建立了水稻中半胱氨酸(Cys)、谷胱甘肽(GSH)和植物螯合肽(phytochelatin,PC:PC2、PC3、PC4、PC5、PC6)7种巯基化合物的柱前衍生高效液相色谱-荧光检测分析方法。样品经0.1%三氟乙酸( TFA)(含6.3 mmol/L 二乙烯三胺五乙酸(DTPA))超声提取,然后以单溴二胺(mBrB)为衍生剂在 pH 8.0的4-羟乙基哌嗪丙磺酸(HEP-PS)缓冲溶液中衍生化。采用的色谱分离柱为 Agilent Eclipse plus Cl8柱,流动相为0.1%TFA(pH 2.5)和100%乙腈( ACN),梯度洗脱,流速为0.8 mL/min。荧光检测的激发波长和发射波长分别为380 nm 和470 nm。结果表明,7种巯基化合物在0.7~100.0 mg/L范围内,峰面积与质量浓度之间的线性关系良好( r2≥0.9991);检出限为0.03~0.20 mg/L;加标回收率为89.26%~99.42%,相对标准偏差为2.05%~5.87%。该方法准确、灵敏度高、重现性好,为水稻中巯基化合物的研究提供了检测手段。
A high performance liquid chromatographic method with fluorescence detection and pre-column derivatization( HPLC-FLD)has been developed for the determination of seven bio-thiols including Cys,GSH,and phytochelatins( PCs:PC2,PC3,PC4,PC5 and PC6)in rice. The samples were ultrasonically extracted with 0. 1% trifluoroacetic acid( TFA)containing 6. 3 mmol/L diethylenetriaminepentaacetic acid( DTPA),and then the seven biothiols were derivat-ized with monobromobimane( mBrB ) as derivatization agent in 4-( 2-hydroxyethyl )-1-pipera-zine propanesulfonic acid( HEPPS)buffer solution( pH 8. 0). The separation was performed on an Agilent Eclipse Plus C18 column(50 mm×4. 6 mm,5 μm)with gradient elution of 0. 1%TFA solution(the pH value was adjusted to 2. 5 with hydrochloric acid)and acetonitrile as mobile phases at a flow rate of 0. 8 mL/min. The detection was performed at 380 nm for excitation and 470 nm for emission. The calibration curves of the seven biothiols showed good linearity in the concentration range of 0. 7-100. 0 mg/L with the correlation coefficients( r2)≥0. 999 1. The limits of detection were 0. 03-0. 20 mg/L. The recoveries of standard addition were in the range of 89. 26%-99. 42% with the relative standard deviations( RSDs,n=6)of 2. 05%-5. 87%. The method is sensitive,accurate,reproducible and suitable for the simultaneous determination of Cys,GSH,PC2,PC3,PC4,PC5 and PC6 in rice.
参考文献
| [1] | Li A M,Li D H,Deng Q Y,et al. Plant Physiology Journal (李安明,李德华,邓青云,等. 植物生理学报),2011,47 (1):27,2011. |
| [2] | Schmöger M E V,Oven M,Grill E. Plant Physiol,2000, 122:793,2000. |
| [3] | Lee S,Moon J S,Ko T S,et al. Plant Physiol,2003,131:656,2003. |
| [4] | Wu F B,Zhang G P. Chinese Journal of Applied Ecology(邬飞波,张国平. 应用生态学报),2003,14(4):632,2003. |
| [5] | Feng B M,Ma M. Chinese Journal of Applied and Environ-mental Biology(冯保民,麻密. 应用与环境生物学报), 2003,9(4):657,2003. |
| [6] | Cai B S,Lei M,Chen T B,et al. Acta Ecologica Sinica(蔡保松,雷梅,陈同斌,等. 生态学报),2003,23(10):2125,2003. |
| [7] | Guo X F,Zhu H,Wang H,et al. J Sep Sci,2013,36:658,2013. |
| [8] | Figueira E,Freitas R,Guasch H,et al. Ecotoxicology, 2014,23:285,2014. |
| [9] | Tang D G,Wen L S,Santschi P H. Anal Chim Acta,2000, 408:299,2000. |
| [10] | Sun Y C,Xu X Z,Xu Y L,et al. Chinese Journal of Chro-matography(孙言春,许宪祝,徐衍岭,等. 色谱),2013, 31(3):275,2013. |
| [11] | Li H L,Zhao C X,Zhang J J,et al. Chinese Journal of Chromatography(李好丽,赵春霞,张俊杰,等. 色谱), 2013,31(12):1182,2013. |
| [12] | Xu Q Q,Guo X S,Xiao K Y,et al. Environ Sci Pollut Res, 2014,21:8315,2014. |
| [13] | Mendoza-Còzatl D G,Butko E,Springer F,et al. Plant J, 2008,54:249,2008. |
| [14] | Qiu B Y,Zeng F R,Cai S G,et al. J Plant Physiol,2013, 170:772,2013. |
| [15] | Batista B L,Nigar M,Mestrot A,et al. J Exp Bot,2014, 65(6):1467,2014. |
| [16] | Nakamura M,Ochiai T,Noji M,et al. Plant Biotechnol, 2014,31:141,2014. |
| [17] | Isokawa M,Funatsu T,Tsunode M. Analyst,2013,138:3802,2013. |
| [18] | Böhmer A,Jordan J,Tsikas D. Anal Biochem,2011,410:296,2011. |
| [19] | Li P,Ge Y,Wu L H,et al. Chinese Journal of Rice Science (李鹏,葛滢,吴龙华,等. 中国水稻科学),2011,25(3):291,2011. |
| [20] | Sneller F E C,van Heerwaarden L M,Koevoets P L M, et al. J Agric Food Chem,2000,48:4014,2000. |
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