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EFFECTS OF PROCESSING ON THE CHEMISTRY AND ANTIOXIDANT CAPACITY OF ... PDF

221 Pages·2009·1.44 MB·English
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EFFECTS OF PROCESSING ON THE CHEMISTRY AND ANTIOXIDANT CAPACITY OF ENDOGENOUS BIOACTIVE COMPOUNDS IN PEANUT KERNELS AND SKINS by BRIAN DAVID CRAFT (Under the Direction of Ronald Bruce Pegg) ABSTRACT The overall aims of this work were to ascertain the primary phenolic constituents in peanut kernels and skins, and determine if there antioxidant content and capacities are conserved through industrial roasting processes. The first study conducted revealed that the predominant phenolic compounds in peanut kernels are free/bound p-coumaric acids, which are released from their ester or glycoside forms during thermal treatment. This observed increase in p-coumaric acid levels was affected both by peanut type and processing method. A Spanish high-oleic cultivar had the highest naturally occurring levels of free/bound p-coumaric acids and a high- oleic Runner yielded an increase of ~785% in free p-coumaric acid from raw to oil-roasted sample. The total phenolic contents and antioxidant capacities of processed peanut kernels from the 2007 crop were found to increase in a stepwise fashion from raw < dry-roast < oil-roast for nearly all phytochemical analyses performed. This suggests that although the chemistry of phenolic compounds in peanuts is changing through roasting, their antioxidant potency is preserved and sometimes increased. The second and third studies undertaken involved the chromatographic characterization of low- (LMW) and high-molecular-weight (HMW) phenolic fractions isolated from dry-blanched (DB) and dry-roasted (DR) peanut skins. Catechin, epicatechin, and p-coumaric acid esters were identified in the LMW fraction of DB peanut skins; whereas catechin, free p-coumaric and protocatechuic acids, and a protocatechuic acid ester were found in DR skins. Total phenolics and antioxidant capacities were similar for DB and DR skins. Some of the collected LMW fractions exhibited higher antioxidant capacities than their corresponding crude extracts; suggesting that LMW phenolics contribute to peanut skin’s total antioxidant capacity. Proanthocyanidin (PAC) analyses showed that DR peanut skin tannins have a higher degree of polymerization than DB skins. A greater incidence of PAC polymerization reactions may be a result of the higher temperatures involved in the dry-roasting process. All three studies indicated that processing is altering the chemistry of the phenolics in peanuts and peanut skins, but their antioxidant efficacy is retained for the consumer. INDEX WORDS: Peanuts, Peanut Skins, Peanut Industry, Peanut Processing, Roasting, Antioxidants, Phenolics, Proanthocyanidins EFFECTS OF PROCESSING ON THE CHEMISTRY AND ANTIOXIDANT CAPACITY OF ENDOGENOUS BIOACTIVE COMPOUNDS IN PEANUT KERNELS AND SKINS by BRIAN DAVID CRAFT B.S., University of Florida, 2005 A Dissertation Submitted to the Graduate Faculty of the University of Georgia in Partial Fulfillment of the Requirements for the Degree DOCTORATE OF PHILOSOPHY ATHENS, GEORGIA 2009 © 2009 Brian David Craft All Rights Reserved EFFECTS OF PROCESSING ON THE CHEMISTRY AND ANTIOXIDANT CAPACITY OF ENDOGENOUS BIOACTIVE COMPOUNDS IN PEANUT KERNELS AND SKINS by BRIAN DAVID CRAFT Major Professor: Ronald B. Pegg Committee: Ronald R. Eitenmiller Phillip Greenspan William L. Kerr Robert L. Shewfelt Electronic Version Approved: Maureen Grasso Dean of the Graduate School The University of Georgia August 2009 DEDICATION This work is dedicated to my loving parents, David and Janet Craft, to whom I owe my undying gratitude. Also, to my beautiful puppy Kane (“Bubba”), who taught me patience and selfless love in his lifetime. iv ACKNOWLEDGEMENTS First off, I would like to thank my advisor Dr. Ronald B. Pegg for his constant guidance and support in this endeavor. I would also like to thank my committee members Dr. Robert L. Shewfelt, Dr. Ronald R. Eitenmiller, Dr. William L. Kerr, and Dr. Phillip Greenspan for tutoring and looking after me during my term at the University of Georgia. I would like to acknowledge Prof. Dr. Ryszard Amarowicz and his technician Agnieszka Kosińska of the Division of Food Science, Institute of Animal Reproduction and Food Research of the Polish Academy of Sciences, Olsztyn, Poland for their technical assistance. Lastly, I would like to thank my loving family and friends for standing by me, through the good times and bad. Sincerely, Brian D. Craft v TABLE OF CONTENTS Page ACKNOWLEDGEMENTS.............................................................................................................v LIST OF TABLES.......................................................................................................................viii LIST OF FIGURES.......................................................................................................................ix CHAPTER 1 INTRODUCTION.........................................................................................................1 1.1 Peanuts and Human Health.............................................................................1 1.2 U.S. Peanut Production...................................................................................2 1.3 Significance of Peanut Skins..........................................................................2 1.4 Phenolic Antioxidants in Peanut Kernels.......................................................3 1.5 The Effects of Processing on Peanut Antioxidants.........................................3 1.6 Polyphenolic Antioxidants in Processed Peanut Skins...................................4 1.7 Peanut Sample Set...........................................................................................4 1.8 The Goals of the Work....................................................................................5 2 LITERATURE REVIEW............................................................................................13 2.1 Reactive Oxygen Species (ROS) and the Human Body...............................13 2.2 Oxidation, Antioxidation, and Reduction.....................................................15 2.3 Phenolic and Polyphenolic Antioxidants......................................................19 2.4 Free Radical Theory: Basis for Quantification of Antioxidant Capacity.....24 2.5 In Vitro Antioxidant-Screening Methods of Critical Importance.................38 vi 2.6 Phenolic Source Under Examination: The Peanut (Arachis hypogaea L.)...51 3 PHENOLIC PROFILES AND ANTIOXIDANT/RADICAL-SCAVENGING CAPACITIES OF RAW, DRY-ROASTED, AND OIL-ROASTED PEANUTS FROM 2005 TO 2007 CROP YEARS......................................................................110 3.1 Introduction.................................................................................................112 3.2 Materials and Methods................................................................................113 3.3 Results and Discussion...............................................................................121 4 PHENOLIC PROFILES OF PROCESSED PEANUT SKINS: ANTIOXIDANT, RADICAL-SCAVENGING, AND BIOLOGICAL ACTIVITIES...........................141 4.1 Introduction.................................................................................................143 4.2 Materials and Methods................................................................................145 4.3 Results and Discussion...............................................................................151 5 CHROMATOGRAPHIC ISOLATION OF PHENOLIC ACIDS AND PROANTHOCYANIDINS FROM DRY-BLANCHED AND DRY-ROASTED PEANUT SKINS.......................................................................................................172 5.1 Introduction.................................................................................................174 5.2 Materials and Methods................................................................................176 5.3 Results and Discussion...............................................................................184 6 SUMMARY AND CONCLUSIONS........................................................................203 INDEX.........................................................................................................................................204 vii LIST OF TABLES Page Table 3.1: Peanut kernel sample set (n = 15)..........................................................................131 total Table 3.2: Lipid content and extraction (80% [v/v] methanol) yield of raw and processed peanut kernels from 2005 to 2006 crop years.........................................................................131 Table 3.3: Effects of processing on the quantity of free p-coumaric acid and p-coumaric derivatives in different peanut kernel types/cultivars from the 2006 crop..................132 Table 3.4: Total phenolic content (TPC) of raw and processed peanut kernels from 2005 to 2006 crop years....................................................................................................................133 Table 3.5: Oxygen radical absorbance capacity (ORAC -hydrophilic) of raw and processed FL peanut kernels from 2005 to 2006 crop years.............................................................134 Table 3.6: Photochemiluminescence (PCL -hydrophilic) of raw and processed peanut kernels ACW from 2005 to 2006 crop years......................................................................................135 Table 3.7: Trolox equivalent antioxidant capacity (TEAC) of raw and processed peanut kernels from 2005 to 2006 crop years......................................................................................136 Table 4.1: TPC and TEAC of crude extracts (80% [v/v] acetone) and LMW fractions from dry- blanched (DB) and dry-roasted (DR) peanut skins.....................................................163 Table 5.1: TPC, ORAC , and TEAC of crude extracts (80% [v/v] acetone) and HMW tannin FL fractions from dry-blanched (DB) and dry-roasted (DR) peanut skins.......................194 viii

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acid levels was affected both by peanut type and processing method. Some of the collected LMW fractions exhibited higher antioxidant capacities phenolic profiles of raw and roasted peanuts were determined by modern from samples via pH alteration and the use of organic solvent extraction.
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