Sugar Substitute
Sweeteners, for baking, contains sugar and sucralose
398 kcal
Energy
0.0 g
Fat
47.1 g
Sugar
0.0 g
Salt
Caloric Ratio
Nutrition
Calories % Daily Value | ||
---|---|---|
Total Calories | 398 (1666 kJ) | |
from Carbohydrate | 398 (1667 kJ) | |
from Fat | 0 (0 kJ) | |
from Protein | 0 (0 kJ) | |
from Alcohol | 0 (0 kJ) |
Carbohydrates % Daily Value | ||
---|---|---|
Total Carbohydrates | 99.5 g | |
Dietary Fiber | ~ | |
Starch | ~ | |
Sugars | 47.1 g | |
Sucrose | 47,050.0 mg | |
Glucose | 0.0 mg | |
Fructose | 0.0 mg | |
Lactose | 0.0 mg | |
Maltose | 0.0 mg | |
Galactose | 0.0 mg |
Fats & Fatty Acids % Daily Value | ||
---|---|---|
Total Fat | 0.0 g | |
Saturated Fat | ~ | |
Butyric Acid | ~ | |
Caproic Acid | ~ | |
Caprylic Acid | ~ | |
Capric Acid | ~ | |
Lauric Acid | ~ | |
Tridecylic Acid | ~ | |
Myristic Acid | ~ | |
Pentadecanoic Acid | ~ | |
Palmitic Acid | ~ | |
Margaric Acid | ~ | |
Stearic Acid | ~ | |
Arachidic Acid | ~ | |
Behenic Acid | ~ | |
Lignoceric Acid | ~ | |
Monounsaturated Fat | ~ | |
Myristoleic Acid | ~ | |
15:1 | ~ | |
Palmitoleic Acid | ~ | |
16:1 c | ~ | |
16:1 t | ~ | |
17:1 | ~ | |
Oleic Acid | ~ | |
18:1 c | ~ | |
18:1 t | ~ | |
Gadoleic Acid | ~ | |
Erucic Acid | ~ | |
22:1 c | ~ | |
22:1 t | ~ | |
Nervonic Acid | ~ | |
Polyunsaturated Fat | ~ | |
Linoleic Acid | ~ | |
18:2 CLAs | ~ | |
18:2 n-6 c,c | ~ | |
18:2 t,t | ~ | |
18:2 i | ~ | |
18:2 t | ~ | |
Linolenic Acid | ~ | |
alpha-Linolenic Acid | ~ | |
gamma-Linolenic acid | ~ | |
Parinaric Acid | ~ | |
Eicosadienoic Acid | ~ | |
Eicosatrienoic Acid | ~ | |
20:3 n-3 | ~ | |
Dihomo-gamma-linolenic acid | ~ | |
Arachidonic Acid | ~ | |
20:4 n-6 | ~ | |
Timnodonic Acid | ~ | |
Clupanodonic Acid | ~ | |
Docosahexaenoic Acid | ~ | |
Trans Fat | ~ | |
Omega-3 Fatty Acids | ~ | |
Omega-6 Fatty Acids | ~ |
Sterols % Daily Value | ||
---|---|---|
Cholesterol | ~ | |
Phytosterols | ~ | |
Campesterol | ~ | |
Stigmasterol | ~ | |
Beta-sitosterol | ~ |
Protein & Amino Acids % Daily Value | ||
---|---|---|
Protein | 0.0 g | |
Essential Aminos | ||
Histidine | ~ | |
Isoleucine | ~ | |
Leucine | ~ | |
Lysine | ~ | |
Methionine | ~ | |
Phenylalanine | ~ | |
Threonine | ~ | |
Tryptophan | ~ | |
Valine | ~ | |
Non-essential Aminos | ||
Alanine | ~ | |
Arginine | ~ | |
Aspartic Acid | ~ | |
Cystine | ~ | |
Glutamic Acid | ~ | |
Glycine | ~ | |
Proline | ~ | |
Serine | ~ | |
Tyrosine | ~ |
Other Nutrients % Daily Value | |
---|---|
Alcohol | ~ |
Water | 0.4 g |
Ash | 0.0 g |
Caffiene | ~ |
Theobromine | ~ |
Vitamins % Daily Value | ||
---|---|---|
Betaine | ~ | |
Choline | ~ | |
Vitamin A | ~ | |
Vitamin B1 (thiamine) | ~ | |
Vitamin B2 (riboflavin) | ~ | |
Vitamin B3 (niacin) | ~ | |
Vitamin B5 (pantothenic acid) | ~ | |
Vitamin B6 (pyridoxine) | ~ | |
Vitamin B9 (folate) | ~ | |
Vitamin B12 (cobalamin) | ~ | |
Vitamin C | ~ | |
Vitamin D | ~ | |
Vitamin E | ~ | |
Vitamin K | ~ |
Minerals % Daily Value | ||
---|---|---|
Calcium | 1.0 mg | |
Copper | 0.0 mg | |
Fluoride | ~ | |
Iron | 0.1 mg | |
Magnesium | 0.0 mg | |
Manganese | 0.0 mg | |
Phosphorus | 0.0 mg | |
Potassium | 2.0 mg | |
Sodium | 2.0 mg | |
Zinc | 0.0 mg |
About Sugar Substitute
A sugar substitute is a food additive that duplicates the effect of sugar in taste, usually with less food energy. Some sugar substitutes are natural and some are synthetic. Those that are not natural are, in general, called artificial sweeteners. An important class of sugar substitutes is known as high-intensity sweeteners. These are compounds with many times the sweetness of sucrose, common table sugar. Read More
A sugar substitute is a food additive that duplicates the effect of sugar in taste, usually with less food energy. Some sugar substitutes are natural and some are synthetic. Those that are not natural are, in general, called artificial sweeteners. An important class of sugar substitutes is known as high-intensity sweeteners. These are compounds with many times the sweetness of sucrose, common table sugar. As a result, much less sweetener is required and energy contribution is often negligible. The sensation of sweetness caused by these compounds (the "sweetness profile") is sometimes notably different from sucrose, so they are often used in complex mixtures that achieve the most natural sweet sensation.