egg yolk Lipids Lipids are Biomolecules that contain fatty acids or a steroid nucleus Soluble in organic solvents but not in water Named for the Greek word lipos which means fat ID: 570708
Download Presentation The PPT/PDF document "Isolation cholesterol from" is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
Slide1
Isolation cholesterol from
egg yolkSlide2
Lipids
Lipids
are
Biomolecules
that contain fatty acids or a steroid nucleus.
Soluble in organic solvents but not in water.
Named for the Greek word
lipos
, which means “fat.”
Extracted from cells using organic solvents.Slide3
Types of Lipids
Lipids with fatty acids
Waxes
Fats and oils (
trigycerides
)
Phospholipids
Sphingolipids
Lipids without fatty acids
Steroids
.Slide4
Structures of Lipids
Copyright © 2007 by Pearson Education, Inc.
Publishing as Benjamin CummingsSlide5
Cholesterol
Cholesterol
Is the most abundant steroid in the body.
is a waxy substance found in all of the body cells.
Has methyl CH
3
- groups, alkyl chain, and -OH attached to the steroid nucleus.Slide6
Function
help and maintain cell membranes.
protect and insulate nerve fibers.
involved in the formation of sex hormones, such as estrogen.
production of bile salts, which help digesting fats.Slide7
Cholesterol in the Body
Cholesterol in the body
Is obtained from meats, milk, and eggs.
Is synthesized in the liver.
Is needed for cell membranes, brain and nerve tissue, steroid hormones, and Vitamin D.
Clogs arteries when high levels form plaque.
A normal, open artery.
Copyright © 2007 by Pearson Education, Inc.
Publishing as Benjamin Cummings
An artery clogged by cholesterol plaqueSlide8
Cholesterol in Foods
Cholesterol
is
Synthesized in the liver.
Obtained from foods.
Considered elevated if plasma cholesterol exceeds 200 mg/
dL
.
TABLE 17.4
Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin CummingsSlide9
Lipoproteins
Lipoproteins
Combine lipids with proteins and phospholipids.
Are soluble in water because the surface consists of polar lipids.
Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin CummingsSlide10
Types of Lipoproteins
Lipoproteins
Differ in density, composition, and function.
Include low-density lipoprotein (LDLs) and high-density lipoprotein (HDLs).
TABLE 17.5
Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin CummingsSlide11
Transport of Lipoproteins in the Body
Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin CummingsSlide12
Low-density lipoprotein (LDL)
Low-density lipoproteins transport cholesterol throughout the body, delivering cholesterol to different tissues and organs. When the cells have all the cholesterol they need, they reduce the number of receptors, or gateways, for cholesterol to enter. As a result, cholesterol contained in the LDL particles (LDL cholesterol) starts to build up in the blood stream.Slide13
Over time, circulating LDL cholesterol undergoes chemical changes (becomes oxidized) and also reduces in size. These smaller particles more easily enter the blood vessel wall and start to build up under the vessel lining. Deposits of LDL cholesterol particles in vessel walls are called
plaques
and can lead to inflammation, bleeding into the area, and calcium buildup (calcification). Eventually, the buildup of plaques can start to crowd the space within the blood vessel and obstruct the blood flow. This process of plaque accumulation is called
atherosclerosis
.Slide14
When atherosclerosis affects the arteries leading to the heart (coronary arteries), one may have chest pain and other symptoms of coronary artery disease. If plaques tear or rupture, a blood clot may form — blocking the flow of blood or breaking free and plugging an artery downstream. If blood flow to part of the heart stops, a heart attack will occur. If blood flow to the brain stops, a stroke occurs. This is why LDL cholesterol is often referred to as ―
bad cholesterol.Slide15
High-density lipoprotein (HDL)
Rather than deliver cholesterol to cells, high-density lipoproteins leave the liver with very little cholesterol, pick up
excess
cholesterol on their route through the bloodstream and take it
back
to your liver. The liver excretes this cholesterol into the bile and out of the body through the bowels. Because HDL particles remove excess cholesterol from the body, they are considered protective. That’s why HDL cholesterol is often referred to as ―
good cholesterol
.Slide16
Isolation of Cholesterol from egg yolkSlide17
Egg yolkSlide18
Experiment
Reagents and instruments
A hard boiled hen egg
Acetone, Ice, Water bath, Erlenmeyer flask, Funnel, Filter paper, 250 ml beakerSlide19
Reagents and instruments
A hard boiled hen egg
Acetone,
Ice,
Water
bath,
Erlenmeyer
flask,
Funnel
,
Filter
paper,
250
ml beakerSlide20
1. Extraction
1. Peal
the hard boiled egg and remove the egg white.
2
. In
a 250 ml beaker weigh a ½ egg yolk and mash it.
3. To
the mashed egg yolk add a 25 ml of acetone and keep stirring for 5 min.
4. Allow
the solid to settle and carefully remove the acetone (the above liquid phase) and transfer it to a clean 100 ml Erlenmeyer flask and cover it tightly.
5. To
the remained solid phase add a new 25 ml of acetone and repeat step 4. Now you have collected twice the 25 ml of acetone extract (it contains the cholesterol).Slide21
2. Isolation
1. Using
a funnel and a filter paper, filter the 50 ml of acetone extract into a clean 100 ml beaker.
2. Evaporate
the acetone by placing the beaker on the steam bath in the hood until about 10 ml of extract is left.
3. Cover
the warm acetone extract and immediately transfer it on ice and let it stand for 20 min. A white precipitate will form (this is the crude cholesterol). Remove the flask from ice. Get rid of the liquid phase.Slide22
4. To the cholesterol precipitate add 15 ml of acetone and stir at room temp.
Note
that not all precipitate will dissolve (the contaminating phospholipids remain insoluble).
5. Weigh a clean, dry watch glass. Filter the dissolved cholesterol solution into the pre-weighed watch glass. Allow the acetone to evaporate in the hood. The remained crystals is the cholesterol.
6. Weigh the watch glass with cholesterol. Calculate the yield of cholesterol.
3. Purification