Resistant Starch
Sources, Applications and Health Benefits
Herausgegeben von Shi, Yong-Cheng; Maningat, Clodualdo C.
Resistant Starch
Sources, Applications and Health Benefits
Herausgegeben von Shi, Yong-Cheng; Maningat, Clodualdo C.
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The discovery of resistant starch is considered one of the major developments in our understanding of the importance of carbohydrates for health in the past twenty years. Resistant starch, which is resistant to digestion and absorption in the human small intestine with complete or partial fermentation in the large intestine, is naturally present in foods.
Resistant Starch: Sources, Applications and Health Benefits covers the intrinsic and extrinsic sources of resistant starch in foods, and compares different methods of measuring resistant starch and their strengths and limitations.…mehr
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Resistant Starch: Sources, Applications and Health Benefits covers the intrinsic and extrinsic sources of resistant starch in foods, and compares different methods of measuring resistant starch and their strengths and limitations. Applications in different food categories are fully covered, with descriptions of how resistant starch performs in bakery, dairy, snack, breakfast cereals, pasta, noodles, confectionery, meat, processed food and beverage products.
- Produktdetails
- Institute of Food Technologists Series
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 312
- Erscheinungstermin: 11. November 2013
- Englisch
- Abmessung: 236mm x 152mm x 18mm
- Gewicht: 1054g
- ISBN-13: 9780813809519
- ISBN-10: 0813809517
- Artikelnr.: 39712430
- Institute of Food Technologists Series
- Verlag: Wiley & Sons
- 1. Auflage
- Seitenzahl: 312
- Erscheinungstermin: 11. November 2013
- Englisch
- Abmessung: 236mm x 152mm x 18mm
- Gewicht: 1054g
- ISBN-13: 9780813809519
- ISBN-10: 0813809517
- Artikelnr.: 39712430
Acknowledgements xxv 1 Starch Biosynthesis in Relation to Resistant Starch
1 Geetika Ahuja, Sarita Jaiswal and Ravindra N. Chibbar 1.1 Introduction 1
1.1.1 Starch components 1 1.1.2 Resistant starch 2 1.2 Factors Affecting
Starch Digestibility 3 1.3 Starch Biosynthesis 4 1.4 Starch Biosynthesis in
Relation to RS 6 1.4.1 ADP-glucose pyrophosphorylase (AGPase) 6 1.4.2
Starch synthases (SS) 6 1.4.3 Starch branching enzymes (SBE) 11 1.4.4
Starch debranching enzymes (DBE) 13 1.5 Concluding Remarks 13
Acknowledgements 15 References 15 2 Type 2 Resistant Starch in High-Amylose
Maize Starch and its Development 23 Hongxin Jiang and Jay-lin Jane 2.1
Introduction 23 2.2 RS Formation in High-Amylose Maize Starch 28 2.3 RS
Formation During Kernel Development 29 2.4 Elongated Starch Granules of
High-Amylose Maize Starch 31 2.4.1 Structures of elongated starch granules
31 2.4.2 Formation of elongated starch granules 33 2.4.3 Location of RS in
the starch granule 35 2.5 Roles of High-Amylose Modifier (HAM) Gene in
Maize ae-Mutant 36 2.6 Conclusions 37 References 38 3 RS4-Type Resistant
Starch: Chemistry, Functionality and Health Benefits 43 Clodualdo C.
Maningat and Paul A. Seib 3.1 Introduction 43 3.2 Historical Account of
Starch Indigestibility 44 3.3 Starch Modification Yielding Increased
Resistance to Enzyme Digestibility 47 3.3.1 Cross-linked RS4 starches 50
3.3.2 Substituted RS4 starches 54 3.3.3 Pyrodextrinized RS4 Starches 56 3.4
Physicochemical Properties Affecting Functionality 57 3.5 Physiological
Responses and Health Benefits 60 3.6 Performance in Food and Beverage
Products 65 3.7 Conclusions and Future Perspectives 68 References 68 4
Novel Applications of Amylose-Lipid Complex as Resistant Starch Type 5 79
Jovin Hasjim, Yongfeng Ai and Jay-lin Jane 4.1 Introduction 79 4.2 Enzyme
Digestibility of Amylose-Lipid Complex 80 4.2.1 Effects of lipid structure
on the enzyme resistance of amylose-lipid complex 81 4.2.2 Effects of the
crystalline structure on the enzyme resistance of amylose-lipid complex 82
4.2.3 Effects of amylose-lipid complex on the enzyme resistance of granular
starch 82 4.3 Production of Resistant Granular Starch Through Starch-Lipid
Complex Formation 83 4.3.1 Effects of fatty-acid structure on the RS
content 83 4.3.2 Effects of debranching on the RS content 85 4.4
Applications of the RS Type 5 86 4.5 Health Benefits of RS Type 5 87 4.5.1
Glycemic and insulinemic control 87 4.5.2 Colon cancer prevention 89 4.6
Conclusion 91 References 92 5 Digestion Resistant Carbohydrates 95 Annette
Evans 5.1 Introduction 95 5.2 Starch Digestion 95 5.3 Physical Structures
of Starch 97 5.3.1 Starch helices 98 5.3.2 Crystalline structures 99 5.3.3
Starch granule structure 99 5.4 Resistant Starch due to Physical Structure
100 5.5 Molecular Structure of Starch 102 5.6 Enzyme Resistance due to
Molecular Structure 103 5.7 Conclusion 106 References 106 6 Slowly
Digestible Starch and Health Benefits 111 Genyi Zhang and Bruce R. Hamaker
6.1 Introduction 111 6.2 SDS and Potential Beneficial Health Effects 112
6.2.1 Potential health benefit of SDS relative to RDS 113 6.3 The Process
of Starch Digestion 115 6.3.1 Enzyme action 115 6.4 Structural and
Physiological Fundamentals of SDS 116 6.4.1 Physical or food matrix
structures related to SDS 117 6.4.2 Starch chemical structures leading to
SDS 118 6.4.3 Other food factors that decrease digestion rate 120 6.4.4
Physiological control of food motility 121 6.5 Application-Oriented
Strategies to Make SDS 121 6.5.1 Starch-based ingredients 121 6.5.2 SDS
generation in a food matrix 122 6.6 Considerations 123 References 123 7
Measurement of Resistant Starch and Incorporation of Resistant Starch into
Dietary Fibre Measurements 131 Barry V. McCleary 7.1 Introduction 131 7.2
Development of AOAC Official Method 2002.02 133 7.3 Development of an
Integrated Procedure for the Measurement of Total Dietary Fibre 136
References 142 8 In Vitro Enzymatic Testing Method and Digestion Mechanism
of Cross-linked Wheat Starch 145 Radhiah Shukri, Paul A. Seib, Clodualdo C.
Maningat, and Yong-Cheng Shi 8.1 Introduction 145 8.2 Materials and Methods
148 8.2.1 Materials 148 8.2.2 General methods 148 8.2.3 Conversion of CL
wheat starch to phosphodextrins and 31PNMR spectra of the phosphodextrins
148 8.2.4 Digestibility of CL wheat starch 149 8.2.5 Thermal properties 150
8.2.6 Microscopic observation 150 8.2.7 Scanning electron microscope (SEM)
150 8.2.8 Statistical analysis 150 8.3 Results and Discussion 151 8.3.1
Effects of a-amylase/amyloglucosidase digestion on P content and chemical
forms of the phosphate esters on starch 151 8.3.2 Thermal properties 152
8.3.3 Starch granular morphology before and after enzyme digestion 153
8.3.4 Digestibility 160 8.4 Conclusions 162 8.5 Acknowledgements 163 8.6
Abbreviations Used in This Chapter 163 References 163 9 Biscuit Baking and
Extruded Snack Applications of Type III Resistant Starch 167 Lynn Haynes,
Jeanny Zimeri and Vijay Arora 9.1 Introduction 167 9.2 Thermal
Characteristics of Heat-Shear Stable Resistant Starch Type III Ingredient
168 9.3 Application to Biscuit Baking: Cookies 172 9.4 Cracker Baking 175
9.5 Extruded Cereal Application 178 9.5.1 Preparation of extruded RTE
cereal and analysis 179 References 189 10 Role of Carbohydrates in the
Prevention of Type 2 Diabetes 191 Thomas M.S. Wolever 10.1 Introduction 191
10.2 Background 191 10.2.1 Definition of diabetes 191 10.2.2 Types of
diabetes 192 10.2.3 Complications of diabetes 192 10.2.4 Prevalence of
diabetes 192 10.2.5 Risk factors for type 2 diabetes 193 10.3 Carbohydrates
and Risk of Type 2 Diabetes 193 10.3.1 Markers of carbohydrate quality 193
10.4 Pathogenesis of Type 2 Diabetes 195 10.5 Effect of Altering Source or
Amount of Dietary Carbohydrate on Insulin Sensitivity, Insulin Secretion
and Disposition Index 197 10.6 Mechanisms by Which Low-GI Foods Improve
Beta-Cell Function 199 10.6.1 Glucose toxicity 199 10.6.2 Reduced serum
free fatty acids (FFA) 200 10.6.3 Increased GLP-1 secretion 201 10.7
Conclusions 202 References 202 11 Resistant Starch on Glycemia and Satiety
in Humans 207 Mark D. Haub 11.1 Introduction 207 11.2 Diet and Resistant
Starch 208 11.3 Resistant Starch and Insulin Sensitivity 209 11.4 Current
Theoretical Mechanism 209 11.5 Satiety 211 11.6 Fermentation and Gut
Microbiota 212 11.7 Effect of RS Type 212 11.8 Summary 213 References 213
12 The Acute Effects of Resistant Starch on Appetite and Satiety 215
Caroline L. Bodinham and M. Denise Robertson 12.1 Appetite Regulation 215
12.2 Measurement of Appetite in Humans 216 12.3 Proposed Mechanisms for an
Effect of Resistant Starch on Appetite 217 12.4 Rodent Data 218 12.5 Human
Data 221 References 225 13 Metabolic Effects of Resistant Starch 229
Martine Champ 13.1 Fermentation of RS and Its Impact on Colonic Metabolism
230 13.2 Resistant Starch, Glycemia, Insulinaemia and Glucose Tolerance 235
13.3 RS Consumption and Lipid Metabolism 236 13.4 RS Consumption, GIP,
GLP-1 and PYY Secretion 238 13.5 RS Consumption, Satiety and Satiation and
Fat Deposition 239 13.6 Conclusion 242 References 244 14 The Microbiology
of Resistant Starch Fermentation in the Human Large Intestine: A Host of
Unanswered Questions 251 Harry J. Flint 14.1 Introduction 251 14.2
Identifying the Major Degraders of Resistant Starch in the Human GI Tract
252 14.2.1 The human colonic microbiota 252 14.2.2 Cultural studies 252
14.2.3 16S rRNA-based studies 253 14.3 Systems for Starch Utilization in
Gut Bacteria 254 14.3.1 Bacteroides spp. 255 14.3.2 Bifidobacterium spp.
255 14.3.3 Lachnospiraceae - Roseburia spp., Eubacterium rectale and
relatives 256 14.3.4 Ruminococcaceae 256 14.4 Metagenomics 256 14.5 Factors
Influencing Competition for Starch as a Growth Substrate 257 14.6
Metabolite Cross-Feeding 258 14.7 Impact of Dietary Resistant Starch upon
Colonic Bacteria and Bacterial Metabolites in Humans 259 14.8 Conclusions
and Future Prospects 260 Acknowledgements 262 References 262 15 Colon
Health and Resistant Starch: Human Studies and Animal Models 267 Suzanne
Hendrich, Diane F. Birt, Li Li and Yinsheng Zhao 15.1 RS Classification 267
15.2 RS and Colon Health: Overview 267 15.3 RS, Gut Microbes and Microbial
Fermentation 268 15.3.1 RS and laxation 269 15.3.2 RS, IBS and
diverticulosis 270 15.3.3 RS and IBD 270 15.3.4 RS and colon cancer risk -
human studies 271 15.4 Colon Cancer Prevention - Animal Models 272 15.5
Conclusions 275 References 275 Index 279
Acknowledgements xxv 1 Starch Biosynthesis in Relation to Resistant Starch
1 Geetika Ahuja, Sarita Jaiswal and Ravindra N. Chibbar 1.1 Introduction 1
1.1.1 Starch components 1 1.1.2 Resistant starch 2 1.2 Factors Affecting
Starch Digestibility 3 1.3 Starch Biosynthesis 4 1.4 Starch Biosynthesis in
Relation to RS 6 1.4.1 ADP-glucose pyrophosphorylase (AGPase) 6 1.4.2
Starch synthases (SS) 6 1.4.3 Starch branching enzymes (SBE) 11 1.4.4
Starch debranching enzymes (DBE) 13 1.5 Concluding Remarks 13
Acknowledgements 15 References 15 2 Type 2 Resistant Starch in High-Amylose
Maize Starch and its Development 23 Hongxin Jiang and Jay-lin Jane 2.1
Introduction 23 2.2 RS Formation in High-Amylose Maize Starch 28 2.3 RS
Formation During Kernel Development 29 2.4 Elongated Starch Granules of
High-Amylose Maize Starch 31 2.4.1 Structures of elongated starch granules
31 2.4.2 Formation of elongated starch granules 33 2.4.3 Location of RS in
the starch granule 35 2.5 Roles of High-Amylose Modifier (HAM) Gene in
Maize ae-Mutant 36 2.6 Conclusions 37 References 38 3 RS4-Type Resistant
Starch: Chemistry, Functionality and Health Benefits 43 Clodualdo C.
Maningat and Paul A. Seib 3.1 Introduction 43 3.2 Historical Account of
Starch Indigestibility 44 3.3 Starch Modification Yielding Increased
Resistance to Enzyme Digestibility 47 3.3.1 Cross-linked RS4 starches 50
3.3.2 Substituted RS4 starches 54 3.3.3 Pyrodextrinized RS4 Starches 56 3.4
Physicochemical Properties Affecting Functionality 57 3.5 Physiological
Responses and Health Benefits 60 3.6 Performance in Food and Beverage
Products 65 3.7 Conclusions and Future Perspectives 68 References 68 4
Novel Applications of Amylose-Lipid Complex as Resistant Starch Type 5 79
Jovin Hasjim, Yongfeng Ai and Jay-lin Jane 4.1 Introduction 79 4.2 Enzyme
Digestibility of Amylose-Lipid Complex 80 4.2.1 Effects of lipid structure
on the enzyme resistance of amylose-lipid complex 81 4.2.2 Effects of the
crystalline structure on the enzyme resistance of amylose-lipid complex 82
4.2.3 Effects of amylose-lipid complex on the enzyme resistance of granular
starch 82 4.3 Production of Resistant Granular Starch Through Starch-Lipid
Complex Formation 83 4.3.1 Effects of fatty-acid structure on the RS
content 83 4.3.2 Effects of debranching on the RS content 85 4.4
Applications of the RS Type 5 86 4.5 Health Benefits of RS Type 5 87 4.5.1
Glycemic and insulinemic control 87 4.5.2 Colon cancer prevention 89 4.6
Conclusion 91 References 92 5 Digestion Resistant Carbohydrates 95 Annette
Evans 5.1 Introduction 95 5.2 Starch Digestion 95 5.3 Physical Structures
of Starch 97 5.3.1 Starch helices 98 5.3.2 Crystalline structures 99 5.3.3
Starch granule structure 99 5.4 Resistant Starch due to Physical Structure
100 5.5 Molecular Structure of Starch 102 5.6 Enzyme Resistance due to
Molecular Structure 103 5.7 Conclusion 106 References 106 6 Slowly
Digestible Starch and Health Benefits 111 Genyi Zhang and Bruce R. Hamaker
6.1 Introduction 111 6.2 SDS and Potential Beneficial Health Effects 112
6.2.1 Potential health benefit of SDS relative to RDS 113 6.3 The Process
of Starch Digestion 115 6.3.1 Enzyme action 115 6.4 Structural and
Physiological Fundamentals of SDS 116 6.4.1 Physical or food matrix
structures related to SDS 117 6.4.2 Starch chemical structures leading to
SDS 118 6.4.3 Other food factors that decrease digestion rate 120 6.4.4
Physiological control of food motility 121 6.5 Application-Oriented
Strategies to Make SDS 121 6.5.1 Starch-based ingredients 121 6.5.2 SDS
generation in a food matrix 122 6.6 Considerations 123 References 123 7
Measurement of Resistant Starch and Incorporation of Resistant Starch into
Dietary Fibre Measurements 131 Barry V. McCleary 7.1 Introduction 131 7.2
Development of AOAC Official Method 2002.02 133 7.3 Development of an
Integrated Procedure for the Measurement of Total Dietary Fibre 136
References 142 8 In Vitro Enzymatic Testing Method and Digestion Mechanism
of Cross-linked Wheat Starch 145 Radhiah Shukri, Paul A. Seib, Clodualdo C.
Maningat, and Yong-Cheng Shi 8.1 Introduction 145 8.2 Materials and Methods
148 8.2.1 Materials 148 8.2.2 General methods 148 8.2.3 Conversion of CL
wheat starch to phosphodextrins and 31PNMR spectra of the phosphodextrins
148 8.2.4 Digestibility of CL wheat starch 149 8.2.5 Thermal properties 150
8.2.6 Microscopic observation 150 8.2.7 Scanning electron microscope (SEM)
150 8.2.8 Statistical analysis 150 8.3 Results and Discussion 151 8.3.1
Effects of a-amylase/amyloglucosidase digestion on P content and chemical
forms of the phosphate esters on starch 151 8.3.2 Thermal properties 152
8.3.3 Starch granular morphology before and after enzyme digestion 153
8.3.4 Digestibility 160 8.4 Conclusions 162 8.5 Acknowledgements 163 8.6
Abbreviations Used in This Chapter 163 References 163 9 Biscuit Baking and
Extruded Snack Applications of Type III Resistant Starch 167 Lynn Haynes,
Jeanny Zimeri and Vijay Arora 9.1 Introduction 167 9.2 Thermal
Characteristics of Heat-Shear Stable Resistant Starch Type III Ingredient
168 9.3 Application to Biscuit Baking: Cookies 172 9.4 Cracker Baking 175
9.5 Extruded Cereal Application 178 9.5.1 Preparation of extruded RTE
cereal and analysis 179 References 189 10 Role of Carbohydrates in the
Prevention of Type 2 Diabetes 191 Thomas M.S. Wolever 10.1 Introduction 191
10.2 Background 191 10.2.1 Definition of diabetes 191 10.2.2 Types of
diabetes 192 10.2.3 Complications of diabetes 192 10.2.4 Prevalence of
diabetes 192 10.2.5 Risk factors for type 2 diabetes 193 10.3 Carbohydrates
and Risk of Type 2 Diabetes 193 10.3.1 Markers of carbohydrate quality 193
10.4 Pathogenesis of Type 2 Diabetes 195 10.5 Effect of Altering Source or
Amount of Dietary Carbohydrate on Insulin Sensitivity, Insulin Secretion
and Disposition Index 197 10.6 Mechanisms by Which Low-GI Foods Improve
Beta-Cell Function 199 10.6.1 Glucose toxicity 199 10.6.2 Reduced serum
free fatty acids (FFA) 200 10.6.3 Increased GLP-1 secretion 201 10.7
Conclusions 202 References 202 11 Resistant Starch on Glycemia and Satiety
in Humans 207 Mark D. Haub 11.1 Introduction 207 11.2 Diet and Resistant
Starch 208 11.3 Resistant Starch and Insulin Sensitivity 209 11.4 Current
Theoretical Mechanism 209 11.5 Satiety 211 11.6 Fermentation and Gut
Microbiota 212 11.7 Effect of RS Type 212 11.8 Summary 213 References 213
12 The Acute Effects of Resistant Starch on Appetite and Satiety 215
Caroline L. Bodinham and M. Denise Robertson 12.1 Appetite Regulation 215
12.2 Measurement of Appetite in Humans 216 12.3 Proposed Mechanisms for an
Effect of Resistant Starch on Appetite 217 12.4 Rodent Data 218 12.5 Human
Data 221 References 225 13 Metabolic Effects of Resistant Starch 229
Martine Champ 13.1 Fermentation of RS and Its Impact on Colonic Metabolism
230 13.2 Resistant Starch, Glycemia, Insulinaemia and Glucose Tolerance 235
13.3 RS Consumption and Lipid Metabolism 236 13.4 RS Consumption, GIP,
GLP-1 and PYY Secretion 238 13.5 RS Consumption, Satiety and Satiation and
Fat Deposition 239 13.6 Conclusion 242 References 244 14 The Microbiology
of Resistant Starch Fermentation in the Human Large Intestine: A Host of
Unanswered Questions 251 Harry J. Flint 14.1 Introduction 251 14.2
Identifying the Major Degraders of Resistant Starch in the Human GI Tract
252 14.2.1 The human colonic microbiota 252 14.2.2 Cultural studies 252
14.2.3 16S rRNA-based studies 253 14.3 Systems for Starch Utilization in
Gut Bacteria 254 14.3.1 Bacteroides spp. 255 14.3.2 Bifidobacterium spp.
255 14.3.3 Lachnospiraceae - Roseburia spp., Eubacterium rectale and
relatives 256 14.3.4 Ruminococcaceae 256 14.4 Metagenomics 256 14.5 Factors
Influencing Competition for Starch as a Growth Substrate 257 14.6
Metabolite Cross-Feeding 258 14.7 Impact of Dietary Resistant Starch upon
Colonic Bacteria and Bacterial Metabolites in Humans 259 14.8 Conclusions
and Future Prospects 260 Acknowledgements 262 References 262 15 Colon
Health and Resistant Starch: Human Studies and Animal Models 267 Suzanne
Hendrich, Diane F. Birt, Li Li and Yinsheng Zhao 15.1 RS Classification 267
15.2 RS and Colon Health: Overview 267 15.3 RS, Gut Microbes and Microbial
Fermentation 268 15.3.1 RS and laxation 269 15.3.2 RS, IBS and
diverticulosis 270 15.3.3 RS and IBD 270 15.3.4 RS and colon cancer risk -
human studies 271 15.4 Colon Cancer Prevention - Animal Models 272 15.5
Conclusions 275 References 275 Index 279