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Full-Text Articles in Life Sciences
Preventing Chlorogenic Acid Quinone-Induced Greening In Sunflower Cookies By Chlorogenic Acid Esterase And Thiol-Based Dough Conditioners, Nana Baah Pepra-Ameyaw, Christine Lo Verde, Charles T. Drucker, Cedric P. Owens, Lilian W. Senger
Preventing Chlorogenic Acid Quinone-Induced Greening In Sunflower Cookies By Chlorogenic Acid Esterase And Thiol-Based Dough Conditioners, Nana Baah Pepra-Ameyaw, Christine Lo Verde, Charles T. Drucker, Cedric P. Owens, Lilian W. Senger
Food Science Faculty Articles and Research
Sunflower seeds contain a high concentration of chlorogenic acid (CGA), which reacts with amino acids to form green pigments under alkaline conditions during food processing. Here, we present two approaches to prevent green pigment formation in sunflower cookies by (A) Addition of free thiols from cysteine and glutathione to sunflower cookie dough and (B) hydrolyzing CGA into caffeic acid and quinic acid with a CGA esterase from Lactobacillus helveticus. Greening occurred more slowly with cysteine; however, neither cysteine nor glutathione prevented greening in the cookies during storage. Chlorogenic acid esterase hydrolyzed CGA in both sunflower butter and flour, resulting …
A Highly Active Esterase From Lactobacillus Helveticus Hydrolyzes Chlorogenic Acid In Sunflower Meal To Prevent Chlorogenic Acid Induced Greening In Sunflower Protein Isolates, Christine Lo Verde, Nana Baah Pepra-Ameyaw, Charles T. Drucker, Tracie L. S. Okumura, Katherine A. Lyon, Julia C. Muniz, Chloe S. Sermet, Lilian Were Senger, Cedric P. Owens
A Highly Active Esterase From Lactobacillus Helveticus Hydrolyzes Chlorogenic Acid In Sunflower Meal To Prevent Chlorogenic Acid Induced Greening In Sunflower Protein Isolates, Christine Lo Verde, Nana Baah Pepra-Ameyaw, Charles T. Drucker, Tracie L. S. Okumura, Katherine A. Lyon, Julia C. Muniz, Chloe S. Sermet, Lilian Were Senger, Cedric P. Owens
Food Science Faculty Articles and Research
Chlorogenic acid (CGA) is an ester between caffeic and quinic acid. It is found in many foods and reacts with free amino groups in proteins at alkaline pH, leading to the formation of an undesirable green pigment in sunflower seed-derived ingredients. This paper presents the biochemical characterization and application of a highly active chlorogenic acid esterase from Lactobacillus helveticus. The enzyme is one of the most active CGA esterases known to date with a Km of 0.090 mM and a kcat of 82.1 s−1. The CGA esterase is easily expressed recombinantly in E. coli in …