N-苯氧苯基取代的α-氨基酸衍生物的合成及生物活性

doi:10.3864/j.issn.0578-1752.2011.24.004

摘要/Abstract

摘要： 【目的】合成N-苯氧苯基取代的α-氨基酸衍生物，并测定化合物的生物活性及其在植物体内的传导性。【方法】通过氨基二苯醚类化合物分别与乙醛酸乙酯和丙酮酸乙酯缩合，形成2个希夫碱化合物（Ia-Ib），并经NaBH4还原，合成了5个N-苯氧苯基取代的α-氨基酸衍生物，以二苯醚类除草剂三氟羧草醚为对照药剂，测定化合物对水稻幼苗根、芽的室内生物活性；以空心莲子草为试验材料，以苯氧苯基甘氨酸乙酯（IIa）为试验药剂，喷雾处理空心莲子草后采用HPLC法测定该化合物在植株根中的含量来判断其传导性。【结果】化合物Ⅰa和Ⅱa对水稻幼苗的根、芽的生长均具有一定的抑制作用，化合物Ⅱb在低浓度下对水稻芽具有促进生长的作用，化合物Ⅱc和Ⅱd在低浓度下对水稻幼苗的根具有促进生长的作用；供试化合物在光照条件下的生物活性均比在黑暗条件下高；利用化合物Ⅱa 300 mg•L-1的药液喷雾处理空心莲子草地上部分12 h后，在其根部检测到目标化合物(IIa)含量为8.67 mg•kg-1 FW。【结论】二苯醚类化合物衍生出氨基酸基团后，所得衍生物既保留了二苯醚类除草剂的需光性除草活性特点，又增加了经由植物韧皮部向根部的传导性。

关键词: 二苯醚, 氨基酸衍生物, 合成, 生物活性, 传导性

Abstract: 【Objective】 The objective of this study is to synthesize N-phenoxy-phenyl α-amino acid derivatives and determine their biological activities and translocation in plant seedlings.【Method】By condensation reaction of the amino diphenyl ether and ethyl glyoxylate or ethyl pyruvate respectively, two schiff base compounds (Ia-Ib) were synthesized, and reduced by NaBH4, five kinds of compounds of N-phenoxy-phenyl α-amino acid derivatives were synthesized. Taking the acifuorfen as the comparison, the in vivo toxicities of the 7 kinds of compounds to the rice seedling root and bud were determined. The translocation of the N-phenoxy-phenyl glycine ethyl ester (IIa) in seedlings of Alternanthera philoxeroides (Mart.) was determined by detecting the concentration of the compound IIa in roots of seedlings with HPLC after the seedlings were sprayed with the compound IIa. 【Result】Compounds Ia and IIa had inhibitory effects on growth of roots and buds of the paddy rice seedlings. At low concentration, the compound IIb promoted the growth of the paddy rice seedling's buds and the compound IIc and IId promoted the growth of the paddy rice seedling's root. These compounds had higher bioactivities under illumination than under darkness. After the above-ground part of the Alternanthera philoxeroides was treated with 300 mg•L-1 compound IIa 12 h later, the compound IIa could be detected in the root part of Alternanthera philoxeroides with the content of 8.67 mg•kg-1 FW.【Conclusion】The N-phenoxy-phenyl α-amino acid derivatives could maintain the light-requiring herbicidal activities of diphenyl herbicides, as well as improve the phloem mobility in plant seedlings.

Key words: diphenyl ether, amino acid derivative, synthesis, biological activity, translocation

方祖凯, 王勇, 李俊凯, 杜铁钢, 兰腾芳. N-苯氧苯基取代的α-氨基酸衍生物的合成及生物活性[J]. 中国农业科学, 2011, 44(24): 4999-5005.

FANG Zu-Kai, WANG Yong, LI Jun-Kai, DU Tie-Gang, LAN Teng-Fang. Synthesis and Biological Activities of N-phenoxy-phenyl α-Amino Acid Derivatives[J]. Scientia Agricultura Sinica, 2011, 44(24): 4999-5005.

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参考文献

[1]钟决龙. 二苯醚类除草剂生产及大田应用现状. 农药, 2005, 44(5): 237-238.

Zhong J L. Application technology for diphengl ether herbicides. Chinese Journal of Pesticides, 2005, 44(5): 237-238. (in Chinese)

[2]刘长令. 二苯醚类除草剂的创制经纬. 农药, 2002, 41(12): 47.

Liu C L. The creation history of diphenyl ether hebicides. Pesticides, 2002, 41(2): 47. (in Chinese)

[3]周宇涵, 苗蔚荣, 程侣柏, 王大翔, 柏再苏. 原卟啉原氧化酶抑制剂类除草剂研究进展. 农药学学报, 2002, 4(1): 1-8.

Zhou Y H, Miao W R, Cheng L B, Wang D X, Bai Z S. Progress on protoporphyrinogen oxidase-inhibiting herbicides. Chinese Journal of Pesticide Science, 2002, 4(1): 1-8. (in Chinese)

[4]Satchivi N M, Stoller E W, Wax L M, Briskin D P. A nonlinear dynamic simulation model for xenobiotic transport and whole plant allocation following foliar application Ⅰ. Conceptual foundation for model development. Pesticide Biochemistry and Physiology, 2000, 68: 67-84.

[5]Satchivi N M, Stoller E W, Wax L M, Briskin D P. A nonlinear dynamic simulation model for xenobiotic transport and whole plant allocation following foliar application Ⅱ. Model validation. Pesticide Biochemistry and Physiology, 2000, 68: 85-95.

[6]Satchivi N M, Stoller E W, Wax L M, Briskin D P. A nonlinear dynamic simulation model for xenobiotic transport and whole plant allocation following foliar application Ⅲ. Influence of chemical properties, plant characteristics, and environmental parameters on xenobiotic absorption and translocation. Pesticide Biochemistry and Physiology, 2001, 71: 77-87.

[7]Satchivi N M, Stoller E W, Wax L M, Briskin D P. A nonlinear dynamic simulation model for xenobiotic transport and whole plant allocation following foliar application Ⅳ. Physicochemical properties requirements for optimum absorption and translocation. Pesticide Biochemistry and Physiology, 2006, 84: 83-97.

[8]Kleier D A. Phloem mobility of xenobiotics I. Mathematical model unifying the weak acid and intermediate permeability theories. Plant Physiology, 1988, 86: 803-810.

[9]Hsu F C, Kleier D A, Melander W R. Phloem mobility of xenobiotics II. Bioassay testing of the unified mathematical model. Plant Physiology, 1988, 86: 811-816.

[10]Hsu F C, Kleier D A. Phloem mobility of xenobiotics III. Sensitivity of unified model to plant parameters and application to patented chemical hybridizing agents. Weed Science, 1990, 38: 315-323.

[11]Kleier D A, Hsu F C. Phloem mobility of xenobiotics VII. The design of phloem systemic pesticides. Weed Science, 1996, 44: 749-756.

[12]Hsu F C, Kleier D A. Phloem mobility of xenobiotics VIII. A short review. Journal of Experimental Botany, 1996, 47: 1265-1271.

[13]李俊凯, 徐汉虹, 王勇. 杀菌剂在韧皮部的传导性研究进展. 世界农药, 2009, 31(1): 26-31.

Li ＪＫ, Xu H H, Wang Y. Review on the fungicide transportation in plant phloem. World Pesticides, 2009, 31(1): 26-31. (in Chinese)

[14]徐汉虹, 张志祥, 程东美, 张耀谋. 导向农药. 世界农药, 2004, 26(5): 3-9.

Xu H H, Zhang Z X, Cheng D M, Zhang Y M. Guided pesticides. World Pesticides, 2004, 26(5): 3-9. (in Chinese)

[15]徐汉虹, 张志祥, 査友贵. 中国植物性农药开发前景. 农药, 2003, 42(3): 1-10.

Xu H H, Zhang Z X, Zha Y G. The prospect of botanical pesticides in China. Pesticides, 2003, 42(3): 1-10. (in Chinese)

[16]Li J K, Xu H H, Tan T F, Yang J M. Mobility of the fungicide triadimenol in soybean seedlings mediated by auxin. Agricultural Science & Technology, 2008, 9(6): 78-81.

[17]Fischer W N, André B, Rentsch D, Krolkiewicz S, Tegeder M, Breitkreuz K, Frommer W B. Amino acid transport in plants. Trends in Plant Science, 1998, 3(5): 188-195.

[18]Saier, Jr M H. Families of transmembrane transporters selective for amino acids and their derivatives. Microbiology, 2000, 146: 1775-1795.

[19]Delétage-Grandon C, Chollet J F, Faucher M, Rocher F, Komor E, Bonnemain J L. Carrier-mediated uptake and phloem systemy of a 350-dalton chlorinated xenobiotic with an α-amino acid function. Plant Physiology, 2001, 125: 1620-1632.

[20]Chollet J F, Miginiac L, Rudelle J, Bonnemain J L. A convenient method of protection and mild deprotection of α-amino acid group for the synthesis of functional α-amino acids. Synthetic communications, 1993, 23(15): 2101-2111.

[21]Chollet J F, Delétage C, Faucher M, Miginiac L, Bonnemain J L. Synthesis and structure-activity relationship of some pesticides with an α-amino acid function. Biochimica et Biophysica Acta, 1997, 1336: 331-334.

[22]王凯云, 曹贵平. 4,4’-二氨基二苯醚的合成研究进展. 精细石油化工, 2005(3): 58-61.

Wang K Y, Cao G P. Research progress in synthesizing 4,4-diaminodiphenyl ether. Speciality Petrochemicals, 2005(3): 58-61. (in Chinese)

[23]宋涛, 宋志祥, 彭长征, 佘万能. 3,4’-二氨基二苯醚合成工艺的研究进展. 化工中间体, 2008(9): 65-68.

Song T, Song Z X, Peng C Z, She W N. Research progress in synthesizing 3,4-diaminodiphenyl ether. Chemical Intermediate, 2008(9): 65-68. (in Chinese)

[24]张园园, 罗仕忠, 詹妍, 侯若彤, 吴凯群, 王玉良. 2,3,5-三溴-4′-硝基-4,2′-双羟基二苯醚的合成及其抑菌活性研究. 化学研究与应用, 2007, 19(7): 820-822.

Zhang Y Y, Luo S Z, Zhan Y, Hou R T, Wu K Q, Wang Y L. Synthesis and antim icrobial activities of 2,3,5-tribromo-4′-nitro-4,2′-dihydroxy diphenyl ether. Chemical Research and Application, 2007, 19(7): 820-822. (in Chinese)

[25]宋小玲, 马波, 皇甫超河, 强胜. 除草剂生物测定方法. 杂草科学, 2004(3): 1-6.

Song X L, Ma B, Huangfu C H, Qiang S. Herbicide bioassay method. Weed Science, 2004(3): 1-6. (in Chinese)

[26]陈万义, 薛振祥, 王能武. 新农药的研究与开发. 北京: 化学工业出版社, 1996: 143-145.

Chen W Y, Xue Z X, Wang N W. New Pesticide Research and Development. Beijing: Chemical Industry Press, 1996: 143-145. (in Chinese)