J AR-13324 clinical trial proteome Res 2010,9(10):5262–5269.PubMedCrossRef 5. Konecna H, Muller L, Dosoudilova H, Potesil D, Bursikova J, Sedo O, Marova I, Zdrahal Z: Exploration of beer proteome using OFFGEL prefractionation in combination with two-dimensional gel electrophoresis with narrow pH range gradients. J Agr Food Chem 2012,60(10):2418–2426.CrossRef 6. Iimure T, Nankaku N, Kihara M, Yamada S, Sato K: Proteome analysis of the wort boiling process. Food Res Int 2012,45(1):262–271.CrossRef 7. Lindorff-Larsen K, Winther JR: Surprisingly high stability of barley lipid transfer

protein, LTP1, towards denaturant, heat and proteases. this website Febs Lett 2001,488(3):145–148.PubMedCrossRef 8. Perrocheau L, Rogniaux H, Boivin P, Marion D: Probing

heat-stable water-soluble proteins from barley to malt and beer. Proteomics 2005,5(11):2849–2858.PubMedCrossRef 9. Evans DE, Sheehan MC: Don’t be fobbed off: The substance of beer foam – A review. J Am Soc Brew Chem 2002,60(2):47–57.CrossRef 10. Evans DE, Hejgaard J: The impact of malt derived proteins on beer foam quality. Part I. The effect of germination and kilning on the level of protein Z4, protein Z7 and LTP1. J I Brewing 1999,105(3):159–169.CrossRef 11. Steiner E, Gastl M, Becker T: Protein changes during malting and brewing with focus on haze and foam formation: a review. Eur Food Res LCZ696 in vitro Technol 2011,232(2):191–204.CrossRef 12. Stanislava G: A Review: The role of barley seed pathogenesis-related proteins (PRs) in beer production. J I Brewing 2010,116(2):111–124.CrossRef 13. Iimure T, Nankaku N, Watanabe-Sugimoto M, Hirota N, Zhou TS, Kihara M, Hayashi K, Ito K, Sato K: Identification of novel haze-active beer proteins by proteome analysis. J Cereal Sci 2009,49(1):141–147.CrossRef 14. Okada Y, Limure T, Takoi K, Kaneko T, Kihara M, Hayashi K, Ito K, Sato K, Takeda K: The influence of barley malt protein modification on beer foam stability and their relationship to the barley dimeric alpha-amylase inhibitor-1 (BDAI-1) as a possible foam-promoting protein. J Agr Food Chem 2008,56(4):1458–1464.CrossRef

15. Picariello G, Bonomi F, Iametti S, Rasmussen P, Pepe C, Lilla S, Ferranti P: Proteomic and peptidomic characterisation of beer: Immunological and technological implications. Food Chem 2011,124(4):1718–1726.CrossRef 16. Jin B, Li L, Feng ZC, Li B, Liu GQ, Zhu YK: Investigation of hordeins during brewing Paclitaxel datasheet and their influence on beer haze by proteome analysis. J Food Biochem 2011,35(5):1522–1527.CrossRef 17. Iimure T, Nankaku N, Hirota N, Zhou TS, Hoki T, Kihara M, Hayashi K, Ito K, Sato K: Construction of a novel beer proteome map and its use in beer quality control. Food Chem 2010,118(3):566–574.CrossRef 18. Jacobsen S, Yang F, Jorgensen AD, Li HW, Sondergaard I, Finnie C, Svensson B, Jiang D, Wollenweber B: Implications of high-temperature events and water deficits on protein profiles in wheat ( Triticum aestivum L . cv. Vinjett) grain.