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Acta Agron Sin ›› 2017, Vol. 43 ›› Issue (07): 947-953.doi: 10.3724/SP.J.1006.2017.00947
• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Next Articles
XIAO Yong-Gui1,Susanne DREISIGACKER2,Claudia NUÑEZ-RíOS2,HU Wei-Guo3,XIA Xian-Chun1,HE Zhong-Hu1,4,*
| [1] Bhat S, Curach N, Mostyn T, Bains G S, Griffiths K R, Emslie K R. Comparison of methods for accurate quantification of DNA mass concentration with traceability to the international system of units. Anal Chem, 2010, 82: 7185–7192 [2] 聂晓静, 赵筱萍, 王毅. 基于荧光图像的抗肿瘤细胞迁移药物筛选方法. 药学学报, 2011, 46: 793–797 Nie X J, Zhao X P, Wang Y. Development of fluorescence imaging based assay for screening compounds with anti-migration activity. Acta Pharm Sin, 2011, 46: 793?797 (in Chinese with English abstract) [3] 王宇, 刘景晶. 核酸的定量技术研究进展. 药学进展, 2006, 30: 385?390 Wang Y, Liu J J. Recent advances in research on quantification of nucleic acids. Prog Pharmac Sci, 2006, 30: 385?390 (in Chinese with English abstract) [4] Lyu Z Z, Liu J C, Zhou Y, Guan Z, Yang S M, Li C, Chen A L. Highly sensitive fluorescent detection of small molecules, ions, and proteins using a universal label-free aptasensor. Chem Commun (Camb), 2013, 49: 5465–5467 [5] Rengarajan K, Cristol S M, Mehta M, Nickerson J M. Quantifying DNA concentrations using fluorometry: a comparison of fluorophores. Mol Vis, 2002, 8: 416–421 [6] Lucena-Aguilar G, Sánchez-López A M, Barberán-Aceituno C, Carrillo-ávila J A, López-Guerrero J A, Aguilar-Quesada R. DNA source selection for downstream applications based on DNA quality indicators analysis. Biopreserv Biobank, 2016, 14: 264–270 [7] Haque K A, Pfeiffer R M, Beerman M B, Struewing J P, Chanock S J, Bergen A W. Performance of high-throughput DNA quantification methods. BMC Biotechnol, 2003, 3: 20 [8] Georgiou C D, Papapostolou I. Assay for the quantification of intact/fragmented genomic DNA. Anal Biochem, 2006, 358: 247–256 [9] Marie D, Vaulot D, Partensky F. Application of the novel nucleic acid dyes YOYO-1, YO-PRO-1 and PicoGreen for flow cytometric analysis of marine prokaryotes. Appl Environ Microb, 1996, 62: 1649?1655 [10] 桂海娈, 金庆日, 张亚军, 王晓杜, 杨永春, 邵春艳, 程昌勇, 卫芳芳, 杨扬, 杨梦华, 宋厚辉. 基于荧光染料PicoGreen 和核酸适配体的伏马毒素B1检测方法. 生物工程学报, 2015, 31: 1393–1400 Gui H L, Jin Q R, Zhang Y Z, Wang X D, Yang Y C, Shao C Y, Cheng C Y, Wei F F, Yang Y, Yang M H, Song H H. Development of an aptamer/fluorescence dye PicoGreen-based method for detection of fumonisin B1. Chin J Biotechnol, 2015, 31: 1393–1400 (in Chinese with English abstract) [11] 曾国平, 向东山, 何治柯. 基于Hoechst33258荧光染料检测单链DNA的方法研究. 化学学报, 2011, 69: 1450?1456 Zeng G P, Xiang D S, He Z K. Fluorimetric method for the determination of sequence-specific DNA with the fluorescent dye Hoechst 33258. Acta Chim Sin, 2011, 69: 1450–1456 (in Chinese with English abstract) [12] Mago R, Verlin D, Zhang P, Bansal U, Bariana H, Jin Y, Ellis J, Hoxha S, Dundas I. Development of wheat–Aegilops speltoides recombinants and simple PCR-based markers for Sr32 and a new stem rust resistance gene on the 2S#1 chromosome. Theor Appl Genet, 2013, 126: 2943–2955 [13] Mago R, Bariana H S, Dundas I S, Spielmeyer W, Lawrence G L, Prior A J, Ellis J G. Development of PCR markers for the selection of wheat stem rust resistance genes Sr24 and Sr26 in diverse wheat germplasm. Theor Appl Genet, 2005, 111: 496–504 [14] Zhang X, Han D, Zeng Q, Duan Y, Yuan F, Shi J, Wang Q, Wu J, Huang L, Kang Z. Fine mapping of wheat stripe rust resistance gene Yr26 based on collinearity of wheat with Brachypodium distachyon and rice. PLoS One, 2013, 8: e57885 [15] Huang H, Shi S, Gao X, Gao R, Zhu Y, Wu X, Zang R, Yao T. A universal label-free fluorescent aptasensor based on Ru complex and quantum dots for adenosine, dopamine and 17 β-estradiol detection. Biosens Bioelectron, 2016, 79: 198?204 [16] Leung K, He B, Yang C, Leung C H, Wang H D, Ma D. Development of an aptamer-based sensing platform for metal ions, proteins, and small molecules through terminal deoxynucleotidyl transferase induced G-Quadruplex formation. ACS Appl Mater Interfaces, 2015, 7: 24046–24052 [17] Lisanti S, Omar W A W, Tomaszewski B, De Prins S, Jacobs G, Koppen G, Mathers J C, Langie S A S. Comparison of methods for quantification of global DNA methylation in human cells and tissues. PLoS One, 2013, 8: e79044 [18] Fraga M F, Uriol E, Borja D L, Berdasco M, Esteller M, Ca?al M J, Rodriguez R. High-performance capillary electrophoretic method for the quantification of 5-methyl 2’-deoxycytidine in genomic DNA: application to plant, animal and human cancer tissues. Electrophoresis, 2002, 23: 1677–1681 [19] Karimi M, Johansson S, Stach D, Corcoran M, Grander D, Schalling M, Bakalkin G, Lyko F, Larsson C, Ekstr?m T J. LUMA (LUminometric Methylation Assay): a high throughput method to the analysis of genomic DNA methylation. Exp Cell Res, 2006, 312: 1989–1995 [20] Kuo K C, McCune R A, Gehrke C W, Midgett R, Ehrlich M. Quantitative reversed-phase high performance liquid chromatographic determination of major and modified deoxyribonucleosides in DNA. Nucl Acids Res, 1980, 8: 4763–4776 [21] Burns M J, Nixon G J, Foy C A, Harris N. Standardization of data from real-time quantitative PCR methods-evaluation of outliers and comparison of calibration curves. BMC Biotechnol, 2005, 5: 31 [22] Wilfinger W W, Mackey K, Chomczynski P. Effect of pH and ionic strength on the spectrophotometric assessment of nucleic acid purity. Biotechniques, 1997, 22: 474–481 [23] Sedlackova T, Repiska G, Celec P, Szemes T, Minank G. Fragmentation of DNA affects the accuracy of the DNA quantitation by the commonly used methods. Biol Proced Online, 2013, 15: 5 [24] Hollegaard M V, Grove J, Grauholm J, Kreiner-M?ller E, B?nnelykke K, N?rgaard M, Benfield T L, N?rgaard-Pedersen B, Mortensen P B, Mors O, S?rensen H T, Harboe Z B, B?rglum A D, Demontis D, ?rntoft T F, Bisgaard H, Hougaard D M. Robustness of genome-wide scanning using archived dried blood spot samples as a DNA source. BMC Genet, 2011, 12: 58 |
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