Flue-cured Tobacco Strain ‘HN2146’: Effects of Cultivation Measures on Agronomic Characters and Yield [J]. Chinese Agricultural Science Bulletin, 2022, 38(16): 13-17. |
[15] | LIU Jiuyu, WANG Zheng, WANG Zhushi, LI Faping, KAN Hongwei, LI Zhi, DENG Yong, XU Maohua. Effects of Water-retaining Agent on Soil Physical Properties and Enzyme Activities, and Yield and Quality of Flue-cured Tobacco Under Different Mulching Measures [J]. Chinese Agricultural Science Bulletin, 2022, 38(10): 78-84. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||