Laurie A. Marinac scite author profile

Laurie A. Marinac

3Publications

101Citation Statements Received

63Citation Statements Given

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Affiliations

Agricultural Research Service, University of Wisconsin–Madison, United States Department of Agriculture

Publications

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Quantitative Study of the Formation of Endoproteolytic Activities during Malting and Their Stabilities to Kilning

Jones

Marinac

Fontanini

2000

J. Agric. Food Chem.

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The proteinases of germinating barley (Hordeum vulgare L.) hydrolyze storage proteins into amino acids and small peptides that can be used by the growing plant or, during brewing, by yeast. They are critical for the malting and brewing processes because several aspects of brewing are affected by the amounts of protein, peptide, and amino acids that are in the wort. This study was carried out to quantitatively measure when endoproteinases form in green malt and whether they are inactivated at the high temperatures that occur during malt kilning. Little endoproteolytic activity was present in ungerminated barley, but the activities began forming 1 day into the "germination" phase of malting, and they were nearly maximal by the third germination day. Quantitative studies with azogelatin "in solution" assays showed that the green malt endoproteolytic activities were not inactivated under commercial kilning conditions that use temperatures as high as 85 degrees C but that some actually increased during the final kilning step. Qualitative (2-D, IEF x PAGE) analyses, which allow the study of individual proteases, showed that some of the enzymes were affected by heating at 68 and 85 degrees C, during the final stages of kilning. These changes obviously did not, however, decrease the overall proteolytic activity.

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Purification, Identification, and Partial Characterization of a Barley Protein that Inhibits Green Malt Endoproteinases

Jones

Marinac

1997

Journal of the American Society of Brewing Chemists

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Purification and Partial Characterization of a Second Cysteine Proteinase Inhibitor from Ungerminated Barley (Hordeum vulgare L.)

Jones

Marinac

1999

J. Agric. Food Chem.

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It was previously shown that ungerminated barley contains inhibitors that suppress the activities of green malt cysteine proteinases. This paper reports the purification and partial characterization of a second barley cysteine endoproteinase inhibitor, a protein called lipid transfer protein 2 (LTP2). The chromatographically purified inhibitor had a molecular mass of 7112. The amino acid composition and sequence data of the purified inhibitor indicated that it was a protein whose gene, but not the protein itself, was isolated earlier from barley aleurone tissue. The purified protein inhibited the activities of electrophoretically separated green malt cysteine proteinases but not the activities of the serine- or metalloproteinases. The purified LTP2 inhibited the same proteases as the LTP1 that was characterized previously but was present in the mature seed in much smaller amounts. Neither LTP1 nor LTP2 has been proven to transport lipids in vivo, and it seems possible that both serve to keep cysteine endoproteinases that are synthesized during barley seed development inactive until the plant needs them. The small amount of LTP2 in the seed made it impossible to determine whether it, like LTP1, is involved in beer foam formation. Because of its proteinase-inhibiting ability and its resistance to heat inactivation, some of the LTP2 may persist in beer.

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Laurie A. Marinac

Quantitative Study of the Formation of Endoproteolytic Activities during Malting and Their Stabilities to Kilning

Purification, Identification, and Partial Characterization of a Barley Protein that Inhibits Green Malt Endoproteinases

Purification and Partial Characterization of a Second Cysteine Proteinase Inhibitor from Ungerminated Barley (Hordeum vulgare L.)

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