Crops ›› 2017, Vol. 33 ›› Issue (1): 140-143.doi: 10.16035/j.issn.1001-7283.2017.01.025

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Effects of Acid Stress on Microtuberization and Some Glycometabolism of Potato in Vitro Plantlets

Teng Yue1,Gao Yuliang2,Zhang Yan1,Jin Meiyu1,Li Kuihua1   

  1. 1Agricultural College of Yanbian University,Yanji 133002,Jilin,China
    2Yanbian Agricultural Sciences Academy,Longjing 133400,Jilin,China
  • Received:2016-11-02 Revised:2016-12-19 Online:2017-02-15 Published:2018-08-26

Abstract:

The transfer of in-vitro potato plantlets in pH 3 solution to the MS medium containing 30g/L sucrose which was against formation potato tuber was conducted to induce the microtuber and evaluate the contents of sucrose and starch potato plantlets as well as the changes in sucrose synthetase (SS), soluble starch synthetase (SSS) and ADP-glucose pyrophosphorylase (AGPase) activity during the induction. Results indicated that a short induction time and the highest number of potato microtubers occurred from potato plantlets under stress, however untreated plantlets failed to induce tubers.For microtuber formation after pH 3 stress for 1d, microtuberization starts at the 13th day in MS medium, and the number of microtubers for a single plantlet was 2.2 and the mean weight of microtuber was 187.8mg. No significant change was found in sucrose content, but SS, SSS, and AGPase activities increased significantly in leaves during acid stress treatment. SS activity decreased and increased alternately,SSS activity decreased and then increased at 0-5d, but later tended to stabilize. AGPase activity in leaves of induced microtuber tended to increase and then decrease but later increased in leaves of plantlet with acid stress during inducing microtuber.

Key words: Potato, Microtuber, Acid stress, Glycometabolism

Table 1

Influences of acid stress (pH=3) time on induction of potato microtuber"

胁迫天数(d)
Days of stress
结薯始期(d)
Days of microtuber initiation
单株结薯数
No.of microtuber per plantlet
单薯重(mg)
Weight of microtuber
单株出芽量
No.of shoot per plantlet
1 13 2.2a 187.8a 2.6c
2 15 1.3b 131.3b 3.8b
3 15 1.1c 124.6c 3.6b
0 (CK) - - - 5.4a

Fig.1

Changes in plant sucrose content and SS activity for potato plantlets Different capital and small letters indicate significant differences at the 0.05 level among induction days under the same treatment,the same below"

Fig.2

Changes of starch content,SSS activity and AGPase activity for potato plantlets"

[1] 刘尚前, 王晓春, 栗占芳 , 等. 马铃薯试管薯形成的影响因素研究. 西北农业学报, 2007,16(5):109-112.
[2] 蒋从莲, 郭华春 . 不同外源激素和培养温度对马铃薯试管薯形成的影响. 云南农业大学学报, 2007,22(6):824-828.
[3] 鄢铮, 郭德章 . 苗龄及光照对诱导马铃薯微型薯的影响. 中国马铃薯, 2004,18(4):205-206.
[4] 李婉琳, 郭华春, 彭丽 , 等. 蔗糖浓度及苗龄对马铃薯新品种‘丽薯6号’试管薯诱导的效果.中国马铃薯, 2013(2):72-76.
[5] 霍凤兰, 栾清业, 尹玉花 . 蔗糖浓度和光照对马铃薯试管薯诱导的影响.甘肃农业科技, 2009(11):3-5.
[6] Hyunsoon K, Jaeheung J, Kyunghwa C , et al. Regulation of starch contents in potato (Solanum tuberosum L.) by manipulation of sucrose synthase gene. Journal of the Japanese Society for Horticulture, 2000,69(3):243-249.
doi: 10.2503/jjshs.69.243
[7] 张昌伟, 侯喜林, 袁建玉 , 等. 不同外源激素对马铃薯试管薯形成的影响. 江西农业大学学报, 2005,27(1):72-76.
[8] 曾述荣, 付文进, 对三汗 , 等. 植物生长调节剂及诱导方式对马铃薯试管薯的影响. 广东农业科学, 2012,39(15):3-5.
[9] 金建钧, 刘志文 . 植物激素对马铃薯试管苗的影响及微型薯高效形成条件分析.作物杂志, 2011(2):20-24.
[10] 张志良, 瞿伟菁 . 植物生理学实验指导.北京: 高等教育出版社, 2009: 106.
[11] 陈鹰, 乐俊明, 丁映 . 酸水解-DNS法测定马铃薯中淀粉含量. 种子, 2009,28(9):109-110.
[12] Raíces M, Ulloa R M, MacIntosh G C, et al. StCDPK1 is expressed in potato stolon tips and is induced by high sucrose concentration. Journal of Experimental Botany, 2003,54(392):2589-2591.
doi: 10.1093/jxb/erg282
[13] Jefferson R, Goldsbrough A, Bevan M . Transcriptional regulation of a patatin-1 gene in potato. Plant Molecular Biology, 1990,14(6):995-1006.
doi: 10.1007/BF00019396
[14] Prat S, Frommer W B, Hofgen R . Gene expression during tuber development in potato plants. Febs Letters, 1990,268(2):234-338.
[15] 胡云海, 蒋先明 . 氮源对马铃薯微型薯的影响.中国马铃薯, 1991(4):199-203.
[16] 徐云姬, 张伟杨, 钱希旸 , 等. 施氮量对小麦籽粒灌浆的影响及其生理机制. 麦类作物学报, 2015,35(8):1119-1126.
[17] 刘维智, 贾宏昉, 尹贵宁 , 等. 缺氮及氮素形态对烟草幼苗糖代谢的影响机理初探. 西北植物学报, 2014,34(3):530-535.
[18] Kim S H, Mizuno K, Sawada S , et al. Regulation of tuber formation and ADP-glucose pyrophosphorylase (AGPase) in sweet potato (Ipomoea batatas (L.) Lam.) by nitrate. Plant Growth Regulation, 2002,37(3):207-213.
doi: 10.1023/A:1020844418776
[19] 张智猛, 戴良香, 胡昌浩 , 等. 氮素对玉米淀粉累积及相关酶活性的影响. 作物学报, 2005,31(7):956-962.
[20] 杨琳昱, 岳洪泉, 王士华 . 防止土壤酸化影响作物吸收大量元素.新农业, 2014(1):42-43.
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