Summary

This document provides an overview of carbohydrates, including monosaccharides, disaccharides, and polysaccharides. It covers the structure, classifications, and important functions of these essential biological molecules. It details the role of carbohydrates as a primary energy source and structural components.

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Carbohydrates and Sugars  Carbohydrates- are a major source of energy from our diet.  Composed of the elements C, H, and O  Also called saccharides Main functions: → Main source of energy for all living organisms → Structural support → Act as “road markers” --- sign...

Carbohydrates and Sugars  Carbohydrates- are a major source of energy from our diet.  Composed of the elements C, H, and O  Also called saccharides Main functions: → Main source of energy for all living organisms → Structural support → Act as “road markers” --- signal o Cell markers are carbohydrate chains on the surface of cells where they act as “road signs” allowing molecules to distinguish one cell from another → Can be represented by the stoichiometry formula  They can exist as linear chains or as ring-shaped (CH2O), where n is the number of carbons in the molecules. molecule.  In aqueous solution, they are usually found in ring → The ratio of carbo to hydrogen to oxygen is 1:2:1 form.  α solution: if the OH group is in carbon number 1  β solution: if the OH group is above the plane. Carbohydrates as Structural Support Classifications (differences) of CARBOHYDRATES: Types of Monosaccharides: GLUCOSE Monosaccharides  Glucose is an alpha-carbohydrates (α-  The simplest carbohydrates carbohydrates)  Cannot be broken down to smaller carbohydrates  Dextrose or blood sugar  One sugar unit  Primary fuel for the body  Pinagmumulan ng lahat ng carbohydrates  Not commonly found in diet but can be produced by  Important single sugar are: breaking down complex structures with the help of o Glucose enzymes. o Fructose o Galactose  The number of carbons usually ranges from 3 to 7.  Most monosaccharide name and with the suffix –ose  If the sugar has an aldehyde group, then it is named as aldose  If the sugar has a ketone group, it is known as ketose  Depending on the number of carbons in the sugar, they also may be known as trioses, pentose, and/or hexoses. Oligosaccharides  Type of carbohydrate formed when 3 to 10 simple FRUTOSE sugars are linked together  Short chain or monosaccharides  Are classified as β-carbohydrates  Small amounts occur naturally in many plants  Sugar of fruit, honey  Can have many functions including cell recognition  Sweetest of all simple sugar  Usually present in soft drink, ready to use cereals and cell binding and deserts  Converts to glucose in the body GALACTOSE  Are classified as β-carbohydrates  found combines with glucose in the disaccharide lactose present in milk  They are known as milk sugar Polysaccharides  Are large molecules of monosaccharides that are Disaccharides connected to each other through their anomeric  Consists of two monosaccharide units that are joined carbons together.  Classifications: o Contain only single monosaccharide (can  They can be split into two monosaccharides be branched or unbranched) o Maltose= glucose + glucose o Lactose= glucose + galactose o Contain two or more monosaccharide (can be branched or unbranched) o Sucrose= glucose + fructose  Formation of covalent bonds which are known as glycosidic bonds.  It can be alpha or beta bond  Types: o α bond- formed when OH group on carbon o Storage polysaccharides- contain only α- 1 of the first glucose is below the ring glucose units (starch, glycogen, and plane. amylopectin) o β bond- formed when the OH group on the o Structural polysaccharides- contain only β- carbon 1 above the ring plane. glucose unit (cellulose and chitin) Starch- can be branched or unbranched If starch is unbranched then it is,  Amylose o Makes up 20% of plant starch o Long chains of amylose tend to coil o Can be found in plant foods If starch is branched, then it is,  Amylopectin o Makes up 80% of plant starch o More complicated structure Sources of Carbohydrates glucose Fruits, honey, corn syrup fructose Fruits, honey Glycogen galactose milk + Can be similar in structure with starch maltose Backed starched + Storage form of polysaccharide found in sucrose Cane & beat sugar animals lactose Milk products + When glucose is needed, glycogen is Starch & dextrin Grains, root & tubers, hydrolyzed in the liver to glucose legumes glycogen Meat product, sea food cellulose Vegetables. Outer coat of seed Pectin & gum Fruits, plant secretion, seeds DIGESTION AND ABSORPOTION OF CARBOHYDRATES Digestion in Mouth  Mechanical Digestion o Chewing crumble known as mastication, crumble the carbohydrate food into smaller and smaller pieces forming bolus.  Chemical Digestion o Salivary glands in oral cavity secrets saliva o Starch -> maltose o Only 5% of starch are broken down in mouth Digestion in Stomach  Mechanical Digestion Cellulose o Peristalsis  Chemical Digestion + Contains glucose unit bonded o Action of ptyalin continues only inside bolus + The chain of glucose units is straight; this o About 30-40% of dietary starch is allow chains to align next to each other to digested before bolus is broken down and form a strong rigid structure acidified o Enzymatic reaction stops when chyme is passed down to the small intestine Digestion in Small Intestine  Mechanical Digestion o These is no mechanical digestion  Chemical Digestion o Action of pancreas o Pancreatic juice o Absorption Intestinal Enzymes Undigested Carbohydrates  Certain carbohydrate like cellulose is undigested by human due to lack of enzymes like cellulase  However, it provides fibers for absorption of water into the large intestine which expand the muscle walls and trigger muscle contraction for egestion. Glucose when needed, are transported in most cells through: Excess intake of Carbohydrates: ✓ Places a large metabolic load on the body which leads to weight gain, poor metabolic health and increased risk of heart disease ✓ Consuming too many carbs especially those with a high glycemic load, can increase the risk of several disorders, including type II diabetes ✓ Diet containing too many carbs can also raise fat that travels in the blood leading to cardiovascular disease. Low intake of Carbohydrates: ✓ Long-term restriction of carbs in the diet may lead to kidney damage, increased risk of cancer, impairment of physical activity and lipid abnormalities

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