In biochemistry, lipids are molecular organic compounds, composed largely of carbon and hydrogen, that are essential for cell growth. Lipids are non-soluble in water and combine with carbohydrates and proteins to form the majority of all plant and animal cells. They are more commonly synonymous with the word "fats" when speaking in terms of personal health. Although all fats are lipids, not all lipids are fats.
1. Dissacharides
by Karen Timberlake-voice of “Dr Rob Craig”
by “DrRobiAwesome“
• Question 15.42
• To 15.55
• Amylose and amylopectin
• Maltose-diase
• Lactose-lactase
• Sucrose –sucrase
• Polysaccharides-blood types
• Chapter 16
2. Chapter 23 2
Periodic Acid Cleavage
• Periodic acid cleaves vicinal diols to give
two carbonyl compounds.
• Separation and identification of the
products determine the size of the ring.
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4. Chapter 23 4
Epimerization
In base, H on C2 may be removed to form
enolate ion. Reprotonation may change
the stereochemistry of C2.
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5.
6. Chapter 23 6
Enediol Rearrangement
In base, the position of the C=O can shift.
Chemists use acidic or neutral solutions
of sugars to preserve their identity.
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7.
8. Chapter 23 8
Oxidation by Bromine
Bromine water oxidizes aldehyde, but not
ketone or alcohol; forms aldonic acid.
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10. Chapter 23 10
Disaccharides
• Three naturally occurring glycosidic linkages:
• 1-4’ link: The anomeric carbon is bonded
to oxygen on C4 of second sugar.
• 1-6’ link: The anomeric carbon is bonded
to oxygen on C6 of second sugar.
• 1-1’ link: The anomeric carbons of the two
sugars are bonded through an oxygen. =>
11.
12. Chapter 23 12
Cellobiose
• Two glucose units linked 1-4’.
• Disaccharide of cellulose.
• A mutarotating, reducing sugar.
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27. Chapter 23 27
Glycogen
• Glucose polymer, similar to amylopectin, but
even more highly branched.
• Energy storage in muscle tissue and liver.
• The many branched ends provide a quick
means of putting glucose into the blood.
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