1 / 64

CARBOHYDRATES

CARBOHYDRATES. SUGARS, STARCHES, PECTINS, AND OTHER CARBOHYDRATES. CHARACTERISTICS. Organic compounds Carbon, Hydrogen, Oxygen Simple or complex Source of energy or fiber Important food CHOs - Sugars, dextrins, starches, celluloses, hemicellulose, pectins, gums. FUNCTIONS. SWEETENERS

ernie
Télécharger la présentation

CARBOHYDRATES

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CARBOHYDRATES SUGARS, STARCHES, PECTINS, AND OTHER CARBOHYDRATES

  2. CHARACTERISTICS • Organic compounds • Carbon, Hydrogen, Oxygen • Simple or complex • Source of energy or fiber • Important food CHOs - Sugars, dextrins, starches, celluloses, hemicellulose, pectins, gums

  3. FUNCTIONS • SWEETENERS • THICKENERS • STABILIZERS • GELLING AGENTS • FAT REPLACERS

  4. MONOSACCHARIDES • SIMPLE SUGARS • MOST COMMON - 5 OR 6 CARBON

  5. GLUCOSE • Dextrose • Naturally present in fruit • Basic unit for starches • Less sweet than fructose • Used in food industry because of water holding properties and ability to control crystals • Food for yeast

  6. FRUCTOSE • Levulose • Part of sucrose • Sweetest of all sugars • In many fruits • Very soluble • Not easily crystallized • Glucose isomerase to change glucose to fructose

  7. GALACTOSE • Part of lactose – milk sugar • Basic unit of pectic substances • Building block of many vegetable gums

  8. COMMON MONOSACCHARIDES

  9. DISACCHARIDES • Two monosaccharides • Glycosidic bonds-readily hydrolyzed by heat, acid, enzymes

  10. SUCROSE • Table sugar • From sugar cane or sugar beet • Glucose + fructose • Invert sugar important in controlling crystallization • Most common disaccharide

  11. MALTOSE • Glucose + glucose • Product of starch breakdown • Corn syrup • Flavoring and coloring agent in beer, candies, shakes

  12. LACTOSE • Glucose + galactose • Milk sugar • Extracted from solutions of whey • Not broken down or fermented by yeast • Does not react in batter leavened with baking soda or baking powder • Available for Maillard reaction so added to bakery products for browning

  13. DISACCHARIDES

  14. PROPERTIES OF SUGAR

  15. SOLUBILITY • Solution in foods • Varying degrees of solubility for monosaccharides and disaccahrides • As temperature increases  greater the amount of sugar that dissolves • Slow heating increases the solubility • As concentration increases  boiling point increases • Each gram molecular weight of sucrose increases boiling point 0.940F (0.520C) • Can use temperature to determine sucrose concentration

  16. SATURATION • Unsaturated – small amount of sugar in water, can hold more sugar • Saturated – no more sugar can be dissolved • Supersaturated – holds more than what is usually soluble at a certain temperature • Supersaturation – heat to high temperature and cool slowly

  17. CRYSTALLIZATION • Cool supersaturated solution • Formation of closely packed molecules from the solidification of dispersed elements in a precise orderly structure • Arranged around a nuclei • Size of crystal depends on rate of formation of nuclei and rate of growth • Crystals form too soon  only a few  crystals too large, continue to grow, candy grainy

  18. MELTING POINT/HEAT DECOMPOSITION • Apply dry heat  sugars melt to liquid state • Sucrose melts and forms liquid that turns brown • Carmelization – nonenzymatic browning, flavors food • Noncrystalline

  19. HYGROSCOPICITY • Ability to absorb moisture • Responsible for lumpiness (sugar) • Decreases staling in bread • Gives stickiness for high moisture characteristics to foods • Fructose most hygroscopic

  20. INVERT SUGAR • Acid hydrolysis of disaccharide sucrose • Heat increases hydrolysis • Glucose and fructose in equal amounts (equimolar) • Resists cyrstallization and retains moisture • Add cream of tartar, vinegar, molasses (acids) • Enzyme hydrolysis with invertase

  21. TYPES OF SUGARS CRYSTALLINE AND NON-CRYSTALLINE

  22. GRANULATED SUGAR • Crystalline – table sugar • Sugar cane or sugar beet • Affects texture of baked goods • Improves body and texture of ice cream • Fermented by yeast • Retards growth of microorganisms • Raw sugar banned by FDA • Turbinado –raw sugar separated in centrifuge, washed with steam • Retailed as fine or extra fine

  23. POWDERED SUGAR • Pulverized granulated sugar • Add cornstarch to prevent caking • X designates fineness

  24. BROWN SUGARS • From cane sugar – late stages of refining • Crystals of sugar coated with molasses • Contains invert sugar • Sold in grades • More refined  lighter color, less flavor, lower grade – for baking – less flavor • Higher, darker grades more flavorful and suitable for cooking strong flavored foods

  25. CORN SYRUP • Acid and high temperatures to hydrolyze corn starch • Varying degrees of sugars • High fructose corn syrup (HFCS) from high glucose corn syrup – use enzyme glucose isomerase • Significant use in food industry

  26. MOLASSES AND SORGHUM • By-product of sugar production from sugar cane • Mineral content varies • Bitterness increases as refinement continues – blackstrap molasses • Treacle – dark fluid left after sugar cane is processed • Sorghum – from cane sorghum, similar to molasses

  27. MAPLE SYRUP AND HONEY • Maple syrup from sap of mature maple trees • Water evaporated, organic acids cause flavor • Honey flavors according to flower nectars • USDA has standards for grades of honey

  28. ALTERNATIVE SWEETENERS • Non-nutritive – high intensity sweeteners • Approved saccharin, aspartame, acesulfame-K, sucralose, neotame • Except for sucralose not enough bulk to substitute in recipes • Cyclamates – banned • Sugar alcohols - polyols– improve bulk, mouthfeel, and texture

  29. SUGAR COOKERY CANDIES

  30. CRYSTALLINE CANDIES • Generally soft • Smooth, creamy with tiny crystals that cannot be detected with the tongue • Fondant and fudge • Use interfering agent to prevent early crystallization • Must concentrate solution-test temperature to determine concentration • Complete solution of crystalline sugar

  31. INTERFERING AGENT • Interfere with size or rate of crystal growth • Contribute to viscosity of syrup and elevate the boiling point • Examples – milk, butter, cream, eggs, chocolate, cocoa, proteins, fats, dextrins, invert sugar, corn syrup

  32. NON-CRYSTALLINE CANDIES • Amorphous • No definite crystalline pattern • Cook to very high temperature • Adding large amounts of interfering agent • Combination of methods • Hard – brittles, high temperature, low moisture • Chewy – caramels, high interfering agent • Aerated – marshmallows, air trapped in protein foams and interfering agent

  33. POLYSACCHARIDES • Complex carbohydrate polymers • Properties depend on sugar units, glycosidic linkage and degree of branching • Starches, Pectins, Gums most important • Hydrocolloids – water loving colloidal substances

  34. STARCH • Plant polysaccharide - linked glucose monomers • GRANULES - formed in cells, grow by adding on layers • Long-chain glucose polymers • Insoluble in water • Form temporary suspension

  35. SOURCES • Characteristic of finished food depends on starch source • Seeds, roots and tubers • Cereal grains - wheat, corn, rice, oats • Roots and tubers - potatoes, arrowroot, cassava

  36. STRUCTURE AMYLOSE AND AMYLOPECTIN

  37. AMYLOSE • Straight chain or linear fraction • 1/4 of all starch • Thousands of glucose units • Forms thick gels-hold shape when molded, rigid

  38. AMYLOPECTIN • Highly branched • 3/4 of starches • Thickens but does not gel • Proportion of amylose:amylopectin influences cooking qualities and keeping characteristics of finished food product

  39. AMYLOPECTIN

  40. STARCH CHARACTERISTICS • Ability to absorb water limited • In uncooked stage is insoluble in cold water - forms temporary suspension because polymer is too large • Doesn’t change boiling point or freezing point of liquid • Reversible

  41. EFFECTS OF HEAT

  42. DRY HEAT • Heating - increases uptake of water • Dextrinization • Color and flavor changes • Reduced thickening power • Nonenzymatic browning • Dry flour browned

  43. MOIST HEAT • Complete absorption as heat increases - permanent swelling, irreversible • Sol - as starch continues to come out of granules • Viscosity-thickness, thinness of liquid • Translucency increases during heating

  44. GELATINIZATION • Sum of changes in first stages of moist heating of starch granules • Gelatinized granules = opaque, fragile, ordered structure disrupted • Temperature of gelatinization differs for each starch • Short chains of amylose come out of the granules • Irreversible changes

  45. CONTINUED HEATING • Gelatinization requires addition of heat • Cooking develops flavor • Pasting occurs • Granules swell • Granules of starch swell independently

  46. PASTE CHARACTERISTICS • Concentration of starch affects consistency • Clear thickened gel made from root starches or waxy versions of starches • Cloudy gels from cereal starches

  47. FACTORS AFFECTING GELATINIZATION

  48. ACID • Fragments (hydrolyzes) starch molecule = thinner hot paste and less firm product • Hydrolysis = less hydration of starch • Add acid after gelatinization and after starch has cooked • Applicable - lemon juice, vinegar, tomatoes

  49. AGITATION • Over-stirring causes granules to burst, empty bound water = gel will thin • Creates more uniform mixture

  50. OTHER FACTORS • FAT AND PROTEIN- coats (adsorbs) to surface of granule = delays hydration Fat in pie crust to prevent clumping • SUGAR - competes for liquid = delays absorption by granule = thinner mixture Elevates temperature for gelatinization • ENZYMES - hydrolyze starch molecules

More Related