黑龙江省大豆籽粒异黄酮含量生态差异

doi:10.3724/SP.J.1006.2009.00711

作物学报 ›› 2009, Vol. 35 ›› Issue (4): 711-717.doi: 10.3724/SP.J.1006.2009.00711

黑龙江省大豆籽粒异黄酮含量生态差异

张大勇，李文滨

东北农业大学大豆研究所，黑龙江哈尔滨150030

收稿日期:2008-08-18 修回日期:2008-12-13 出版日期:2009-04-12 网络出版日期:2009-02-16
通讯作者: 张大勇
基金资助:
本研究由国家科技支撑计划（2006BAD01A04）和黑龙江“十一五”科技攻关项目（GA06B101-1-3）资助。

Ecologic Difference of Isoflavones Content in Soybean Seeds in Heilongjiang Province

ZHANG Da-Yong,LI Wen-Bin

Soybean Research Institute,Northeast Agricultural University,Harbin 150030,China

Received:2008-08-18 Revised:2008-12-13 Published:2009-04-12 Published online:2009-02-16
Contact: ZHANG Da-Yong

摘要/Abstract

摘要：

大豆异黄酮由于其特有的生理保健功能而受到日益广泛的关注。为了明确黑龙江省大豆籽粒异黄酮含量的生态差异规律, 2005选定5个生态条件差异明显的试验点及4个大豆品种进行试验。结果表明, 年份、地点、基因型及基因型×环境互作对大豆籽粒异黄酮总含量及3种酸解处理后所得苷元的含量具有显著效应。2006年的大豆异黄酮总含量及3种苷元组分含量的平均值显著高于其他2年；大豆籽粒异黄酮含量不同基因型间及不同地点间均差异显著，大豆籽粒异黄酮总含量及其3种酸解后所得苷元含量与纬度呈极显著正相关。据此认为，大豆籽粒异黄酮含量在黑龙江省存在优势生产区, 对大豆籽粒异黄酮含量进行品质区划是可行的。

关键词: 大豆籽粒, 异黄酮, 基因型, 生态环境, 黑龙江

Abstract:

Isoflavones in soybean is paid widely and extensively attention due to its function in physical health care. As important secondary metabolic compounds in soybean seeds, isoflavones content have been reported to be easily impacted by environment. To survey the difference of isoflavones content in soybean seeds in different environment in Heilongjiang, which is main area to plant soybean in China, four cultivars were planted at five locations from 2005 to 2007. There were significant difference in total and individual isoflavones contents among years, locations, genotypes and genotypes × locations. The mean contents of total isoflavones and individual hydrolyzing isoflavones were significantly higher in 2006 than those in the other two years. And, total and individual isoflavone contents were significantly positively correlated with latitude of the locations at the 0.01 probability levels. As a whole, there are predominant production regions for isoflavones of soybean seeds in Heilongjiang province, so it was feasible to categorize the production regions based on soybean isoflavone in Heilongjiang province.

Key words: Soybean seeds, Isoflavones, Genotype, Ecological environment, Heilongjiang

张大勇，李文滨. 黑龙江省大豆籽粒异黄酮含量生态差异[J]. 作物学报, 2009, 35(4): 711-717.

ZHANG Da-Yong,LI Wen-Bin. Ecologic Difference of Isoflavones Content in Soybean Seeds in Heilongjiang Province[J]. Acta Agron Sin, 2009, 35(4): 711-717.

参考文献

[1] Walz E. Isoflavone and saponin-glucoside in soja hispida. Ann Chem, 1931, 489: 118–155
[2] Kosslak R M, Bookland R, Barkei T. Induction of Bradyrhizobium japonicum common nod genes by isoflavones isblated from Glycine max. Proc Natl Acad Sci USA, 1987, 84: 7428–7432
[3] Graham T L, Kim J E, Graham M Y. Role of constitutive isoflavone conjugates in the accumulation of glyceollin in soybean infected with Phytophthora megasperma. Mol Plant Microbe Interact, 1990, 3: 157–166
[4] Kenis B. The preparation of isoflavones specimen and the clinical utilization of cancer resistance. Soybean Digest, 1993, (9): 26–29
[5] Carrao-Panizzi M C, Kitamura K. Isoflavone content in Brazilian soybean cultivars. Breed Sci, 1995, 45: 295–300
[6] Sun J-M(孙军明), Ding A-L(丁安林), Chang R-Z(常汝镇), Dong H-R(东惠茹). Primary analyse of isoflavones contents in Chinese soybean cultivars. J Chin Cereals Oils Assoc (中国粮油学报), 1995, 10(4): 51–54 (in Chinese with English abstract)
[7] Eldridge A, Kwolek W. Soybean isoflavones: Effect of the environment and variety on composition. Agric Food Chem, 1983, 31: 394–396
[8] Wang H J, Murphy P A. Isoflavone composition of American and Japanese soybean in Iowa: Effects of variety, crop year, and location. Agric Food Chem, 1994, 42: 1674–1677
[9] Hoeck J A, Fehr W R, Murphy P A, Welke G A. Influence of genotype and environment on isoflavone contents of soybean. Crop Sci, 2000, 40: 48–51
[10] Sun J-M(孙君明), Ding A-L(丁安林), Shen L-M(沈黎明). Effects of geographical conditions on the accumulation of isoflavones in soybean seeds. Soybean Sci (大豆科学), 1997, 16(2): 298–303 (in Chinese with English abstract)
[11] Tsukamoto C, Shimada S, Igita K. Factors isoflavone content in soybean seeds: Changes in isoflavones, saponins, and composition of fatty acids at different temperatures during seed development. J Agric Food Chem, 1996, 43: 1184–1192
[12] Kitamura K, Igita K, Kikuchi A. Low isoflavone content in some early maturing cultivars so-called “Summer type soybean”
[Giycine max (L.) Merrill]. Jpn J Breed, 1991, 41: 651–654
[13] Li W-D(李卫东), Liang H-Z(梁慧珍), Lu W-G(卢为国), Wang S-F(王树峰), Yang Q-C(杨青春), Yang C-Y(杨彩云), Liu Y F(刘亚非). Effects of eco-physiological factors on isoflavone contents in soybean seeds. Sci Agric Sin (中国农业科学), 2004, 37(10): 1458–1463 (in Chinese with English abstract)
[14] Zhang X-B(张晓波), Wu Y(吴岩), Lin H(林红). Study on method of hydrolyze isoflavone in soybean by HPLC. Cereals Oils (粮食与油脂), 2006, (4): 19–21 (in Chinese with English abstract)
[15] Ju X-R(鞠兴荣), Yuan J(袁建), Wang H-F(汪海峰). Determination of isoflavone in extract of soybean by HPLC. J Chin Cereals Oils Assoc (中国粮油学报), 2000, 15(4): 26–29 (in Chinese with English abstract)
[16] Sun J-M(孙君明), Ding A-L(丁安林), Chang R-Z(常汝镇). Qualitative-quantitative analysis for inheritance of isoflavone content in soybean seed. Soybean Sci (大豆科学), 1998, 17(4): 305–310(in Chinese with English abstract)
[17] Liang H-Z(梁慧珍), Li W-D(李卫东), Cao Y-N(曹颖妮), Wang H(王辉). Genetic effects analysis of isoflavone content in soybean seed. Acta Agron Sin (作物学报), 2006, 32(6): 856–860 (in Chinese with English abstract)
[18] Sun J-M(孙君明), Ding A-L(丁安林), Chang R-Z(常汝镇). Genetie analysis on isoflavone content in soybean seeds. Sci Agric Sin (中国农业科学), 2002, 35(1): 16–21 (in Chinese with English abstract)

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黑龙江省大豆籽粒异黄酮含量生态差异

Ecologic Difference of Isoflavones Content in Soybean Seeds in Heilongjiang Province

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