analysis of food

Analysis Of Food

Food analysis is the discipline dealing with the development, application and study of analytical

procedures for characterizing the properties of foods and their constituents

Characteristics of food, include their composition structure and physicochemical properties

Food components e.g. lipids, proteins, water ,carbohydrates and minerals

1-Introduction

2 -Food Safety-one of the most important reasons for analyzing

food to ensure that they are safe-Food considered to be unsafe because it may

contains:1 -harmful micro organisms (Salmonella).

2 -toxic chemicals (pesticides).3 -extraneous matter(glass, wood, metal, insects

and matter)

So analytical techniques must be of high sensitivity to detect low levels of harmful material

Properties Analyzed1 -Composition:

a- most foods are compositionally complex materialMade up of a variety of different chemical constituents

b- Composition depends upon the property that is of interest to the analyst e.g:.specific atoms :C,H,N,O,S,Na,…etc

specific molecules : water, sugar.…,Specific substances : milk, flour, butter.…,

Types of molecules : fats, proteins, carbohydrates, minerals

2-Structure a- Molecular structure(~1-100nm)

type of molecules present

b- Microscopic structure (~10nm-100 μ m) food can be observed by microscopy (not by

unaided eye) eg emulsion droplets, fat crystals, protein

aggregates...,

c- Microscopic structure (~> 100 μm) food can be observed by the unaided eye) eg sugar granules ,

raisons, chocolate chips food.…

PhysicochemicalProperties of food

Optical(interaction with electromagnetic radiation )

Absor ,scatt ,transmit , reflec of visible light

full fat milk, skim milk

Rheological(the way of the shape

changes)Margarine is spreadable out of refrig, must not be very soft

FlavorThe way that certain molecule interact with

the receptors mouth (taste, nose, smell )

Stability(it is the measure of its ability to resist

changes in its chemical. Physical or biological properties over time

Thus food must be carefully designed so that they have the required physicochemical properties over range of environmental conditions

andAnalytical techniques are needed to test

physicochemical properties

Food components: can be distinguished from each other by

(aMolecular Characteristics: size ,shape, polarity, interaction with radiation.…,

)b physical properties: melting points, boiling points, density.…,

(cChemical reaction: Specific chemical reaction between certain component and an added reagent

3 -Selecting an Appropriate TechniqueSome of the criteria that are important in selecting a technique are:

precision Accuracy CostSimplicity of operationReproducibilitySensitivitySpeeddestructive /Nondestructivesafety

Specify : a measure of ability to detect and quantify a specific components within a food material even in the presence of other similar components eg fructose in presence of sucrose or glucose

4 -Sample Selection and Sampling A food analyst has to select an appropriate

fraction of the whole material which is one of the most important stages of food analysis , and can lead to large errors

when not carried out correctly

5-Prepartion of Laboratory Samples 5 .1 -Making Samples Homogeneous1 -Mechanical devices e.g., grinder,

mixers ,slicers , blenders 2-Enzymatic method e.g., professes, calluses,

lipases3 -chemical methods e.g., strong acid , strong

bases.

5.2-Reducing Sample Size and Preventing Changes in sample Enzymatic InactivationLipid ProtectionMicrobial Growth and ContaminationPhysical changes

Proteins are polymers of amino acidTwenty different type f amino acid occur

naturally in proteins.Proteins differ from each other according to

number and sequence of amino acid that makes up polypeptide backbone

Thus proteins have different molecular structure

Analysis of Proteins

-Proteins are important constituents of food, they are major source of energy.

-Proteins are major structural component of many natural food e.g. meat or fish product

-Protein are used as galling agent, emulsifiers, foaming agent.

-Many food proteins are enzymes which are capable of enhancing the rate off certain biochemical reaction

-Food analysis are interested in knowing the total concentration ,type, molecular structure, and functional properties of proteins in food

ProteinsAmino acids are the basic structural units of proteins. An amino acid is a compound that contains at least one amino group(-NH2) and at least one carboxyl group (-COOH)

Elements in Proteins

Protein structure Carbon(black) Nitrogen (blue)Oxygen (red)R-Group(green)Hydrogen (gray)

7-Determination Of Overall Proteins Concentration

7.1-Kjeldahl Method1 -Food is digested with strong acid (H2SO4)

to oxidize any nitrogen in the oxidation state -3 to NH4SO4N(food) (NH4) 2SO4

2 -HgO is added as a catalyst to ensure complete oxidation.

3 -Nitrogen in oxidation states other than -3 (nitro, azo- are oxidation to N2 resulting an error , salicylic acid is added as a reducing nitrogen to -3 state.

4 -The ammonium sulphate is then converted into ammonia gas by heating with sodium hydroxide

(NH4)2SO4+2 NaOH Na2SO4+2H2 +2O NH3

5-NH3 is collected in a flask containing a known amount of standard HCL.

2NH3+2HCL 2(NH4)CL

6-The excess HCL is then titrated with standard NaOH

1 Mole HCL=1Mle N=14 gN7-A blank sample is usually run at the same time

as the material being analyzed to into account ay residual nitrogen take may be present into the reagent used to carry out the analysis.

8 -the continent of protein is equivalent to the amount of nitrogen found

F= conversion factor =100( % Nin food protein)

A conversion factor of 6.25(equivalent to 0.16g nitrogen per gram of protein) is used

for many application this is an average value, each protein has a different

conversion factor depending on its amino-acid composition

NХF % protein%=

Table (1):Specific Jones factor for the conversion of nitrogen content (selected food)

5.71 soybean6.25 Velvet beans5.46 peanuts

factor foodAnimal origin

.68 Eggs6.25 Meat6.38 milk

Vegetable organ

6.25 Corn (maize)5.95 rice

7.2 -spectroscopic methods of proteins analysis

1 -Methods using UV-visible spectroscopy 2 -Infrared spectroscopy : near infrared (NIR)λ

region is 800-2500nm, it penetrates deeper into the food sample giving a more reprehensive analysis.

3 -NMR Spectroscopy : protein content by measuring area under a peak in a NMR chemical shift spectra that correspond to the protein fraction.

Method using UV - vis spectroscopy 1-these methods use either the natural ability of proteins

to absorb (or scatter) light in the UV-Vis reason of the electromagnetic spectrum

or

They chemically or physically modify proteins to make them absorb or scatter light in this reason

2 -Calibration curve of absorbance or turbidity verses protein consecration

The most common UV-vis methods for protein content of food are

Biuret methodscu +2 interact with-

peptide bond in alkaline med forming violet – purplish color. It is mixed with port

stand15-30 min to give abso 540nm

advantages no interfere at low conc.Disadvantages less

sensitivity, common to all peptide bond .

Dye binding method The amount of proteins present in the original solution is proportional to the amount of dye

thatBond to it

Dye bond =dye initial –dye free

Trimetric methodSoluble proteins can

precipitate by the add of cectain chemical eg trichloro acetic acid

causing the solute be turbid cone of protein can be determine By

measure the degree of turbidity

7.3-Measurement of Physical Properties

DensityThe density of a

protein is greater than that

of the most other food

components, and so there is an

increase in density of a food

as its protein content increase.

Refractive IndexThe refractive

index of an aqueous solution increases as the

protein concentration

increases

8 -protein separation and characterization1-Separation due to Different Adsorption

characterization Ion exchange chromatography.

2-Separation due to size difference . Size exclusion chromatography

3 -Separation by electrophoresis

9 -Metal in foodTinZincArsenicCopperThese metals can be determine gravimetrically or by atomic absorption methods.

9-1 MERCURY IN FOOD PRODUCT

Mercury in mushroom

Mercury in fishes

1 -fish is an important part of a healthy diet

2 -benefits of fish: high in protein, law in saturated fat and high in unsaturated fat

3 -most people are exposed to mercury via food

4 -fish takes up mercury from steams and oceans as they feed, this mercury is the most toxic form ,methyl mercury. It binds to there tissue protein (muscles)

5 -there are three forms of mercury : organic ,inorganic and metallic.

6-organic form I dangerous (methyl mercury).

7 -inorganic mercury is converted to organic mercury by anaerobic bacteria at the bottom of lakes streams

8 -small aquatic animals consumes the organic mercury, and in turn eaten by larger life form.

9-as the elements move up to the food chain , forms microbes to the fish then to large animal as

swordfish, mercury becomes more concentrated .

10 -oysters may concentrate mercury by a factor of 100,000.

11-mercury levels differs from one species of fish to the next , according to fish, size, location, habitat and age .

12 -fish contains higher levels of mercury includes ,

shark , swordfish , barramundi…,

13 -fish contains lower levels of Mercury includes, lobster, salmon and canned tuna .

9.1.1 Analysis of mercury in fish

1 .Atomic Absorption Methods

2 .Dithizone Colorimetric Procedure

3 .Neutron Activation Analysis

Dithizone Colorimetric Procedure1 -It is the most commonly used

method. 2 -wet oxidation process .

3 -Hydroxylamine hydrochloride is added to reduce the remaining oxidizing material from wet oxidization. 4-Mercury is extracted from solution using Dithizone in chloroform .

5 -Copper can interact with thiazone causing interference

6 -Sodium thiosulfate is added to the CHC13 layer, a water soluble mercury thiosulfate is formed while copper Dithizone remains in CHC13

7 -The aquophase containing mercury-thiosulfate is again oxidizes by H2SO4 or HNO3 and mercury is extracted with in CHC14

8 -Mercury – dithionate is determined spectrophotometrically at 490nm

“Advantages:”

Low cost, simplicity, senility.=

“Disadvantages:”

Interference of copper.

Ffffffffffffffffff 10-carbohydrates in food

Total carbohydrate content of food is calculated by difference ,rather than

analyzed directly . Thus the constituents in food (proteins, fats water, ash, alcohol) are determined individually , summed and subtracted from total weight of the food.Total cryohydrate=

100(weight in grams(protein, fat, water, ash, alcohol) in 100 grams of food

11-Separation and identification of sugars A- Paper chromatography

b- high performance liquid chromatographyExample separation of fructose , orbital ,scarce and lactose

1 -fructose

2 -orbital3 -scarce 4 -lactose

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12 -fats in food

Fats are hydrolyzed using an alkali such as(NaOH), the alcohol is liberated and also salts of fatty acids (soaps)

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1 -Fats become rancid as a result of peroxide formation at the double bonds by atmospheric oxygen and hydrolysis by micro organisms with the liberation of free acids.

2 -The amount of free acids presents gives an indication of the age and quality of fats

3 -Acids value :is the number of milligrams of KOH requires to neutralize the free acid present in 1gm fat.

12.1 Separation and Charactration of Free Fatty

Acids From Milk

1-The milk sample is prepared by mixing 10ml of milk 10ml, of 28%ammonium hydroxide, 25 ml

petroleum ether and 25ml diethyl ether .

2-when the mixture is well shaken it allows to stands 20 min, the residue is treated with 3ml 0.5N NaOH in methanol, heated on a stream bath 15 min .

3 -5ml water is added then 2N HCL till pH is about 2 is reached .

4 -Separation was carried out using Gas Chromatographic (G . C) method .

5 -Glass column , 3m long , 2mm diameter, packed with silicon polymer.

6 -The column is then programmed from 130-200 ˚C Nitrogen is used as carrier gas.

7 -This method is effective, rapid, accurate quantitative results were easily obtained

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The separation of the fatty acid is milk

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3/n-Caprylic acid

2/n Caproic acid

1/n-Valeric acid

6/n-Myristic acid

5/n-Lauric acid 4/n- Capric acid

9/n-c16-1 ene 8/n-Stearic acid 7/n-Palmitic acid

12/n- linolenicacid

11/n-Linoleic acid

10/n- Oleic acid

Flavor and Fragrances

Flavor is defined as a substance that gives another substance flavor, altering the characteristics of the solute, casing it to become sweet, sour, etc

The flavor of the food, can be natural or artificial flavoring

Due to the high or unavailability of natural flavor extracts most commercial flavoring are nature-identical which means that they are the chemical equivalent of natural of natural flavors but chemically synthesized rather than

being extracted from the source material

Certain organic acids can be used to enhance sour tastes, Each acids impart a slightly different sour

taste that alters the flavor of a food Acetic acids: gives vinegar its sour taste and

distinctive smell Citric acids: found in citrus fruits and gives then them their sour taste.Lactic acids: found in various milk product and give them rich tartness Malic acids: found in apples that gives them their sour/taste.Tartaric acids: found in grapes and wines and gives them a tart taste

A- The accurate and rapid identification and quantitation of flavor and fragrance compounds are often limited by the methods use for extracting, collecting, and concentrating analyte species prior to/gas chromatographic

analysis flavors .

Liquid solvent extraction, steam distillation, methods –B are frequely used for the extration and collection of freagrance and flavor compounds but can require several hours to perform, may yield low extraction efficiencies and may result in loss or degradation of analyte

species .

GOOD LUCK DONE BY:

DR. LATEEFA ALKHATEEB