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iTRAQ-based quantitative proteomics analysis of an immature high-oleic acid near-isogenic line of rapeseed

  • Published:2017-12-03 Issue:1 Volume:38 Page:
  • ISSN:1380-3743
  • Container-title:Molecular Breeding
  • language:en
  • Short-container-title:Mol Breeding

Author:

Wang Yue,Yang Qian,Xiao Gang,Zhang Zhenqian,Guan Chunyun,Liu Zhongsong,Guan Mei,Wu Xianmeng,Chen Hao,Li Qin

Funder

Natural Science Foundation of China

the National Basic Research Program of China

Important National Science/Technology Specific Projects of Hunan Province

the National Key Technology Research and Development Program

the Crop Science Foundation of Hunan Agricultural University

Publisher

Springer Science and Business Media LLC

Subject

Plant Science,Genetics,Agronomy and Crop Science,Molecular Biology,Biotechnology

Reference65 articles.

1. Allman-Farinelli MA, Gomes K, Favaloro EJ, Petocz P (2005) A diet rich in high-oleic-acid sunflower oil favorably alters low-density lipoprotein cholesterol, triglycerides, and factor VII coagulant activity. J Am Diet Assoc 105(7):1071–1079. https://doi.org/10.1016/j.jada.2005.04.008

2. Banilas G, Moressis A, Nikoloudakis N, Hatzopoulos P (2005) Spatial and temporal expressions of two distinct oleate desaturases from olive (Olea europaea L.) Plant Sci 168(2):547–555. https://doi.org/10.1016/j.plantsci.2004.09.026

3. Bradford MM (1976) A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem 72(1-2):248–254. https://doi.org/10.1016/0003-2697(76)90527-3

4. Casado-Vela J, Martinez-Esteso MJ, Rodriguez E, Borras E, Elortza F, Bru-Martinez R (2010) iTRAQ-based quantitative analysis of protein mixtures with large fold change and dynamic range. Proteomics 10(2):343–347. https://doi.org/10.1002/pmic.200900509

5. Chalhoub B, Denoeud F, Liu S, Parkin IA, Tang H, Wang X, Chiquet J, Belcram H, Tong C, Samans B, Correa M, Da Silva C, Just J, Falentin C, Koh CS, Le Clainche I, Bernard M, Bento P, Noel B, Labadie K, Alberti A, Charles M, Arnaud D, Guo H, Daviaud C, Alamery S, Jabbari K, Zhao M, Edger PP, Chelaifa H, Tack D, Lassalle G, Mestiri I, Schnel N, Le Paslier MC, Fan G, Renault V, Bayer PE, Golicz AA, Manoli S, Lee TH, Thi VH, Chalabi S, Hu Q, Fan C, Tollenaere R, Lu Y, Battail C, Shen J, Sidebottom CH, Wang X, Canaguier A, Chauveau A, Berard A, Deniot G, Guan M, Liu Z, Sun F, Lim YP, Lyons E, Town CD, Bancroft I, Wang X, Meng J, Ma J, Pires JC, King GJ, Brunel D, Delourme R, Renard M, Aury JM, Adams KL, Batley J, Snowdon RJ, Tost J, Edwards D, Zhou Y, Hua W, Sharpe AG, Paterson AH, Guan C, Wincker P (2014) Plant genetics. Early allopolyploid evolution in the post-Neolithic Brassica napus oilseed genome. Science 345(6199):950–953. https://doi.org/10.1126/science.1253435
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